JP2005041261A - Side part vehicle body structure of automobile - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce deformation amount of a center pillar to the inside of a cabin at the time of side collision, while suppressing a sharp increase of the weight of a vehicle body and reduction of a space in the cabin. <P>SOLUTION: An impact bar 30 (40) is disposed in a side door 8 (10) located before and after the center pillar 3. In the impact bar 30 (40), one end part to be the center pillar 3 side is set to be lower than the other end part. When closing the side door 8 (10), the one end part of the impact bar 30 (40) or a gusset 32 (44) joined to the one end part is overlapped on a side sill 1 in a vehicle width direction (The one end part of the impact bar 30 (40) or the gusset 32 (44) is located to be lower than an upper surface 1e of the side sill 1). The other end part of the impact bar 30 (40) is overlapped on a hinge pillar 5 or a rear pillar 6 to be vertical side parts extending in the vertical direction on a vehicle body side in the vehicle width direction. The impact bar 30 (40) can be set not to overlap on the center pillar 3 in the vehicle width direction. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a side body structure of an automobile.
[0002]
[Prior art]
In an automobile, there is a pair of left and right side sills to which left and right ends of a floor panel constituting a passenger compartment floor surface are connected as a vehicle body strength member extending in the longitudinal direction of the vehicle body. When the front and rear side doors are provided on the side of the vehicle body, a pillar is drilled upward from the middle portion of the side sill in the vehicle longitudinal direction, and between this pillar and the front vehicle body side vertical side extending in the vertical direction in front of the pillar. A front door opening that is opened and closed by the front side door is formed, and a rear door opening that is opened and closed by the rear side door is formed between the pillar and the rear side of the rear vehicle body that extends in the vertical direction behind the pillar. . In the case of an automobile having a roof, the upper end of the pillar is connected to a roof. In the case of an opener type automobile having no roof, the upper end of the pillar is substantially a belt of a side door. Located near the line.
[0003]
By the way, in recent automobiles, from the viewpoint of improving safety against a side collision, an impact bar as a strength member is provided in each side door across the front and rear door edges of the side door. Yes. Patent Document 1 discloses a structure in which two impact bars are disposed in a front side door. That is, the first impact bar is disposed substantially horizontally at the high position of the front side door, while the second impact bar is positioned at the front end of the front side door at a high position, and the rear end is Inclined so as to be located at a low position of the front side door. A rear reinforcement that extends in the vertical direction along a pillar located immediately after the rear door edge of the front side door is provided, and the rear end of each impact bar is connected to the rear reinforcement. What is linked to is disclosed. Further, in Patent Document 1, in FIG. 7, when two impact bars are disposed in the front side door, the rear end of each impact bar is positioned on the pillar located immediately behind the front side door. A device whose position is set so as to be positioned at a substantially intermediate height is also disclosed.
[0004]
In Patent Document 2, a single impact bar disposed in the side door is disposed so as to extend substantially horizontally, and a reinforcing member (a member denoted by reference numeral 11) extends downward from an intermediate portion of the impact bar. There is disclosed a structure in which a lower member of the reinforcing member is positioned near the lower edge of the side door, and a cross member for connecting the pair of left and right side sills is provided at the lower end of the reinforcing member. The rear end portion of the impact bar extending in the horizontal direction in Patent Document 2 is set at the height position of the intermediate portion of the pillar.
[0005]
In Patent Document 3, when one impact bar is disposed in a side door, one end of the impact bar is set near the hinge for opening and closing the door, and the other end is positioned near the door locking mechanism. What has been set is disclosed.
[0006]
[Patent Document 1]
JP 2001-138742 A
[Patent Document 2]
JP 2000-318451 A
[Patent Document 3]
Japanese Utility Model Publication No. 6-65036
[0007]
[Problems to be solved by the invention]
By the way, for example, when a bumper is bumped from an automobile with a considerably high position such as a large vehicle, the bumper of the automobile that bumps against the lower middle portion of the pillar located between the front and rear side doors is positioned. Will be. In this case, not only when the side impact load acts directly on the pillar, but also when the side impact load acts on the pillar via the impact bar arranged in the side door, the amount of deformation of the pillar into the vehicle interior Will become bigger.
[0008]
In order to reduce the amount of deformation of the pillar into the passenger compartment during a side collision as described above, increase the thickness of the panel that makes up the pillar, add reinforcement, increase the cross-sectional shape, etc. It is conceivable to improve the rigidity. However, in this case, the amount of protrusion of the pillar into the passenger compartment is increased, which is not preferable for securing the passenger compartment space, and the vehicle body weight is significantly increased. Will be.
[0009]
The present invention has been made in view of the above circumstances, and its purpose is to suppress a significant increase in vehicle body weight and a reduction in cabin space in a vehicle having a pillar between front and rear side doors. However, an object of the present invention is to apply a side body structure of an automobile that can reduce the amount of deformation of the pillar into the passenger compartment during a side collision.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the following first solution is adopted in the present invention. That is, as described in claim 1 in the claims,
A pair of left and right side sills extending in the longitudinal direction of the vehicle body are connected to the left and right ends of the floor panel that constitutes the passenger compartment floor,
A pillar extends upward from the vehicle longitudinal direction intermediate portion of the side sill,
A front door opening that is opened and closed by a front side door is formed between the pillar and a front side of the front vehicle body that extends in the vertical direction in front of the pillar,
A rear door opening that is opened and closed by a rear side door is formed between the pillar and a rear vehicle body-side vertical side portion that extends in the vertical direction behind the pillar,
In each side door, in the side body structure of an automobile in which an impact bar is provided that extends between the front and rear door edges of each side door and receives a load at the time of a side collision,
The impact bar is disposed so that the pillar side end portion is positioned at a lower portion of the side door and is inclined so as to be directed upward from the pillar side end portion toward the other end portion,
The pillar side end of the impact bar is positioned so as to overlap the side sill from the outside in the vehicle width direction when the side door is closed, and the side impact load received by the impact bar is reduced. Transmitted from the pillar side end to the side sill,
The other end portion of the impact bar is positioned so as to overlap the vehicle body side vertical side portion from the outer side in the vehicle width direction when the side door is closed, and the side received by the impact bar A collision load is transmitted to the vehicle body side vertical side portion through the other end portion.
