WO2016056318A1

WO2016056318A1 - Cargo box-mounting bracket for vehicle

Info

Publication number: WO2016056318A1
Application number: PCT/JP2015/074209
Authority: WO
Inventors: 雄一郎林; 亮時實
Original assignee: 三菱自動車工業株式会社
Priority date: 2014-10-09
Filing date: 2015-08-27
Publication date: 2016-04-14
Also published as: BR112017007300B1; BR112017007300A2; JP6507554B2; JP2016078470A

Abstract

This cargo box-mounting bracket (32) is provided with: an upper plate (40) on which a cargo box (14) of a rear section of a vehicle is placed; a front plate (42), the upper edge of which is formed on the front edge of the upper plate (40) and a lower edge portion of which is mounted on the upper surface of a vehicle frame member (16) with a shock-absorbing part therebetween; a rear plate (44), the upper edge of which is formed on the rear edge of the upper plate (40) and a lower edge portion of which is mounted on the upper surface of the frame member (16), rearward of the lower edge portion of the front plate (42), with a shock-absorbing part therebetween; and a side surface mounting piece (46, 48) that continues from the front plate (42) and/or the rear plate (44) and is mounted shock-absorbing part to the side surface of the frame member (16) with a shock-absorbing part therebetween. The side surface mounting piece (46, 48) is perpendicular to the side surface of the frame member (16).

Description

Vehicle packing box mounting bracket

The present invention relates to a packing box mounting bracket provided on a frame member for fixing a packing box to a vehicle.

There is a so-called pickup truck equipped with a cargo box behind the cabin where passengers are placed. The cargo box of the pickup truck is attached to the frame member via a cargo box mounting bracket provided on the frame member of the vehicle.

The packing box mount bracket is required to be robust and durable in order to securely fix the packing box. For example, the packing box mount bracket is provided on the frame member by providing three to four vertical plates around the upper plate to which the packing box is attached and welding the lower end of each vertical plate to the frame member. .

Japanese Utility Model Publication No. 6-40544 Japanese Patent No. 4132346

The conventional packing box mounting bracket has a complicated structure, and it takes time to manufacture and attach it to the frame member. Further, when the rear of the vehicle is pushed up during traveling and so-called pitching occurs in the vehicle, the load of the load box is biased forward, and a large load may be temporarily applied to the load box mount bracket provided at the front. Then, it is considered that stress concentrates on the welded portion to which the vertical plate is attached via the vertical plate of the packing box mount bracket, and an excessive load is applied thereto.

On the other hand, if the rigidity of the vertical plate of the load box mount bracket is reduced so that stress concentration due to pitching does not occur, if a large load is generated in the left and right direction of the vehicle, the load box mount bracket There is a possibility that it will not be possible.

An object of the present invention is to provide a packing box mounting bracket that has a simple configuration, does not concentrate stress on a frame member, and can reliably support a packing box.

In the present invention, in order to solve the above problems, the packing box mounting bracket is configured as follows. The load box mount bracket is an upper plate on which a load box at the rear of the vehicle is placed, and a front plate having an upper end provided at the front edge of the upper plate and a lower end attached to the upper surface of the frame member of the vehicle via a buffer portion. A rear plate attached to the upper surface of the frame member behind the lower end portion of the front plate through the buffer portion, and a lower plate is continuous with at least one of the front plate and the rear plate. Provided on the side surface of the frame member via a buffer portion. Further, the side surface attachment piece is attached perpendicularly to the side surface of the frame member.

According to the present invention, it is possible to provide a packing box mounting bracket that has a simple configuration, does not concentrate stress on the frame member, and can reliably support the packing box.

FIG. 1 is an exploded perspective view showing a vehicle including a cargo box mounting bracket according to an embodiment of the present invention. FIG. 2 is a perspective view showing the cargo box mounting bracket. FIG. 3 is a front view showing the cargo box mounting bracket. FIG. 4 is a side view showing the same box mounting bracket. FIG. 5 is a plan view showing the same box mounting bracket. FIG. 6 is a rear view showing the box mounting bracket. FIG. 7 is a partial cross-sectional perspective view showing the cargo box mounting bracket. FIG. 8 is a cross-sectional view showing a front bending portion of the same box mounting bracket. FIG. 9 is a partial cross-sectional front view showing a state in which the box mounting bracket is attached to the frame member. FIG. 10 is a partial cross-sectional perspective view showing a state in which the box mounting bracket is attached to the frame member.

