JPH1044779A - Automobile door - Google Patents

Abstract

PROBLEM TO BE SOLVED: To impede jump-out of an impact beam at the time of a side collision by setting a fitting position of an impact beam in such a way that its front end face is opposed to an inner panel part forming a door body front wall part and that its rear end face is opposed to an inner panel part forming a door body rear wall part. SOLUTION: At the time of arranging an impact beam inside a door body, the impact beam 9 is extended in the longitudinal direction of the door body, and its front part 9a and rear part 9b are integrally connected to an inner panel 4 by brackets 10, 11. In this case, a base part 10a of the front side bracket 10 is integrally fixed to the vehicle outer side face of the front part 9a of the impact beam 9, and a front end part 10b of the front side bracket 10 is fixed to the inner panel 4 along with a hinge support. Upper and lower front end flanges 10c of the front side bracket 10 are fixed to the hinge support and a front wall part 7 of the door body. The rear side bracket 11 is fixed to the vehicle inner side face of a rising flange part 13a of a door lock stiffener 13.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a door body having an outer panel and an inner panel, an impact beam disposed inside the door body and extending in the front-rear direction of the door body, and a front portion of the impact beam. The present invention relates to an automobile door having a front bracket integrally connected to an inner panel and a rear bracket integrally connecting a rear portion of the impact beam to the inner panel.

[0002]

2. Description of the Related Art When a large external force is applied to a door disposed on a side of a vehicle body when the vehicle is running or parked or stopped, the door body is prevented from being deformed. It is well known that an impact beam having a high rigidity is provided inside (for example, Japanese Patent Laid-Open No.
-813222).

The outer and inner panels of this type of door are connected at their peripheral edges by hemming, and the hemmed portions are spot-welded to increase the bonding strength between the outer panel and the inner panel. When a large external force is applied to such a door from the front-rear direction of the vehicle body, the hemming portion located near the front or rear of the impact beam is peeled off by the external force, and the excessive external force is applied. By, the front bracket or the rear bracket fixing the front or rear part of the impact beam to the inner panel is peeled off from the inner panel, and the front or rear part of the impact beam may jump out of the door body, The function of the impact beam to increase the rigidity of the door body is greatly reduced.

Conventionally, therefore, the number of spot welding points on the hemmed portion of the outer panel and the inner panel is increased, and the thickness of both panels is set to be large, or an intermetallic adhesive is applied to the hemmed portion. For example, by increasing the bonding strength between the two panels, the rigidity of the door body itself is increased, and even when an excessive external force in the front-rear direction is applied to the door body, the inner panel and the outer panel are separated at the hemmed portion. This prevents the front or rear portion of the impact beam from jumping out of the door body, so that the function of the impact beam can be sufficiently exerted.

However, according to the above-described measures, the productivity of the door is reduced, the cost is increased, and the weight is increased. Such a conventional defect is referred to as a “conventional first defect”.

On the other hand, when a large external force acts on the door of the type described at the beginning in the front-rear direction of the vehicle body, the impact beam may be bent and deformed. It is desirable that the impact beam be deformed in a direction in which the impact beam protrudes. In this way, even if the impact beam is deformed, a large space for the occupant in the vehicle can be secured, and the occupant's safety can be improved.

[0007] From such a viewpoint, a hole or a bead is formed in the center region of the impact beam in the front-rear direction, and when a compressive load in the front-rear direction is applied to the impact beam, the impact beam moves from the hole or the bead toward the vehicle outside. Doors that are configured to bend have been proposed.
No. 11852).

However, according to this structure, since the impact beam is made of a high-strength material, a large amount of time is required to form a hole or a bead in the impact beam at the time of manufacturing the impact beam, thereby increasing the cost of the impact beam. I can't escape the shortcomings. This is referred to as “conventional second defect” for convenience.

[0009]

SUMMARY OF THE INVENTION It is a first object of the present invention to provide a motor vehicle door of the type described at the outset, which obviates the aforementioned first disadvantage of the prior art. A second object of the present invention is to provide a motor vehicle door of the type described at the outset, which obviates the aforementioned second disadvantage.

[0010]

According to the present invention, in order to achieve the first object, in a door of the type described at the beginning, an inner panel in which a front end face of an impact beam forms a front wall portion of a door body. The impact beam mounting position is set so that the rear end face of the impact beam faces the inner panel portion forming the rear wall of the door body, and the front end of the impact beam. A vehicle door is proposed in which at least one of the rear portions is curved toward the vehicle interior.