It is like that. According to the above solution, the side impact load acting on the impact bar is received by the side sill at the pillar side end of the impact bar, and is received by the vehicle body side vertical side at the other end of the impact bar. The effect on the pillar located between the side doors is greatly reduced. The side sill and the vertical side of the vehicle body are originally excellent in rigidity, that is, in strength, and the amount of deformation toward the vehicle interior side can be reduced as compared with the case where the pillar receives the side collision load. In addition, since the side impact load from the impact bar hardly acts on the pillar, even if the pillar is reinforced, only a slight increase in weight is required. As a result, the amount of deformation of the vehicle body, particularly the pillar, into the vehicle interior during a side collision can be reduced while satisfying both the suppression of a significant increase in vehicle body weight and the securing of the vehicle interior space.
[0011]
In order to achieve the above object, the following second solution is adopted in the present invention. That is, as described in claim 2 in the scope of claims,
A pair of left and right side sills extending in the longitudinal direction of the vehicle body are connected to the left and right ends of the floor panel that constitutes the passenger compartment floor,
A pillar extends upward from the vehicle longitudinal direction intermediate portion of the side sill,
A front door opening that is opened and closed by a front side door is formed between the pillar and a front side of the front vehicle body that extends in the vertical direction in front of the pillar,
A rear door opening that is opened and closed by a rear side door is formed between the pillar and a rear vehicle body-side vertical side portion that extends in the vertical direction behind the pillar,
In each side door, in the side body structure of an automobile in which an impact bar is provided that extends between the front and rear door edges of each side door and receives a load at the time of a side collision,
The impact bar is disposed so that the pillar side end portion is positioned at a lower portion of the side door and is inclined so as to be directed upward from the pillar side end portion toward the other end portion,
The pillar side end of the impact bar is joined to the side door via a gusset,
The gusset is positioned so as to overlap the side sill from the outer side in the vehicle width direction when the side door is closed, and the side impact load received by the impact bar is from the pillar side end. Is transmitted to the side sill via a gusset,
The other end portion of the impact bar is positioned so as to overlap the vehicle body side vertical side portion from the outer side in the vehicle width direction when the side door is closed, and the side received by the impact bar A collision load is transmitted to the vehicle body side vertical side portion through the other end portion.
It is like that. According to the second solution, the side impact load acting on the impact bar is transmitted from the pillar side end of the impact bar to the side sill via the gusset. According to the second solution technique, the same effect as that of the first solution technique described above can be obtained.
[0012]
A preferred mode based on the first solution technique or the second solution technique is as described in claim 3 and subsequent claims. That is,
The pillar side end portion of the impact bar may be positioned so as not to overlap the pillar from the vehicle width direction (corresponding to claim 3).
The gusset may be positioned so as not to overlap the pillar from the vehicle width direction (corresponding to claim 4).
According to the third or fourth aspect, the side impact load acting on the impact bar is not allowed to act on the pillar, and is more preferable for reducing the deformation amount of the pillar toward the vehicle interior. It becomes.
[0013]
The side sill has a stepped step portion that has a horizontal surface portion and a vertical surface portion and fits with a lower portion of the side door when the side door is closed,
When the side door is closed, the pillar side end portion of the impact bar overlaps the vertical surface portion from the outer side in the vehicle width direction.
(Corresponding to claim 5).
The side sill has a stepped step portion that has a horizontal surface portion and a vertical surface portion and fits with a lower portion of the side door when the side door is closed,
When the side door is closed, the gusset overlaps the vertical surface portion from the outer side in the vehicle width direction.
(Corresponding to claim 6).
According to the fifth aspect or the sixth aspect, the side impact load acting on the impact bar can be effectively received by the vertical surface portion of the side sill.
[0014]
The middle part of the impact bar is connected to the upper end of an impact bar reinforcing member extending substantially in the vertical direction,
The lower end of the impact bar reinforcing member is positioned so as to overlap the side sill from the outer side in the vehicle width direction when the side door is closed, and the side impact load received by the impact bar is the impact Is transmitted to the side sill via a bar reinforcing member,
(Corresponding to claim 7). In this case, the side impact load acting on the impact bar can be distributed and transmitted over a long range of the side sill via the impact bar reinforcing member, and the side sill is locally deformed greatly toward the vehicle interior side. This is extremely preferable in preventing the situation.
[0015]
A door reinforcing member extending in the front-rear direction is disposed on the lower edge of the side door,
The door reinforcing member is positioned so as to overlap the side sill from the outer side in the vehicle width direction when the side door is closed,
The pillar-side end portion of the impact bar is connected to the pillar-side end portion of the door reinforcing member so that the side impact load received by the impact bar is transmitted to the side sill via the door reinforcing member. ing,
(Claim 8). In this case, the side impact load acting on the impact bar can be distributed and transmitted over a very long range of the side sill via the door reinforcing member, and the side sill is locally deformed greatly toward the vehicle interior side. This is preferable in preventing the situation.
[0016]
The substantially middle part of the impact bar and the middle part of the door reinforcing member can be connected by an impact bar reinforcing member extending in a substantially vertical direction (corresponding to claim 9). In this case, the effects corresponding to claims 7 and 8 can be more fully satisfied.