A description will be given of a packing box mounting bracket according to an embodiment of the present invention. FIG. 1 is an exploded perspective view of the vehicle 10 that shows a state in which the side box 18 is provided with the packing box mounting bracket 32 of one embodiment and the packing box 14 is removed from the side frame 18. FIG. 2 is a perspective view showing the packing box mounting bracket 32 obliquely from above. FIG. 3 is a front view showing the packing box mounting bracket 32 from the front.

FIG. 4 is a side view showing the packing box mounting bracket 32 from the side. FIG. 5 is a plan view showing the packing box mounting bracket 32 from above. FIG. 6 is a rear view showing the packing box mounting bracket 32 from the rear.

As shown in FIG. 1, the vehicle 10 is a so-called pickup truck having a cabin 12 in the front and a cargo box 14 attached to the rear of the cabin 12. In the following description, the forward direction of the vehicle 10 is defined as the front, the reverse is defined as the rear, the left and right are determined based on the forward direction, the direction of gravity is defined as downward, and the reverse is defined as upward. The direction toward the center of the vehicle 10 is referred to as “inside” or “inward”, and the opposite is referred to as “outside” or “outward”.

A frame member 16 is provided at the lower part of the vehicle 10. The frame member 16 is formed of two left and right side frames 18 provided along the front-rear direction of the vehicle 10 and a plurality of cross members 20 provided in the width direction that connect between the left and right side frames 18. ing. A driving mechanism such as an engine and traveling devices such as front wheels 22 and rear wheels 24 are attached to the frame member 16.

The cabin 12 has a passenger seat as well as a driver's seat. The cabin 12 is attached to the frame member 16 via a cab mount. The cab mount includes an elastic member and supports the cabin 12 with appropriate elasticity.

The packing box 14 includes a bottom plate portion 26, a side plate portion 28 provided so as to surround the periphery of the bottom plate portion 26, a rear fender 30, and the like. The frame member 16 is provided with a pair of four load box mount brackets including first to fourth, including a load box mount bracket 32 according to the present embodiment. The packing box 14 is attached to the frame member 16 via these packing box mounting brackets.

Each of the left and right side frames 18 is provided in order from the second bracket 34 to the fourth bracket 38 behind the packing box mounting bracket 32 as the first bracket with an appropriate interval. The second bracket 34 to the fourth bracket 38 are packing box mount brackets having the same configuration as the conventional one.

FIG. 2 shows the packing box mounting bracket 32. The packing box mounting bracket 32 is attached to the left side frame 18. The packing box mounting bracket 32 is a first bracket provided at the foremost position of the four packing box mounting brackets.

The cargo box mounting bracket attached to the right side frame 18 is substantially symmetrical to the cargo box mounting bracket attached to the left side frame 18 with the center of the vehicle 10 in between. Omitted. In addition, when referred to as a packing box mounting bracket, the packing box mounting bracket 32 may be referred to as a single unit, or may include the packing box mounting bracket 32, the second bracket 34, the third bracket 36, and the fourth bracket 38. .

As shown in FIG. 2, the packing box mount bracket 32 includes an upper plate 40, a front plate 42 provided in front of the upper plate 40, a rear plate 44 provided behind the upper plate 40, and a front plate 42. A front side mounting piece 46 provided on the rear plate 44 and a rear side mounting piece 48 provided on the rear plate 44 are provided.

The packing box mount bracket 32 is formed by punching and bending a metal plate having a predetermined thickness basically by pressing. In addition, the processing method of the packing box mount bracket 32 is not restricted to this, You may use another processing method.

As shown in FIG. 5, the upper plate 40 has a rectangular shape in a top view and is elongated in the width direction of the vehicle 10. The upper plate 40 has a flat plate shape, and when the packing box mount bracket 32 is attached to the side frame 18 as shown in FIG. 1, the horizontal surface of the vehicle 10 (a surface parallel to the surface on which the front wheels 22 and the rear wheels 24 are grounded). ) And basically in parallel.