According to another aspect of the present invention, in order to achieve the second object, in the door of the type described at the beginning, the impact beam is formed so as to be curved so that the central region in the front-rear direction of the impact beam projects outward. We propose a car door that is characterized by:

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings, and the aforementioned first and second conventional disadvantages will be more specifically clarified with reference to the drawings.

FIG. 1 shows an example of a door which is pivotally attached to a side of a vehicle body so as to be openable and closable, and FIG. 2 shows a door 1 shown in FIG.
FIG. 2 is a cross-sectional view taken along the line II-II of FIG. 3 and 4 are partially enlarged views of FIG.
The door 1 shown in these figures is a door of an automobile having a high height such as a cab-over type truck.

[0014] In this specification, "before" or "after"
The phrase is based on the forward direction of the vehicle with the door closed as shown in FIGS. 1 and 2, and the symbol X in FIGS. 1 and 2 indicates the forward direction.

The door 1 shown in FIGS. 1 to 4 has an outer panel 3 located on the outside O of the vehicle with the door closed.
A door body 5 having an inner panel 4 located on the inner side I of the vehicle and a window frame 6 integrally provided with the door body 5 are provided. The opening is opened and closed.

The outer panel 3 and the inner panel 4 constituting the door main body 5 have the peripheral edges H in FIGS.
The panels 3 and 4 are integrated by hemming and are connected by spot welding at the hemmed portions H, as shown by the symbols.

The front and rear portions of the inner panel 4 are bent outward in the width direction of the vehicle body 2 with respect to a portion therebetween, and the respective portions are connected to the front wall portion 7 (FIG. 3) of the door body 5 and the rear portion. Wall 8
(FIG. 4), and a space is defined inside the door body 5 composed of the inner panel 4 and the outer panel 3, and the above-mentioned window glass vertically moves up and down the internal space.

An impact beam 9 is disposed inside the door body 5 described above. The impact beam 9 of the present embodiment is made of a hollow pipe material over the entire length in the front-rear direction as shown in FIG. The pipe material is made of a high-strength material such as a steel material. The impact beam 9 is, as shown in FIGS.
And the front portion 9a of the front bracket 1
The rear part 9b of the impact beam 9 is integrally connected to the inner panel 4 by a rear bracket 11. These brackets 10, 11 are also made of a high-strength material, for example, steel.

As described above, the door 1 of the automobile of this embodiment is
In addition to the door body 5 and the impact beam 9, a front bracket 10 that integrally connects a front portion 9 a of the impact beam 9 to the inner panel 4 of the door body 5 and a rear portion 9 b of the impact beam 9 are connected to the inner panel 4. And a rear bracket 11 integrally connected to the rear bracket 11. At this time, the brackets 10, 11 may be directly fixed to the inner panel 4, but in this example, the respective brackets 10, 1
Numerals 1 are fixed to the inner panel 4 via hinge supports 12 and door lock stiffeners 13, respectively.

The hinge support 12 is a member for increasing the coupling strength between a hinge arm of a hinge device for pivotally attaching the door 1 to the vehicle body 2 and the door body 5, and a door lock stiffener 13 is provided. It is a member for increasing the connection strength between the door lock device and the door body 5. In order to understand the present invention, configurations related to these will be described below.

As shown in FIG. 3, the hinge device 14 includes a hinge bracket 17 fixed to a front pillar 15 constituting the vehicle body 2 by bolts 16 and a pivotally rotatably attached to the bracket 17 via a hinge pin 18. And a free end side of the hinge arm 19 is fixed to the front wall portion 7 of the door body 5 by a bolt 20. At this time, in order to increase the strength of the connection between the hinge arm 19 and the door body 5, the hinge support 12 described above is attached to the front wall portion 7 with an X mark in FIG.
1, S2, and S3 are spot-welded, and a hinge arm 19 is fixed to the hinge support 12 and the front wall 7 with a bolt 20. Usually, two such hinge devices are provided above and below. FIG. 6 is a schematic perspective view of the door 1 in which the outer panel 3 of the door 1 is removed, and holes indicated by reference numerals 21 and 22 in the figure are hinge arms 1 of the upper and lower hinge devices.
9 shows an insertion hole for a bolt 20 (FIG. 3) for attaching 9 to the inner panel 4.