[0017]
The left and right vehicle body side vertical sides positioned on the other end side of the impact bar are connected by a connecting member extending in the vehicle width direction at a position higher than the side sill ( (Corresponding to claim 10). In this case, the side impact load acting on the impact bar is firmly received by the connecting member, and the deformation of the side door itself on which the vehicle body side vertical side portion and the impact bar is disposed to the vehicle interior side is more effectively prevented. be able to.
[0018]
A front door edge of the front side door is attached to the vertical side of the vehicle body by hinges at the upper and lower parts thereof, so that the front side door is a rear opening type,
The other end portion of the impact bar in the front side door is connected to a mounting position of the upper hinge,
(Corresponding to claim 11). In this case, the side impact load acting on the impact bar can be transmitted to the vehicle body side through the hinge mounting position, that is, the portion with excellent strength, and the side impact load is firmly received on the vehicle body side. Is preferable.
[0019]
A locking mechanism for locking the rear side door in a closed state to the vehicle body is provided at the edge of the rear door of the rear side door and in the vicinity of the belt line.
The other end portion of the impact bar in the rear side door is positioned near the lock mechanism,
(Corresponding to claim 12). In this case, the lock mechanism can be transmitted to the vehicle body side through a portion that is excellent in rigidity, i.e., strength, as the attachment position of the lock mechanism, which is preferable for firmly receiving the side collision load on the vehicle body side.
[0020]
A cross member for connecting the left and right side sills may be provided at a position of a lower end portion of the impact bar reinforcing member when the side door is closed among the side sills. ). In this case, the side impact load from the impact bar transmitted to the side sill can be firmly received by the cross member.
[0021]
The upper end portion of the impact bar reinforcing member may be positioned so as to be closer to the pillar than the lower end portion (corresponding to claim 14). In this case, it is preferable to transmit the side impact load acting on the pillar side end portion of the impact bar to the side sill at a position as far as possible from the pillar in the longitudinal direction of the vehicle body.
[0022]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the deformation amount to the vehicle interior side of the pillar at the time of a side collision can be made small, suppressing the reduction | decrease of vehicle interior space and the significant weight increase of a vehicle body.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
1 to 10 show a first embodiment of the present invention. 1 to 3, the automobile M is a four-door sedan type in the embodiment, and has a pair of left and right side sills 1 extending in the longitudinal direction of the vehicle body at the lower side of the passenger compartment. The left and right ends of the floor panel 2 constituting the passenger compartment floor are connected to the pair of left and right side sills 1. A center pillar (B pillar) 3 extends upward from an intermediate portion in the vehicle longitudinal direction of the side sill 1, and an upper end portion of the center pillar 3 is connected to a roof (roof panel) 4.
[0024]
A hinge pillar 5 serving as a vehicle body side front vertical side portion is positioned in front of the center pillar 3, and a rear pillar 6 serving as a vehicle body side rear vertical side portion is positioned behind the center pillar 3. A space between the center pillar 3 and the hinge pillar 5 is a front door opening 7 that communicates with the outside of the vehicle interior. The front door opening 7 is opened and closed by the front side door 8. Further, the rear pillar opening 9 is opened and closed by the rear side door 10 between the center pillar 3 and the rear pillar 6, which is a rear door opening 9 communicating with the outside of the vehicle interior. The lower end portion of the hinge pillar 5 is connected to the front end portion of the side sill 1, and the lower end portion of the rear pillar 6 is connected to the rear end portion of the side sill 1. The hinge pillar 5 is connected to the roof 4 via the front pillar 11. The upper end portion of the rear pillar 6 is also connected to the roof 4.
[0025]
As shown in FIGS. 5 and 6, the side sill 1 is configured in a closed cross-sectional shape by an outer panel 1 </ b> A, an inner panel 1 </ b> B, and a reinforcement 1 </ b> C, and functions as a vehicle body strength member at the lower edge of the passenger compartment. . The side sill 1 has, on the upper surface portion thereof, a lateral surface portion 1a that extends substantially horizontally from the outside of the passenger compartment to the inward side, and a longitudinal surface portion 1b that extends upward from the inner side end in the vehicle width direction of the lateral surface portion 1a. The two surface portions 1a and 1b constitute a stepped step portion 1c. The vertical surface portion 1b is directed to the outer side in the vehicle width direction and has a surface configuration suitable for receiving a side impact load. Furthermore, among the upper surfaces of the side sill 1, the upper surface portion 1d on the vehicle interior side is set to be substantially horizontal from the outside of the vehicle toward the vehicle interior. Such a setting of the upper surface portion 1d is preferable in forming the torque box 1D and reducing the amount of protrusion into the vehicle interior as much as possible to ensure the vehicle interior space as wide as possible. In this sense, the upper surface portion 1d can be formed so as to be gradually lowered from the outside of the vehicle toward the vehicle interior.
[0026]
Here, in FIGS. 1, 2, 5, and 6, the upper surface of the side sill 1 is indicated by reference numeral 1 e, and the upper surface of the side sill 1 corresponds to the lower edge of the door opening 7 or 9. It is also the upper end position of the closed cross-section structure portion of the side sill 1. In other words, as will be described later, the meaning that the pillar side end and gusset of the impact bar overlap the side sill 1 in the vehicle width direction means that the pillar side end and gusset at least partially 1 means that it exists at a position lower than the upper surface 1e (the upper end position of the closed cross-section structure portion).
[0027]
A part of the side sill 1 that is connected to the center pillar 3 is a torque box 1D that partially swells inwardly in the vehicle width direction as compared with other parts (see FIGS. 3 and 6). In FIG. 6, the solid line indicates the cross-sectional shape at the torque box 1D, and the alternate long and short dash line indicates the cross-sectional shape at a portion other than the torque box 1D. The pair of left and right torque boxes 1D are connected by a cross member 12 extending in the vehicle width direction. The cross member 12 has a closed cross-sectional shape and is also connected to the floor panel 2. The pair of left and right side sills 1 are connected to each other by a cross member 13 at the middle position of the front door opening 7 in the vehicle longitudinal direction. Further, the pair of left and right side sills 1 are connected to each other by a cross member 14 in the vehicle longitudinal direction intermediate portion of the rear door opening 9. Each of the cross members 13 and 14 has a closed cross section and is connected to the floor panel 2. The floor panel 2 is joined with a pair of left and right floor frames 18 that have a closed cross section and extend in the longitudinal direction of the vehicle body (FIGS. 6 and 9).
