JP4326922B2 - Body front structure - Google Patents

Description

  The present invention relates to a vehicle body front structure in which a front front frame and a front rear frame are joined to form a front frame.

  In general, a front frame provided on the body of a vehicle such as an automobile extends rearward along the inner side of the left and right wheel apron constituting the side wall of the engine room, and is bent downward along the toe board. It extends rearward along the bottom surface.

  For example, as disclosed in Japanese Patent Application Laid-Open No. 2002-154458, the front frame has a structure in which a front front frame and a front part are arranged in the vicinity of an inclined portion bent downward along the toe board in order to improve the yield. It is divided into a rear frame.

  The front front frame has some strength against the collision load from the front if it is light, and if it is excessive, it will crush the shaft and absorb the collision load, and the front rear frame and front pillar The impact load is distributed to the side structures, etc., and then attenuated by letting it escape to the rear of the vehicle.

By the way, in the vicinity of the inclined portion of the front frame that bends downward along the toe board, stress due to impact load is likely to be concentrated, and if the portion bends and deforms prior to the axial crush of the front front frame, It becomes impossible to efficiently absorb the collision load due to the axial collapse of the part frame. For this reason, many parts where stress is concentrated are reinforced using a phosphorus hose or the like.
JP 2002-154458 A

  However, since the vicinity of the inclined portion of the front frame is a joint portion between the front front frame and the front rear frame, reinforcing with a phosphorus hose or the like tends to cause a complicated structure and lacks feasibility.

  In addition, stiffening can be considered by increasing the thickness of the front frame on the side where the inclined portion is formed. However, increasing the thickness of the front frame causes an increase in the weight of the vehicle body. There are inconveniences such as an increase in fuel consumption.

  In view of the above circumstances, the present invention eliminates the need for stiffening by increasing the thickness of the front frame, and does not require reinforcement with a phosphorus hose or the like. An object of the present invention is to provide a vehicle body front structure capable of absorbing and attenuating.

In order to achieve the above object, the present invention provides a front frame that is inclined downward along a toe board that partitions an engine room and a vehicle compartment from the front of the vehicle body, and then extends rearward along the floor panel. In a vehicle body front structure that is divided into a front front frame and a front rear frame in the vicinity of a joint portion with a toe board, an inclined portion that is inclined downward at a rear end of the front front frame and the front rear portion Inclined portions formed to be inclined upward at the front end of the frame are joined to each other, and a toe board cross member formed in a substantially hat shape in cross section is horizontally installed on the indoor side upper part of the toe board, and is formed on the upper part of the toe board cross member. The flange is joined to the toe board, and the flange formed on the lower part of the toe board cross member is attached to the toe board. Across the board, characterized in that is bonded to the upper surface portion of the front rear frame.

  According to the present invention, it is not necessary to increase the thickness of the front frame and reinforce it, and it is not necessary to reinforce with a phosphorus hose or the like, and it absorbs a larger collision load efficiently with a lightweight and simple structure, and Excellent effects such as being able to be attenuated are exhibited.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. 1 to 3 show a first embodiment of the present invention. FIG. 1 is a side view schematically showing the front portion of the vehicle body.

  The vehicle body front portion 1 is divided into an engine room 3 and a vehicle compartment 4 by a toe board 2, and a pair of left and right front frames 5 are arranged from the front end of the engine room 3 to the front surface of the toe board 2, that is, the surface on the engine room 3 side, and the floor panel 6 is extended rearward through the lower surface of 6. In the drawing, only the front frame 5 on the left side in the vehicle width direction is shown, and the front frame on the right side in the vehicle width direction is formed symmetrically with the front frame on the left side, and the description thereof is omitted.

  The front frame 5 includes a front front frame 7 that extends from the front to the rear along the lower side of the engine room 3, and a front that is joined to the rear of the front front frame 7 and extends to the rear of the vehicle body. The rear end of the front rear frame 8 is joined to a rear frame (not shown) disposed at the rear of the vehicle body.