On the other hand, as shown in FIGS. 4 and 6, the door lock stiffener 13 is integrally fixed to the rear wall portion 8 of the door body by, for example, spot welding, and a locking device (not shown) is attached to the stiffener 13. Has been fixed. 6 indicate mounting holes through which bolts (not shown) for fixing a door lock device (not shown) to the door lock stiffener 13 and the rear wall portion 8 are inserted, respectively. ing.

As described above, the front bracket 10 and the rear bracket 11 for fixing the impact beam are fixed to the door body 5 via the hinge support 12 and the door lock stiffener 13 described above. That is, as shown in FIG. 3 and FIG.
0a is integrally fixed to the vehicle outer surface of the front portion 9a of the impact beam 9 by, for example, arc welding, and the front end portion 10b of the front bracket 10 is fixed together with the hinge support 12 by spot welding shown by reference numeral S1 in FIG. The upper and lower front end flanges 10c, 10c (FIG. 6) of the front bracket 10 are fixed to the hinge support 12 for the upper hinge device 14 and the front wall portion 7 of the door body 5 by spot welding. I have. At this time, the upper and lower front end flanges 10c, 10c are arranged so as to straddle the mounting hole 21 shown in FIG.
And the hinge support 12.

The rear portion 9b of the impact beam 9 is also integrally fixed to the inside surface of the rear bracket 11 by, for example, arc welding, as shown in FIGS. 4 and 6, and the rear bracket 11 is connected to the door lock stiffener 13 at the rising position. The flange portion 13a is integrally fixed to the inner side surface of the vehicle by, for example, spot welding.

As described above, the front portion 9a and the rear portion 9b of the impact beam 9 are connected to the door main body 5 through the hinge support 12 and the door lock stiffener 13, which have high strength.
By fixing the impact beam 9 to the door panel 5, the bonding strength between the impact beam 9 and the door body 5 can be increased.

As described above, the impact beam 9 is fixedly disposed inside the door body 5 of the door 1 of the present embodiment, so that an external force P (FIG. 2) is applied to the door body 5 from the outside. The door body 5 is prevented from being greatly deformed due to the rigidity of the impact beam 9 when the external force F (FIG. 3) is applied from the front and rear directions of the vehicle body 2, for example, in front of the vehicle body 2.

At this time, when the external force F applied to the vehicle body 2 from the front-rear direction of the vehicle body 2, for example, from the front thereof is particularly large, the force transmitted from the vehicle body 2 to the door body 5 causes the front of the impact beam 9 , The outer panel 3 and the inner panel 4 of the hemmed portion H of the door body 5 may be separated, and the front end 10b of the front bracket 10 may be separated from the inner panel 4 of the door body 5.
At this time, the front wall 7 of the door body 5 is
In the conventional door, the front portion 9a of the impact beam 9 may protrude forward from inside the door main body. Further, when the deformation of the door body 5 further proceeds, the rear wall portion 8 of the door body 5 abuts against the body portion opposed thereto, whereby the impact beam 9 moves relatively rearward with respect to the rear wall portion 8 and moves. The rear portion 9b of the beam 9 may jump out of the door body. If such a situation occurs, the function of the impact beam 9 to maintain the rigidity of the door body 5 is reduced.

Therefore, conventionally, as described above,
The rigidity of the door body is increased by increasing the number of spot welding spots applied to the hemmed portion H, or by increasing the thickness of both panels 3 and 4, and the hemming process is performed even when an excessive external force F is applied from the front. In the portion H, the panels 3 and 4 were prevented from peeling off, and the impact beam was prevented from jumping out of the door body. However, according to such a measure, the weight of the door increases and the cost increases. This is the first conventional disadvantage described above.

[0029] The above-mentioned problem occurs in the same way on the rear side of the impact beam.