[0028]
As shown in FIG. 2, the roof 4 has a front header constituting the front edge thereof denoted by reference numeral 4A, a rear header constituting the rear edge thereof denoted by reference numeral 4B, and a pair of left and right roof rails. Is indicated by 4C. The pair of left and right roof rails 4C are connected by roof lanes 15 to 17 extending in the vehicle width direction. In the longitudinal direction of the vehicle body of each of the roof rails 15 to 17, the roof rail 16 located in the middle is the upper end position of the center pillar 3, and the roof rail 15 positioned in front is the vehicle body longitudinal direction of the front door opening 7. The rear flange 17 located at the intermediate position is the intermediate position in the vehicle longitudinal direction of the rear door opening 9.
[0029]
As shown in FIGS. 5-7, the front side door 8 is formed in the closed cross-sectional shape by the outer panel 8A and the inner panel 8B. The front and rear door edges 8a and 8b of the front side door 8 overlap the center pillar 3 or the hinge pillar 5 from the outer side in the vehicle width direction when the door is closed. The lower edge portion 8c of the front side door 8 faces the stepped portion 1c (the vertical surface portion 1b) of the side sill 1 from the outer side in the vehicle width direction when the door is closed.
[0030]
As shown in FIG. 10, the rear side door 10 is formed in a closed cross-sectional shape by an outer panel 10A and an inner panel 10B. The front and rear door edges 10a, 10b of the rear side door 10 overlap the center pillar 3 or the rear pillar 6 from the outer side in the vehicle width direction when the door is closed. Further, the lower edge portion 10c of the rear side door 10 overlaps the stepped portion 1c (the vertical surface portion 1b) of the side sill 1 from the outer side in the vehicle width direction when the door is closed.
[0031]
As shown in FIG. 9, the center pillar 3 is configured in a closed cross section by an outer panel 3A, an inner panel 3B, and a reinforcement 3C. The outer panel 3A is connected to the outer panel 1A of the side sill 1, the inner panel 3B is connected to the reinforcement 1C of the side sill 1, and the reinforcement 3C extends to the inside of the closed cross-sectional structure of the side sill 1. Is also used. A service hole 3a opened in the passenger compartment is formed in the lower part of the center pillar 3 (see FIG. 3).
[0032]
The front side door 8 is swingably attached to the hinge pillar 5 via a pair of upper and lower hinges 20 at the front door edge 8a (see FIGS. 1 and 7). That is, the front side door 8 is a rear opening type that is opened and closed with the hinge 20 as a center. The rear side door 10 is attached to the center pillar 3 via a pair of upper and lower hinges 21 at the front door edge 10a (see FIG. 1). That is, the rear side door 10 is of a rear opening type that is opened and closed around the hinge 21.
[0033]
An impact bar 30 is disposed in the front side door 8. The impact bar 30 is made of a metal pipe material or the like and is elongated and has excellent rigidity, and is a strength member for receiving a side impact load. The impact bar 30 is provided between the front and rear door edges 8a and 8b of the front side door 8, and is inclined so as to gradually go downward as it goes rearward. That is, the front end portion of the impact bar 30 is positioned in the immediate vicinity of the upper hinge 20 of the pair of upper and lower hinges 20 described above (see FIGS. 1 and 7). More specifically, as shown in FIG. 7, the front end portion of the impact bar 30 is connected via a gusset 31 to the attachment portion of the upper hinge 20 to the front door edge portion 8a (the gusset 31). 31 is joined to the front door edge 8a at the attachment position of the hinge 20, and the front end of the impact bar 30 is joined to the gusset 31). Thereby, when the external force of the side collision acts on the impact bar 30, the impact of the side collision can be effectively transmitted to the hinge pillar 5 through a portion excellent in strength, that is, the attachment portion of the hinge 20.
[0034]
The rear end portion (pillar side end portion) of the impact bar 30 is set so as to be lower than the upper end 1e of the side sill 1 (see FIGS. 1 and 6). The rear end portion of the impact bar 30 is connected to the rear end portion of the door reinforcing member 33 via the gusset 32. That is, in the front side door 8, an elongated door reinforcing member 33 extending in the longitudinal direction of the vehicle body is disposed in the vicinity of the lower edge portion 8c, and the rear end portion of the door reinforcing member 33 and the rear end portion of the impact bar 30 are disposed. Are joined to the gusset 32. When the front side door 8 is closed, the rear end portion of the impact bar 30, the door reinforcing member 33, and the gusset 32 (at least the lower end portion) of the side bar 1 with respect to the step portion 1c (the vertical surface portion 1b) of the side sill 1 It is located at a low position so as to overlap on the outer side in the width direction (see FIGS. 5, 6, and 10).
[0035]
A gusset 35 is joined to the front end portion of the door reinforcing member 33. The gusset 35 and the gusset 32 are joined to, for example, the front door edge 8a of the front side door 8 at an appropriate position. Of course, the door reinforcing member 33 is excellent in strength as in the case of the impact bar 30, and in the embodiment, as with the impact bar 30, the door reinforcing member 33 is made of a metal pipe material.