The upper plate 40 is provided with a bolt hole 50 and a positioning hole 52. Bolts 51 for fixing the packing box 14 are passed through the bolt holes 50. A positioning convex portion 54 formed in the packing box 14 is inserted into the positioning hole 52 (see FIG. 9 for both). The left positioning hole 52 is formed in an oval shape and has a slight gap with respect to the convex portion 54.

The front plate 42 is provided in front of the upper plate 40, that is, on the front edge 41 of the upper plate 40 as defined in the claims, and is continuously provided on the upper plate 40. As shown in FIG. 4, the front plate 42 and the upper plate 40 are formed to be bent at a substantially right angle at the front edge 41.

As shown in FIG. 3, the right side edge 42a on the right side (located on the left side in the front view shown in FIG. 3) is placed on the left side as the front plate 42 descends downward from the upper right edge 40a of the upper plate 40. It is curved. The left side edge 42 b on the left side of the front plate 42 is linearly lowered from the left upper end edge 40 b of the upper plate 40 and continues to the front side mounting piece 46.

The front side surface mounting piece 46 is provided at a position shifted to the outside of the left side edge 42b of the front plate 42 on the lower left side of the front plate 42. Further, the front side surface mounting piece 46 is bent forward from the front plate 42 by an angle α as shown in FIG.

A front curved portion 56 is formed below the front plate 42 as shown in FIG. As shown in FIG. 7, the front curved portion 56 is formed so that the lower end portion of the front plate 42 protrudes in the front direction. FIG. 8 shows a cross-sectional view in which the front curved portion 56 is broken at a longitudinal section F8 along the front-rear direction. The front bending portion 56 is formed in a substantially arc shape with a central axis D1 set in the left-right direction as a center. The front curved portion 56 is welded to the upper surface 19 of the side frame 18 at the front portion, rises in an arc shape from the welded portion, and continues to the front plate 42. 7 and 8 indicate the welded portion between the front frame 56 and the front side curve 58 and the side frame 18.

A front side curved portion 58 is formed on the right side of the front side mounting piece 46. As shown in FIG. 7, the front side curved portion 58 is formed so that the right end edge 46a of the front side mounting piece 46 protrudes in the front direction. The front side curved portion 58 is curved and formed in an arc shape centering on a central axis D2 set substantially in the vertical direction, as shown in FIG. The front side curved portion 58 is welded to the side surface 21 of the side frame 18 in substantially the same manner as the front curved portion 56 shown in FIG. 8, and rises in an arc from the welded portion around the central axis D2. The front side mounting piece 46 is continuous.

The front curved portion 56 and the front side curved portion 58 are continuously formed in a curved shape substantially the same as the curved shape of the front curved portion 56 and the front side curved portion 58. In addition, the front end edges 56 a and 58 a of the front curved portion 56 and the front side curved portion 58 are formed in a shape along the shape of the corner A on the upper left side of the side frame 18. The front curved portion 56 and the front side curved portion 58 are buffer portions referred to in the claims.

The rear plate 44 is provided continuously to the upper plate 40 behind the upper plate 40 as shown in FIG. The rear plate 44 is shorter than the length of the front plate 42, and is provided on the rear edge 43 of the upper plate 40 as defined in the claims in a shape bent backward from the upper plate 40 by an angle γ.

As shown in FIG. 6, the right side edge 44 a of the right side is curved to the left side as the right side edge 44 a is lowered downward from the upper right edge 40 a of the upper plate 40. Further, the left side edge 44 b on the left side of the rear plate 44 is linearly lowered from the upper left edge 40 b of the upper plate 40 and continues to the rear side mounting piece 48.

The rear side surface mounting piece 48 is provided at a position shifted to the outside of the left side edge 44b of the rear plate 44 on the lower left side of the rear plate 44. Further, as shown in FIG. 4, the rear side surface mounting piece 48 is bent rearward at an angle β from the rear plate 44.

A rear curved portion 60 is formed below the rear plate 44 as shown in FIG. The rear curved portion 60 is formed so that the lower end portion of the rear plate 44 protrudes rearward. Similar to the front bending portion 56 shown in FIG. 8, the rear bending portion 60 has a longitudinal section along the front-rear direction and is curved in an arc shape centering on the central axis set in the left-right direction. The rear curved portion 60 is welded to the upper surface 19 of the side frame 18 at the rear portion, rises in an arc shape from the welded portion, and continues to the rear plate 44.