  As shown in FIG. 3, the front front frame 7 includes a front frame body 9 and a closing plate 10. The front frame main body 9 is formed in a substantially hat shape in cross section that directs the opening surface to the side of the vehicle body. That is, the front frame main body 9 includes a side surface portion 12, an upper surface portion 13 and a lower surface portion 14 that are bent at substantially right angles from the upper edge and the lower edge of the side surface portion 12, and the both surface portions 13, 14. The upper flange 13a and the lower flange 14a are each bent upward and downward from the edge, and the rear flange 13b is bent upward from the edge of the upper surface portion 13.

  The closing plate 10 has an upper edge flange 10a and a lower edge flange 10b that can be joined to the upper flange 13a and the lower flange 14a of the front frame body 9, respectively. It is formed in a shape substantially along. Therefore, by joining the closing plate 10 to the opening surface of the front frame body 9, the front frame 5 having a hollow closed cross-sectional shape is formed.

  An inclined portion 7 a extending downward along the front surface of the toe board 2 is formed at the rear end of the front front frame 7. The inclined portion 7a has a relatively large area formed so as to cover almost the entire mounting position of the toe board 2, and an inclined surface formed on the inner surface of the inclined portion 7a at the front portion of the front rear frame 8. The part 8a is joined.

  As shown in FIG. 3, the front rear frame 8 is formed in a substantially hat shape in cross section that directs the opening surface upward of the vehicle body. That is, the front rear frame 8 is formed from a bottom surface portion 15, side surface portions 16 and 17 that are bent upward at substantially right angles from both sides of the bottom surface portion 15, a front end surface 18, and edges of both side surface portions 16 and 17. There are flanges 16a and 17a that are bent sideways, an upper surface portion 19 that is bent at the edge of the front end surface 18, and a flange 19a that is bent upward from the edge of the upper surface portion 19. is doing.

  The inclined portion 8a formed at the front end of the front rear frame 8 is formed in substantially the same shape as the inner periphery of the inclined portion 7a formed at the front front frame 7, and the front end face 18 is formed at the front front. It functions as a separator that shields the inside of the part frame 7.

  Further, flanges 16 a and 17 a formed on the front rear frame 8 are joined to the front surface of the toe board 2 and the bottom surface of the floor panel 6.

  As shown in FIGS. 1 and 2, a toe board cross member 20 is provided horizontally on the upper portion of the toe board 2 on the indoor side. The toe board cross member 20 is formed in a substantially hat-shaped cross section, and flanges 20 a and 20 b bent upward and downward are joined to the toe board 2. A flange 19a bent from the upper surface portion 19 of the front rear frame 8 is joined to a lower flange 20b of the toe board cross member 20 with the toe board 2 interposed therebetween.

  Next, the operation of the embodiment configured as described above will be described. First, the closing plate 10 is joined to the opening surface of the front frame body 9 formed in a substantially hat-shaped cross section, and the flanges 13a and 14a formed by bending up and down the front frame body 9 and the closing plate 10 The front and rear frames 7 having a hollow closed cross-section are formed by joining the flanges 10a and 10b formed on the top and bottom by spot welding or the like.

  As a result, an inclined portion 7 a having a hollow closed cross section is formed at the rear portion of the front front frame 7 by the side surface portion 12, the upper surface portion 13, the lower surface portion 14 and the closing plate 10 of the front frame body 9.

  Next, the inclined portion 8a formed at the front portion of the front rear frame 8 is attached to the inclined portion 7a from the rear. And the bottom surface part 15 of the inclined part 8a, both side surface parts 16 and 17, the upper surface part 19, the side surface part 12 of the inclined part 7a of the front front frame 7, the upper surface part 13, the lower surface part 14, and the inner surface of the closing plate 10 Are joined by spot welding or the like to form the front frame 5.

  As a result, the inclined portions 7a and 8a of both the frames 7 and 8 are almost entirely joined together, so that a large joining area can be secured, and the front front frame 7 and the front rear frame 8 can be secured. The divided portion can be reliably stiffened.