[0036]
The impact bar 30 and the door reinforcing member 33 are connected to each other by a reinforcing member 34 extending in the vertical direction (see FIGS. 1, 4, and 5). The reinforcing member 34 is an impact bar reinforcing member, and functions as a transmission member or a connecting member for transmitting a side impact load acting on the impact bar 30 downward, that is, to the side sill side, and is excellent in strength. For example, a bead portion 34a (see FIG. 5) is formed on a metal plate, for example, so that the bending rigidity is sufficiently large. The reinforcing member 34 is positioned closer to the center pillar 3 than the intermediate position of the door reinforcing member 33 in the longitudinal direction of the vehicle body, and its upper end is joined to the impact bar 30 and its lower end is joined to the door reinforcing member 34. ing. And the position of the upper end part of the reinforcing member 34 is located slightly behind the position of the lower end part, that is, the center pillar 3 side. That is, the reinforcing member 34 is slightly inclined so as to be gradually positioned forward as it goes downward. The impact bar 30, the gussets 31, 32, 35, the door reinforcing member 33, and the reinforcing member 34 can be assembled to the front side door 8 in a unitized state as an assembly in advance. One is shown in FIG. The rear end portion of the impact bar 30 and the gusset 32 are slightly overlapped with the lower end portion of the pillar 3 in the vehicle width direction, but do not overlap at all with the pillar 3 in the vehicle width direction. You can also set the position.
[0037]
An impact bar 40 is disposed in the rear side door 10. The impact bar 40 is made of a metal pipe material or the like that is long and excellent in rigidity, and is a strength member for receiving a side impact load. The impact bar 40 is provided between the front and rear door edges 10a and 10b of the rear side door 10, and is inclined so as to gradually go upward as it goes rearward. That is, the rear end portion of the impact bar 40 is positioned in the immediate vicinity of the lock mechanism 41 with respect to the vehicle body of the rear side door 10. More specifically, the lock mechanism 41 is positioned at a height in the vicinity of the belt line of the rear side door 10, and as shown in FIG. 8, the rear pillar 6 (outer panel 6 </ b> A) has a striker of the lock mechanism 41. While 41A is fixed, a latch (latch mechanism) 41B to be engaged with the striker 41A is attached to the rear door edge 10b of the rear side door 10. The rear end portion of the impact bar 40 is connected to the immediate vicinity of the latch 41 </ b> B via the gusset 42. That is, the gusset 42 is joined to the rear door edge portion 10b in the immediate vicinity of the latch 41B, and the rear end portion of the impact bar 40 is joined to the gusset 42. As shown in FIG. 1, the lock mechanism 41 is set at a height near the belt line of the rear side door 10.
[0038]
The rear pillar 6 is joined to the wheel housing 43 (the outer panel is 43A and the inner panel is 43B), and is a member having excellent overall rigidity. Therefore, the side impact load from the outer side in the vehicle width direction acting on the impact bar 40 is firmly received by the rear pillar 6 (and the wheel housing 43).
[0039]
The front end portion of the impact bar 40 is set at a position lower than the upper end 1e of the side sill 1 (see FIG. 1). The front end portion (pillar side end portion) of the impact bar 40 is connected to the front end portion of the door reinforcing member 45 via the gusset 44. That is, in the rear side door 10, an elongated door reinforcing member 45 extending in the longitudinal direction of the vehicle body is disposed in the vicinity of the lower edge portion 10c, and the front end portion of the door reinforcing member 45 and the front end portion of the impact bar 40 are arranged. Each is joined to the gusset 44. The front end portion of the impact bar 40, the door reinforcing member 45, and the gusset 44 (at least the lower end portion thereof) have a vehicle width relative to the step portion 1c (the vertical surface portion 1b) of the side sill 1 when the rear side door 10 is closed. It is located at a low position so as to overlap on the outer side in the direction (same as the rear end portion of the impact bar 30 in the front side door 8, see also FIG. 10). The front end portion of the impact bar 40 and the gusset 44 slightly overlap the lower end portion of the pillar 3 in the vehicle width direction, but do not overlap the pillar 3 at all in the vehicle width direction. The position can also be set.
[0040]
The rear end portion of the door reinforcing member 45 is joined to the gusset 47. The gusset 47 and the gusset 44 are joined to the rear door edge 10 b of the rear side door 10. Of course, the door reinforcing member 45 is excellent in strength in the same manner as the impact bar 40, and in the embodiment, the door reinforcing member 45 is made of a metal pipe material, like the impact bar 40.
[0041]
The impact bar 40 and the door reinforcing member 45 are connected by a reinforcing member 46 extending in the vertical direction. The reinforcing member 46 is formed with a bead portion on a metal plate, for example, so as to be excellent in strength, and has a sufficiently large bending rigidity (the same as the reinforcing member 34 in the front side door 8). The reinforcing member 46 has an upper end joined to the impact bar 40 and a lower end joined to the door reinforcing member 45. And the position of the upper end part of the reinforcement member 46 is located slightly ahead of the position of the lower end part, that is, the center pillar 3 side. That is, the reinforcing member 46 is set to be slightly inclined so as to be gradually located rearward as it goes downward. The impact bar 40, the gussets 42, 44, 47, the door reinforcing member 45, and the reinforcing member 46 can be assembled to the rear side door 10 in a unitized state as an assembly in advance. One is shown in FIG.
[0042]
6 and 9, a seat (front seat) in the passenger compartment is indicated by reference numeral 50, and a slide rail connecting the seat 50 and the floor panel 2 is indicated by reference numeral 51 (see also FIG. 5).
[0043]
The left and right side sills 1 are connected to each other by the cross members 13 and 14 described above at the positions of the connecting portions with respect to the lower end portions of the impact bar reinforcing members 34 and 46, that is, the door reinforcing members 33 and 45. That is, the cross member 13 is positioned at the lower end position of the impact bar reinforcing member 34, and the cross member 14 is positioned at the position of the impact bar reinforcing member 46.