A rear side curved portion 62 is formed on the right side of the rear side mounting piece 48. The rear side curved portion 62 is formed such that the right end edge 48a of the rear side attachment piece 48 protrudes rearward. Similar to the front side curved portion 58, the rear side curved portion 62 has a cross section along the front-rear direction and is curved in an arc shape around the central axis set in the substantially vertical direction. The rear side curved portion 62 has a rear portion welded to the side surface 21 of the side frame 18, rising from the welded portion in an arc shape, and continuing to the rear side mounting piece 48.

The rear curved portion 60 and the rear side curved portion 62 are continuously formed in a curved shape substantially the same as the curved shape of the rear curved portion 60 and the rear side curved portion 62. And each front-

end edge

60a, 62a of the rear curved part 60 and the rear side curved part 62 is formed with a curvature along the shape of the corner A on the upper left side of the side frame 18, and is welded along the corner A. Has been. The rear curved portion 60 and the rear side curved portion 62 are buffer portions in the claims.

Next, the positional relationship between the packing box mounting bracket 32 and the side frame 18 when the packing box mounting bracket 32 is attached to the side frame 18 and the operation of each part will be described.

FIG. 9 is a front view of the state in which the packing box mounting bracket 32 is attached to the side frame 18. As shown in FIG. 1, the cabin 12 is attached in front of the side frame 18. The side frame 18 bends slightly upward behind the cabin 12, and the rear wheel 24 is disposed at the curved portion. The packing box mounting bracket 32 is attached to an inclined portion in the middle of the portion where the side frame 18 is curved upward.

The packing box mount bracket 32 attached to the side frame 18 has the upper plate 40 set parallel to the horizontal plane of the vehicle 10. The front plate 42 is bent perpendicularly to the upper plate 40 and is attached to the side frame 18 perpendicular to the horizontal plane of the vehicle 10. The horizontal plane of the vehicle 10 is a plane parallel to the floor surface when the vehicle 10 is disposed on the horizontal floor surface with the front wheels 22 and the rear wheels 24.

As shown in FIG. 10, the front edge 42 a of the front curved portion 56 is in contact with the upper surface 19 of the side frame 18, and the front edge 56 a of the front curved portion 56 in contact with the upper surface 19 of the side frame 18 is It is welded to the upper surface 19 of the side frame 18 along the front curved portion 56. Therefore, the front plate 42 is fixed to the upper surface 19 of the side frame 18 via the curved front curved portion 56. Since the front plate 42 and the upper plate 40 intersect with each other at an almost right angle, the front plate 42 is joined to the upper surface 19 of the side frame 18 at a position slightly ahead of the front edge 41 of the upper plate 40. .

The front side attachment piece 46 is attached to the side 21 of the side frame 18 on the left side (outside) of the vehicle. Similarly to the front plate 42, the front side surface mounting piece 46 has a front end edge 58 a of the front side curved portion 58 in contact with the side surface 21 of the side frame 18, and a front end edge 58 a of the front side curved portion 58 in contact with the side surface 21 and the side frame. 18 side surfaces 21 are fixed by welding.

In addition, the bending portion of the connecting portion connecting the front bending portion 56 and the front side curved portion 58 is also fixed by welding along the curvature of the corner portion A of the side frame 18. Therefore, the front curved portion 56 and the front side curved portion 58 are continuously fixed to the side frame 18 by the respective

leading edges

56a and 58a.

The rear plate 44 is attached to the side frame 18 in a state of being inclined obliquely rearward and downward from the upper plate 40 as shown in FIG. As with the front plate 42, the rear plate 44 has the front edge 60 a of the rear curved portion 60 in contact with the upper surface 19 of the side frame 18, and the front edge 60 a of the rear curved portion 60 in contact with the upper surface 19 of the side frame 18 It is welded to the side frame 18 along the curved portion 60. Therefore, the rear plate 44 is fixed to the upper surface 19 of the side frame 18 via the curved rear curved portion 60. The rear plate 44 and the upper plate 40 have an angle of a right angle or more (backward angle γ inclination), and the lower end portion of the rear plate 44 is a predetermined distance behind the position immediately below the rear edge 43 of the upper plate 40. It is joined to the side frame 18 at a position lowered to.