In order to eliminate such a conventional drawback, in the illustrated door 1, first, as shown in FIGS. 2 to 4, the front end face 9 A of the impact beam 9 connects the front wall 7 of the door body 5. The mounting position of the impact beam 9 is set such that the rear end surface 9B of the impact beam 9 faces the inner panel portion forming the rear wall portion 8 of the door main body 5 so as to face the inner panel portion. I have. More specifically, the front portion 9a and the rear portion 9b of the impact beam 9 are fixed to the inner side surfaces of the front bracket 10 and the rear bracket 11, respectively, as described above, whereby the front end surface 9A of the impact beam 9 is The rear end face 9B faces the front wall part 7 and the rear wall part 8, respectively. Moreover, at least one of the front portion 9a and the rear portion 9b of the impact beam 9,
In the illustrated example, both are curved toward the vehicle interior. In FIGS. 3 and 4, T1,
The symbols of T2 are shown.

According to the above configuration, for example, an excessive external force F is applied to the vehicle body 2 from the front thereof, and the force is transmitted to the door body 5, whereby the hemming portion H located in front of the impact beam 9 is formed. , The outer panel 3 and the inner panel 4 are temporarily peeled off, and the front bracket 1
Even if 0 is peeled off from the inner panel 4, the front end face 9A of the impact beam 9 abuts against the front wall 7 of the door body 5, and the front part 9a is prevented from jumping out of the door body. That is, when the above-described external force F is applied, the outer panel 3 and the inner panel 4 of the hemmed portion H are separated, and the front bracket 10 is separated from the inner panel 4. In this case, the front end face 9A of the impact beam 9 collides with the front wall portion 7 as shown by an arrow Q1 in FIG. This prevents jumping out of the door body 5. Thereby, the impact beam 9 sufficiently exerts its original function, and prevents the door main body 5 from being greatly deformed. Not only is the front end face 9A of the impact beam 9 facing the front wall portion 7, but the front portion 9a is curved toward the inside of the vehicle, so that an excessive external force F is applied to the vehicle body.
Is applied, the front end face 9A always hits the front wall portion 7, and the projection of the impact beam 9 is effectively prevented.

Similarly, the rear end face 9B of the impact beam 9
Is opposed to the rear end 8 of the door body 5, so even when the deformation of the door body 5 proceeds, the rear end face 9B hits the rear wall 8 and the rear 9b of the impact beam 9 jumps out of the door body. Is prevented. In addition, since the rear portion 9b of the impact beam 9 is also curved toward the inside of the vehicle, the rear end surface 9B always hits the rear wall portion 8 as shown by the arrow Q2 in FIG. Will be blocked.

When an excessive external force is applied from the rear side of the vehicle body 2 and the outer panel 3 and the inner panel 4 are separated at the hemmed portion H adjacent to the rear portion 9b of the impact beam 9, the rear end face 9B of the impact beam 9 is also provided. 4, as shown by arrow Q2 in FIG. 4, hits the rear wall 8 of the door body 5, so that the rear portion 9b is prevented from jumping out of the door body. Since the rear portion 9b of the impact beam 9 is fixed to the inner side surface of the rising flange portion 13a of the door lock stiffener 13, this effect can be further enhanced. In this way, the impact beam 9 reliably fulfills the essential function of increasing the rigidity of the door body 5 and prevents large deformation of the door body 5.

As can be seen from the above description, in the illustrated example, the front end surface 9A or the rear end surface 9B of the impact beam 9 becomes stronger when the external force acts on the vehicle body in the front-rear direction. Rock stiffener 13
Abuts against the front wall portion 7 or the rear wall portion 8, so that they firmly press the end faces 9 A and 9 B of the impact beam 9, and more reliably prevent the beam 9 from jumping out of the door body. Can be.

As described above, the thickness of the outer panel and the inner panel is set to be particularly large, the number of spot welding points at the hemmed portion is particularly increased, or the metal is disposed between the outer panel and the inner panel. It is possible to prevent the impact beam 9 from jumping out of the door body without applying a treatment such as applying an adhesive between the doors, thereby reducing the cost and weight of the door and preventing a large deformation of the door body when an external force is applied. Can be.

In the above-described example, both the front portion 9a and the rear portion 9b of the impact beam 9 are formed in a curved shape so as to protrude toward the inside of the vehicle. You can achieve your goals.

As previously described, when an excessive external force acts on the door shown in FIGS. 1 to 6 in the front-rear direction, a compression load acts on the impact beam 9 in the front-rear direction. This may bend and deform. At this time, if the front and rear (longitudinal) center region of the impact beam 9 is bent and deformed so as to protrude toward the inside of the vehicle, the space for the occupant in the vehicle is narrowed. Therefore, even if the impact beam 9 is bent and deformed under the action of the external force F, it is necessary to configure the impact beam 9 so that the impact beam 9 is deformed in a direction to protrude outward.