[0044]
2 and 7, reference numeral 61 denotes a dash upper panel. A cowl box 62 is connected to the upper end of the dash upper panel 61 as a vehicle body strength member extending in the vehicle width direction. Reference numeral 63 denotes an instrument panel support member, 64 denotes a suspension tower component for the front wheels, 65 denotes a fender, 66 denotes a cowl side drain, and 67 denotes an apron frame outer panel. The above-described hinge pillar 5 is formed in a closed cross-section by the outer panel 5A, the inner panel 5B, and the reinforcement 5C, and is connected to the dash upper panel 61 by the gusset 55, and is connected to the instrument panel support member 63 and the cowl side drain 66. It is connected. Thus, the hinge pillar 5 is extremely strong against an external force from the outside in the vehicle width direction because the strength member (particularly the cowl box 62 is connected) extending in the vehicle width direction.
[0045]
Consider the case where the bumper position of the other vehicle is high and the intermediate position in the vehicle width direction of the bumper of the other vehicle is near the position of the center pillar 3 in the configuration as described above. In this case, a side impact load acts on the front side door 8 and the rear side door 10. First, considering the side impact load acting on the front side door 8, the side impact load is received by the impact bar 30, but the side impact load particularly acts on a substantially middle portion in the front-rear direction of the impact bar 30.
[0046]
The side impact load acting on the impact bar 30 is received by the hinge pillar 5 from the front end portion of the impact bar 30. In this case, the side impact load from the front end portion of the impact bar 30 is input to the hinge pillar 5 through a portion excellent in strength such as the attachment position of the hinge 20, and is received by the hinge pillar 5 having excellent rigidity, and the hinge pillar 5 Are also received by a vehicle body strength member extending in the vehicle width direction, such as the cowl box 62 and the like. For this reason, it is possible to prevent the vehicle body portion in front of the front door opening 7 from being largely deformed to the vehicle compartment side.
[0047]
The side impact load acting on the impact bar 30 acts on the side sill 1 from the rear end portion of the impact bar 30 and also acts on the side sill 1 via the rear end portions of the gusset 32 and the door reinforcing member 33. At this time, the side impact load acting on the impact bar 30 hardly acts on the center pillar 3, and a large deformation of the center pillar 3 toward the vehicle interior is prevented. The side impact load input to the side sill 1 from the rear end portion of the impact bar 30 is not only firmly received by the side sill 1 having excellent strength, but also has a large closed cross-sectional structure formed below the center pillar 3. The torque box 1D is more firmly received by the torque box 1D, and is also received by the cross member 12, so that a situation in which the vicinity of the torque box 1D of the side sill 1 is greatly deformed toward the vehicle interior is prevented.
[0048]
Further, the side impact load acting on the impact bar 30 is input to the side sill 1 through the door reinforcing member 33 via the reinforcing member 34, and the side sill 1 acting on the impact bar 30 over a long range in the longitudinal direction of the vehicle body. The impact load will be received. In this way, a large deformation of the vehicle body toward the vehicle interior side, particularly a large deformation of the center pillar 3 toward the vehicle interior is prevented. Further, the side impact load transmitted to the side sill 1 is firmly received by the cross member 13 positioned at the lower end of the impact bar reinforcing member 13.
[0049]
On the other hand, the side impact load acting on the rear side door 10 acts on the impact bar 40. The side impact load acting on the impact bar 40 is applied to the rear pillar 6 from the rear end portion of the impact bar 40 through a portion excellent in strength such as an attachment portion of the door lock mechanism 41. Since the rear pillar 6 is connected to the rear wheel housing 43 and the like and becomes a portion having excellent rigidity, the portion is prevented from being greatly deformed toward the vehicle interior.
[0050]
The side impact load acting on the impact bar 40 acts on the side sill 1 from the front end portion of the impact bar 40 and also acts on the side sill 1 via the gusset 44 and the door reinforcing member 45. At this time, the side impact load acting on the impact bar 40 hardly acts on the center pillar 3, and a large deformation of the center pillar 3 toward the vehicle interior is prevented. The side impact load input to the side sill 1 from the front end of the impact bar 40 is not only firmly received by the side sill 1 itself, which is excellent in strength, but also has a large closed cross-sectional structure formed below the center pillar 3. A situation in which the torque box 1D is more firmly received by the torque box 1D and is also received by the cross member 12 and the vicinity of the torque box 1D of the side sill 1 is largely deformed toward the vehicle interior is prevented.
[0051]
Further, the side impact load acting on the impact bar 40 is input from the reinforcing member 46 to the side sill 1 via the door reinforcing member 45, and the side impact load acting on the impact bar 30 in the longitudinal range of the side sill 1 in the longitudinal direction of the vehicle body. It will be accepted. In this way, a large deformation of the vehicle body toward the vehicle interior side, particularly a large deformation of the center pillar 3 toward the vehicle interior is prevented. Further, the side impact load transmitted to the side sill 1 is firmly received by the cross member 14 positioned at the lower end of the impact bar reinforcing member 46.
[0052]
FIGS. 11 to 13 show a second embodiment of the present invention. The same components as those in the first embodiment are denoted by the same reference numerals, and redundant description thereof is omitted. In the second embodiment, the pillar 3 side ends of the front and rear impact bars 30 and 40 are positioned slightly higher than the upper end 1e of the side sill 1, respectively. At least the lower end portion of the gusset 32 (44) that connects the impact bar 30 (40) and the door reinforcing member 33 (45) is set at a position lower than the upper end 1e of the side sill 1. That is, in the second embodiment, the gusset 32 (44) overlaps the side sill 1 in the vehicle width direction together with the lower ends of the door reinforcing member 33 (45) and the impact bar reinforcing member 34 (46). Is set. Furthermore, in the second embodiment, the gusset 32 (44) is set so as not to overlap the pillar 3 in the vehicle width direction. In the second embodiment, the torque box 1D portion is further reinforced by the gusset 52.