  The two inclined portions 7a, 8a of the front frame 5 formed in this way are brought into contact with the front surface of the toe board 2, and flanges 16a, 17a, 19a formed on the inclined portion 8a of the front rear frame 8 and the front front frame 7 is joined to the front surface of the toe board 2 by spot welding or the like. Further, the flanges 16a and 17a of the front rear frame 8 are joined to the floor panel 6 by spot welding or the like.

  Note that flanges 20a and 20b formed by bending up and down the toe board cross member 20 on the rear surface of the toe board 2, that is, the surface on the side of the passenger compartment 4 are joined by spot welding or the like, and the flange 19a of the front rear frame 8 and the toe board cross member The lower flange 20b of the 20 is joined to each other with the toe board 2 interposed therebetween.

  When a collision load from the front is applied to the front frame 5 formed in this way, the collision load is joined to the inclined portion 7a formed at the rear portion of the front front frame 7 and the inclined portion 7a. It is transmitted to the inclined portion 8a formed on the front rear frame 8 that is provided.

  The inclined portion 7a of the front front frame 7 is bent along the toe board 2 so that stress tends to concentrate. However, the inclined portion 8a formed at the front portion of the front rear frame 8 is almost at the inclined portion 7a. The two sheets are joined together over the entire area, and a closed cross section is formed by joining with the toe board 2 and the front end face 18 formed on the inclined portion 8a of the front rear frame 8 has a front front. Since it functions as a separator that partitions the inside of the part frame 7, it has high rigidity and can withstand a greater impact load.

  As a result, even when an impact load is applied to the front end of the front frame 5 from a position slightly shifted vertically and horizontally, a bending moment is generated in the front front frame 7, The vicinity of the joint with the rear frame 8 is not bent, and the axial collapse of the front front frame 7 can be promoted to efficiently absorb the impact load.

  Therefore, it is not necessary to stiffen the front front frame 7 by increasing its thickness, and it is not necessary to reinforce the front front frame 7 with a phosphorus hose or the like. It can be absorbed and attenuated efficiently.

  On the other hand, the impact load transmitted to the inclined portion 7a formed in the rear portion of the front front frame 7 is connected to the inclined portion 7a via the other inclined portion 8a and the toe board 2 side. Are distributed to the toe board cross member 20 joined together.

  The impact load distributed on the front rear frame 8 side is transmitted to the rear frame (not shown) and attenuated. On the other hand, the impact load distributed to the toeboard cross member 20 side is distributed and damped in the vehicle body left-right direction and upward through the respective frames connected to the toeboard cross member 20.

  4 to 6 show a second embodiment of the present invention. In the first embodiment, the front rear frame 8 is integrally formed, but in this embodiment, the front rear frame 21 is divided into a right rear frame 22 and a left rear frame 23 along the axial direction.

  As shown in FIG. 4, each of the divided rear frames 22 and 23 has bottom surface portions 15a and 15b, front end surfaces 18a and 18b, top surface portions 19a and 19b, and flanges 19a ′ and 19b ′. The front rear frame 21 is formed by joining by spot welding or the like.

  Then, the inclined portion 21a formed at the front portion of the integrated front rear frame 21 is attached to the inclined portion 7a formed at the rear portion of the front front frame 7, and the inclined portions 7a and 21a are joined by spot welding or the like. .

  By the way, as shown in FIG. 5, the front rear frame 21 is divided into two at both inclined portions 7 a and 21 a, and the lower surface portion 14 of the front frame body 9 constituting the front front frame 7 and the closing plate 10 are provided. When the formed lower edge flange 10b is joined, for example, by joining the bottom surface portion 15a of the right rear frame 22 and the lower edge flange 10b, the joining of the part can be made into three pieces. Spot welding is easier than in the case of alignment.

  In this case, as shown in FIG. 6, a step corresponding to the plate thickness of the right rear frame 22 (or the left rear frame 23) is formed on the bottom surface portion 15b of the left rear frame 23, and the front end side and the lower edge of the bottom surface portion 15b are formed. While joining the flange 10b, the base surface side of the bottom face portion 15b and the bottom face portion 15a of the right rear frame 22 may be attached to make the joint surfaces three pieces.