For this reason, conventionally, as described above, a hole or a bead is formed in the center area of the impact beam to trigger the deformation of the impact beam, and the impact beam is inevitably applied when an excessive external force acts in the front-rear direction. Although it is configured to be deformed so as to protrude to the outside of the vehicle, this configuration is unavoidable in that the cost of the impact beam increases.
This is the second conventional disadvantage described above.

Therefore, in the door 1 of this embodiment, as clearly shown in FIG. 2, the impact beam 9 is formed so that the center region in the front-rear direction of the impact beam 9 projects toward the outside O of the vehicle. I have. R in FIG. 2 indicates the radius of curvature of the curved portion. In the example shown in FIG. 2, the impact beam 9 is arranged along the inside surface of the outer panel 3 curved toward the outside O of the vehicle, and is arranged close to the outer panel 3.

According to the above configuration, when an excessive external force F (FIG. 3) acts on the door body 5 in the front-rear direction of the vehicle body and a large compressive load is applied to the impact beam 9, the impact beam 9 is It bends and deforms in the direction protruding into O. Thus, the space for the occupant in the vehicle is not narrowed. Further, it is not necessary to form holes or beads in the impact beam 9 made of a high-strength material, and it is sufficient to simply form the beam 9 with a small curvature over substantially the entire length, so that the impact beam 9 can be easily manufactured. ,
The increase in the cost can be suppressed.

In the illustrated example, the impact beam 9
Extend along the outer panel 3 and in the vicinity of the outer panel 3, it is possible to prevent a problem that a space for accommodating a mechanical component such as a wind regulator (not shown) is reduced in a space inside the door body 5.

The present invention is applicable not only to trucks but also to passenger cars,
It can be applied to doors of various types of automobiles such as buses.

[0043]

According to the door of the first aspect, it is possible to prevent the impact beam from jumping out of the door body when an external force is applied from the vehicle front-rear direction without increasing cost and weight. Large deformation of the door body can be prevented.

According to the door of the second aspect, even if the impact beam is deformed by the action of an external force from the front-rear direction of the vehicle body without increasing the cost, the impact beam is deformed so as to protrude outward. Can be done.

[Brief description of the drawings]

FIG. 1 is a front view showing a door according to an embodiment of the present invention.

FIG. 2 is a horizontal sectional view taken along line II-II in FIG. 1 in a state where the door shown in FIG. 1 is attached to a vehicle body.

FIG. 3 is an enlarged cross-sectional view showing a front side of the door shown in FIG. 2;

FIG. 4 is an enlarged sectional view showing a rear side of the door shown in FIG. 2;

FIG. 5 is an enlarged sectional view taken along line VV of FIG. 1;

FIG. 6 is a perspective view of the door shown in FIG. 1 when the outer panel is removed and the door is viewed from the outside of the vehicle, in which the impact beam and the door lock stiffener are separated from the door main body.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Door 3 Outer panel 4 Inner panel 5 Door main body 7 Front wall part 8 Rear wall part 9 Impact beam 9a Front part 9b Rear part 9A Front end face 9B Rear end face 10 Front bracket 11 Rear bracket I Inside of car O Outside of car

Claims (2)

[Claims] 1. A door body having an outer panel and an inner panel, an impact beam disposed inside the door body and extending in the front-rear direction of the door body, and a front portion of the impact beam integrally connected to the inner panel. The front end face of the impact beam is opposed to an inner panel portion forming a front wall portion of the door body, in a vehicle door having a front bracket to be connected and a rear bracket that integrally connects a rear portion of the impact beam to the inner panel. And, the mounting position of the impact beam is set such that the rear end surface of the impact beam faces the inner panel portion forming the rear wall of the door body, and at least the front and rear portions of the impact beam. An automobile door, one of which is curved toward the interior of the vehicle. 2. A door body having an outer panel and an inner panel, an impact beam disposed inside the door body and extending in the front-rear direction of the door body, and a front portion of the impact beam integrally connected to the inner panel. In a vehicle door having a front bracket and a rear bracket that integrally connects a rear portion of the impact beam to the inner panel, the impact beam is curved in a direction in which a front-rear central region of the impact beam projects outward. An automobile door characterized by being formed.