[44] 0000
In the second embodiment, the transmission path of the side impact load acting on the impact bar 30 (40) to the side sill 1 is transmitted from the pillar side end to the side sill 1 not directly but via the gusset 32 (44). Except for this point, the second embodiment is the same as the first embodiment. However, transmission of the side impact load acting on the impact bar 30 (40) to the pillar 3 is significantly reduced as compared with the case of the first embodiment, and the deformation amount of the pillar 3 into the vehicle interior is further reduced. Can do.
[0053]
FIG. 14 shows a third embodiment of the present invention and corresponds to a modification of FIG. In 3rd Embodiment, the floor panel 2 is joined to the position where the side sill 1 is high compared with the case of FIG. Further, the structure does not include the cross member 12 existing in FIG. 6 and the gusset 52 existing in FIG. Other structures are the same as those in FIG. In 3rd Embodiment, since the floor panel 2 is made into the substantially upper end position of the side sill 1, it becomes a thing preferable in preventing the situation where the side sill 1 which received the side impact load deform | transforms into a vehicle interior.
[0054]
FIG. 15 shows a fourth embodiment of the present invention and corresponds to FIG. In the present embodiment, the automobile M2 is an open car type that does not have a roof. The side impact load acting on the impact bars 30 and 40 is transmitted to the side sill 1 through the gussets 32 and 44 (same as the second embodiment in FIGS. 11 to 13). Of course, also in the case of FIG. 15, as in the first embodiment, the pillar 3 side ends of the impact bars 30 and 40 overlap the side sill 1 in the vehicle width direction, and act on the impact bars 30 and 40. The side impact load to be transmitted may be directly transmitted to the side sill 1 from the pillar 3 side ends of the impact bars 30 and 40.
[0055]
FIG. 16 shows a fourth embodiment of the present invention and corresponds to FIG. In the present embodiment, the automobile M3 is a so-called 1.5 box type and has a back door 71. Further, the rear side door 72 (corresponding to the rear side door 10 in FIG. 1) is of a sliding type that is slidably opened and closed in the longitudinal direction of the vehicle body. A guide rail for guiding the rear side door 72 when the rear side door 72 is opened and closed is indicated by reference numeral 73. Of course, also in the case of FIG. 16, as in the first embodiment, the pillar 3 side end portions of the impact bars 30 and 40 overlap the side sill 1 in the vehicle width direction and act on the impact bars 30 and 40. The side impact load to be transmitted may be directly transmitted to the side sill 1 from the pillar 3 side ends of the impact bars 30 and 40.
[0056]
Although the embodiment has been described above, the present invention is not limited to this, and includes the following cases, for example. In the examples of FIGS. 1, 11, 15, and 16, the door reinforcing members 33 and 45 may not exist. In this case, the lower ends of the reinforcing members 34 and 46 are preferably joined directly to the lower side of the side door. In any of the embodiments, the reinforcing members 34 and 46 may not be provided (the door reinforcing members 33 and 45 may or may not be provided). The object of the present invention is not limited to what is explicitly stated, but also implicitly includes providing what is substantially preferred or expressed as an advantage.
[Brief description of the drawings]
FIG. 1 is a side view of an automobile to which the present invention is applied, showing a first embodiment of the present invention.
2 is a cross-sectional perspective view of the automobile shown in FIG. 1 cut away at an intermediate portion in the vehicle width direction.
FIG. 3 is a perspective view of a connecting portion between a center pillar and a side sill as viewed from the passenger compartment side.
FIG. 4 is a side view showing a state in which an impact bar, a door reinforcing member, and a reinforcing member arranged in a side door are unitized.
FIG. 5 is a cross-sectional view corresponding to FIG. 1X5-X5.
6 is a cross-sectional view corresponding to FIG. 1X6-X6.
7 is a cross-sectional view corresponding to FIG. 1X7-X7.
8 is a cross-sectional view corresponding to FIG. 1X8-X8.
9 is a cross-sectional view corresponding to FIG. 1X9-X9.
10 is a cross-sectional view corresponding to line X10-X10 in FIG.
FIG. 11 is a side view corresponding to FIG. 1, showing a second embodiment of the present invention.
12 is a cross-sectional view corresponding to FIG. 10 in the second embodiment shown in FIG.
13 is a cross-sectional view corresponding to FIG. 6 in the second embodiment shown in FIG.
14 is a cross-sectional view corresponding to FIG. 13, showing a third embodiment of the present invention.
15 shows a fourth embodiment of the present invention and is a side view corresponding to FIG. 1. FIG.
16 shows a fifth embodiment of the present invention, and is a side view corresponding to FIG. 1. FIG.
[Explanation of symbols]
1: Side sill
1a: Lateral surface
1b: Vertical portion
1c: Stepped portion
1e: Upper end
1D: Torque box
2: Floor panel
3: Center pillar
5: Hinge pillar (front vehicle body side vertical side)
6: Rear pillar (vertical side of rear vehicle body)
7: Front door opening
8: Front side door
8a: Front door edge
8b: Rear door edge
8c: Door lower edge
9: Rear door opening
10: Rear side door
10a: Front door edge
10b: Rear door edge
10c: Door lower edge
12: Cross member (torque box position)
13, 14: Cross member (lower end position of impact bar reinforcing member)
20: Hinge (for opening and closing the front side door)
21: Hinge (for opening and closing the rear side door)
30: Impact bar (for front side door)
31, 32, 35: Gusset (for front side door)
33: Door reinforcement member (for front side door)
34: Impact bar reinforcement member (for front side door)
40: Impact bar (for rear side door)
41: Lock mechanism (for rear side door)
42, 44, 47: Gusset (for rear side door)
45: Door reinforcement member
46: Impact bar reinforcing member
62: Cowl box (strength member extending in the vehicle width direction)

Claims (14)

A pair of left and right side sills extending in the longitudinal direction of the vehicle body are connected to the left and right ends of the floor panel that constitutes the passenger compartment floor,
A pillar extends upward from the vehicle longitudinal direction intermediate portion of the side sill,
A front door opening that is opened and closed by a front side door is formed between the pillar and a front side of the front vehicle body that extends in the vertical direction in front of the pillar,
A rear door opening that is opened and closed by a rear side door is formed between the pillar and a rear vehicle body-side vertical side portion that extends in the vertical direction behind the pillar,
In each side door, in the side body structure of an automobile in which an impact bar is provided that extends between the front and rear door edges of each side door and receives a load at the time of a side collision,
The impact bar is disposed so that the pillar side end portion is positioned at a lower portion of the side door and is inclined so as to be directed upward from the pillar side end portion toward the other end portion,
The pillar side end of the impact bar is positioned so as to overlap the side sill from the outside in the vehicle width direction when the side door is closed, and the side impact load received by the impact bar is reduced. Transmitted from the pillar side end to the side sill,
The other end portion of the impact bar is positioned so as to overlap the vehicle body side vertical side portion from the outer side in the vehicle width direction when the side door is closed, and the side received by the impact bar A collision load is transmitted to the vehicle body side vertical side portion through the other end portion.