  Thus, in this embodiment, since the front rear frame 21 is divided into two along the axial direction, each of the rear frames 22 and 23 has a substantially L-shaped cross section, thereby facilitating manufacturing.

  7 and 8 show a third embodiment of the present invention. The front rear frame 8 according to the first embodiment is formed integrally with the inclined portion 8a, but in this embodiment, the front rear frame 25 is divided into a rear frame main body 26 and an inclined portion main body 27.

  That is, the rear frame body 26 formed in a hat-like cross section is formed with side portions 29 and 30 bent at a substantially right angle upward from the bottom surface portion 28, and flanges are formed laterally from the edges of the side surface portions 29 and 30. 29a and 30a are bent. Further, a joining portion 31 of the rear frame body 26 joined to the inclined portion main body 27 is formed with a level difference corresponding to the plate thickness of the inclined portion main body 27.

  On the other hand, the inclined portion main body 27 has a front end surface 32 that functions as a separator that partitions the inside of the front front frame 7 when joined to the front front frame 7, and side surface portions 34 on both sides of the front end surface 32. The flange 34a is bent at the upper edge of the side surface portion 34. Further, the upper surface portion 33 is bent from the upper end of the front end surface 32, and the flange 33 a is bent at the upper edge of the upper surface portion 33.

  Then, the joint 31 of the rear frame body 26 is joined to the rear part of the inclined body 27 by spot welding or the like, and the flange 33a of the inclined body 27 and the flange 29a of the rear frame body 26 are made continuous. Further, the inclined portion main body 27 is attached to the inclined portion 7a of the front front frame 7, and both the joining surfaces are joined to form the front frame 5.

  Thus, in this embodiment, since the front rear frame 25 is divided into the rear frame main body 26 and the inclined portion main body 27, manufacture of individual components is facilitated. Further, the inclined portion 7 a can be stiffened by joining the inclined portion main body 27 into the inclined portion 7 a of the front front frame 7.

  In addition, this invention is not restricted to each form mentioned above, For example, the inclined part formed in the front front frame is covered with the inclined part formed in the front rear frame, and the said joint surface is joined by spot welding etc. You may do it.

The side view which shows typically the vehicle body front part by a 1st form Same as above, enlarged view of the main part of FIG. Same as above, exploded perspective view of front frame The exploded perspective view of the front frame by the 2nd form Sectional drawing which shows the joining state of the inclination part of a front front frame, and the inclination part of a front rear frame along the VV line of FIG. Sectional view equivalent to FIG. 5 according to another embodiment The principal part enlarged view equivalent to FIG. 2 by 3rd form Same as above, exploded perspective view of front frame

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Vehicle body front part 2 Toe board 3 Engine room 4 Car compartment 5 Front frame 6 Floor panel 7 Front front frame 7a Inclined part 8, 21, 25 Front rear frame 8a, 21a Inclined part 9 Front frame main body 10 Closing plate 22 Right rear part Frame 23 Left rear frame 26 Rear frame body 27 Inclined body

Agent Patent Attorney Susumu Ito

Claims (2)

A front frame that extends downward along the toe board that divides the engine room and the vehicle compartment from the front of the vehicle body and then extends to the rear of the vehicle body along the floor panel is located in the vicinity of the junction with the toe board. In the vehicle body front structure divided into the frame and the front rear frame,
An inclined portion formed by inclining downward at the rear end of the front front frame and an inclined portion formed by inclining upward at the front end of the front rear frame are joined together.
A toe board cross member formed in a substantially hat-shaped cross section is installed horizontally on the indoor side of the toe board,
A flange formed on an upper portion of the toeboard cross member is joined to the toeboard, and a flange formed on a lower portion of the toeboard cross member is joined to an upper surface portion of the front rear frame with the toeboard interposed therebetween. Body front structure characterized by The front rear frame has a bottom surface portion, a side surface portion formed by bending upward from both sides of the bottom surface portion, and a front end surface formed by bending upward from a vehicle body front side end portion of the bottom surface portion. body front structure according to claim 1, characterized in that it is formed as a separator for partitioning the front-rear direction above the front front frame.

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