A side body structure of an automobile characterized by that. A pair of left and right side sills extending in the longitudinal direction of the vehicle body are connected to the left and right ends of the floor panel that constitutes the passenger compartment floor,
A pillar extends upward from the vehicle longitudinal direction intermediate portion of the side sill,
A front door opening that is opened and closed by a front side door is formed between the pillar and a front side of the front vehicle body that extends in the vertical direction in front of the pillar,
A rear door opening that is opened and closed by a rear side door is formed between the pillar and a rear vehicle body-side vertical side portion that extends in the vertical direction behind the pillar,
In each side door, in the side body structure of an automobile in which an impact bar is provided that extends between the front and rear door edges of each side door and receives a load at the time of a side collision,
The impact bar is disposed so that the pillar side end portion is positioned at a lower portion of the side door and is inclined so as to be directed upward from the pillar side end portion toward the other end portion,
The pillar side end of the impact bar is joined to the side door via a gusset,
The gusset is positioned so as to overlap the side sill from the outer side in the vehicle width direction when the side door is closed, and the side impact load received by the impact bar is from the pillar side end. Is transmitted to the side sill via a gusset,
The other end portion of the impact bar is positioned so as to overlap the vehicle body side vertical side portion from the outer side in the vehicle width direction when the side door is closed, and the side received by the impact bar A collision load is transmitted to the vehicle body side vertical side portion through the other end portion.
A side body structure of an automobile characterized by that. In claim 1,
A side body structure of an automobile, wherein the pillar-side end portion of the impact bar is set so as not to overlap the pillar from the vehicle width direction. In claim 2,
The side body structure of an automobile, wherein the gusset is positioned so as not to overlap the pillar from the vehicle width direction. In claim 1,
The side sill has a stepped step portion that has a horizontal surface portion and a vertical surface portion and fits with a lower portion of the side door when the side door is closed,
When the side door is closed, the pillar side end portion of the impact bar overlaps the vertical surface portion from the outer side in the vehicle width direction.
A side body structure of an automobile characterized by that. In claim 2,
The side sill has a stepped step portion that has a horizontal surface portion and a vertical surface portion and fits with a lower portion of the side door when the side door is closed,
When the side door is closed, the gusset overlaps the vertical surface portion from the outer side in the vehicle width direction.
A side body structure of an automobile characterized by that. In any one of Claims 1 thru | or 6,
The middle part of the impact bar is connected to the upper end of an impact bar reinforcing member extending substantially in the vertical direction,
The lower end of the impact bar reinforcing member is positioned so as to overlap the side sill from the outer side in the vehicle width direction when the side door is closed, and the side impact load received by the impact bar is the impact Is transmitted to the side sill via a bar reinforcing member,
A side body structure of an automobile characterized by that. In any one of Claims 1 thru | or 6,
A door reinforcing member extending in the front-rear direction is disposed on the lower edge of the side door,
The door reinforcing member is positioned so as to overlap the side sill from the outer side in the vehicle width direction when the side door is closed,
The pillar-side end portion of the impact bar is connected to the pillar-side end portion of the door reinforcing member so that the side impact load received by the impact bar is transmitted to the side sill via the door reinforcing member. ing,
A side body structure of an automobile characterized by that. In claim 8,
A side body structure of an automobile, wherein an approximately middle portion of the impact bar and an intermediate portion of the door reinforcing member are connected by an impact bar reinforcing member extending in a substantially vertical direction. In any one of Claims 1 thru | or 6,
The left and right vehicle body side vertical sides located on the other end side of the impact bar are connected by a connecting member extending in the vehicle width direction at a position higher than the side sill. Side body structure. In any one of Claims 1 thru | or 6,
A front door edge of the front side door is attached to the vertical side of the vehicle body by hinges at the upper and lower parts thereof, so that the front side door is a rear opening type,
The other end portion of the impact bar in the front side door is connected to a mounting position of the upper hinge,
A side body structure of an automobile characterized by that. In any one of Claims 1 thru | or 6,
A locking mechanism for locking the rear side door in a closed state to the vehicle body is provided at the edge of the rear door of the rear side door and in the vicinity of the belt line.
The other end portion of the impact bar in the rear side door is positioned near the lock mechanism,
A side body structure of an automobile characterized by that. In claim 7 or claim 9,
A side body structure for an automobile, wherein a cross member for connecting the left and right side sills is provided at a position of a lower end portion of the impact bar reinforcing member when the side door is closed among the side sills. . In claim 7 or claim 9,
The side body structure of an automobile, wherein an upper end portion of the impact bar reinforcing member is set so as to be closer to the pillar than a lower end portion.

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