The rear side surface mounting piece 48 is mounted on the side surface 21 on the vehicle left side (outside) of the side frame 18. As with the rear plate 44, the rear side surface mounting piece 48 has the front end edge 62 a of the rear side curved portion 62 in contact with the side surface 21 of the side frame 18, and the front end edge 62 a of the rear side curved portion 62 in contact with the side surface 21 and the side frame. 18 side surfaces 21 are fixed by welding.

In addition, the bending portion of the connecting portion connecting the rear bending portion 60 and the rear side bending portion 62 is also fixed by welding along the curvature of the corner portion A of the side frame 18. Therefore, the rear curved portion 60 and the rear side curved portion 62 are continuously fixed to the side frame 18 by the respective

leading edges

60a and 62a.

The packing box mounting bracket 32 as the first bracket is attached to the left and right side frames 18 as described above. Further, when the second bracket 34 to the fourth bracket 38 are attached to the left and right side frames 18 and all the cargo box mounting brackets are attached to the frame member 16, the cargo box 14 is projected from the positioning hole 52 to the frame member 16. Assemble with reference to part 54. When the packing box 14 is assembled to the frame member 16, the bolt 51 is passed through the bolt hole 50, and the packing box 14 is fixed to each packing box mounting bracket.

The packing box 14 is fixed to the frame member 16 of the vehicle 10 with each packing box mounting bracket from the packing box mounting bracket 32 to the fourth bracket 38 as a first bracket.

The weight of the load mounted on the packing box 14 is appropriately applied to each packing box mounting bracket. The load applied to the cargo box mount bracket 32 is applied to the side frame 18 via the front plate 42 and the rear plate 44.

Next, a case where pitching occurs in the vehicle 10 will be described. For example, it is assumed that the rear of the vehicle 10 is pushed up with respect to the front during traveling due to a step on the road surface. Then, the load of the load box 14 is biased forward, and the weight of the load box 14 is greatly applied to the load box mount bracket 32.

The lower end of each of the front plate 42 and the rear plate 44 of the packing box mount bracket 32 is joined to the side frame 18 via the front curved portion 56 and the rear curved portion 60. Therefore, when a large load is applied to the packing box mount bracket 32, the front curved portion 56 and the rear curved portion 60 of the front plate 42 and the rear plate 44 are elastically deformed appropriately. Thereby, even if the weight of the cargo box 14 is concentrated on the cargo box mount bracket 32 at the moment when the rear of the vehicle 10 is pushed up, the load transmission to the frame member 16 is caused by the elastic deformation of the front curved portion 56 and the like. The maximum value of the load transmitted to the side frame 18 from the load box mounting bracket 32 is reduced.

Also, the front side mounting piece 46 provided on the front plate 42 is joined to the side frame 18 via the front side curved portion 58. Similarly, a rear side surface mounting piece 48 provided on the rear plate 44 is joined to the side surface 21 of the side frame 18 via the rear side curved portion 62.

Further, the front plate 42 and the front side surface mounting piece 46 are connected at a predetermined angle α, and the front curved portion 56 and the front side curved portion 58 are continuously formed in an L shape with substantially the same curved shape. ing. Similarly, the rear plate 44 and the rear side surface mounting piece 48 are connected at a predetermined angle β, and the rear curved portion 60 and the rear side curved portion 62 are continuously formed in an L shape with substantially the same curved shape. Has been.

By having these predetermined angles α and β, the front bending portion 56 and the rear bending portion 60 are more easily elastically deformed with respect to the load in the front-rear direction, and do not cause buckling or the like even when receiving an excessive load. .

Next, a case where a load is generated in the width direction of the vehicle 10 will be described. For example, suppose that the vehicle 10 turns or runs on a sloping road, the load box 14 is biased to the left, and a load is applied to the bolt 51 of the load box mount bracket 32 in the left direction.

The load in the left direction applied to the bolt 51 of the packing box mount bracket 32 causes a moment when the bolt 51 and the side frame 18 are separated in the vertical direction, that is, in an offset state. As a result, a moment in the clockwise direction about the central axis is applied to the packing box mount bracket 32 when the central axis set in the front-rear direction is viewed from the front side of the vehicle. The moment is transmitted from the front plate 42 to the front side mounting piece 46 and from the rear plate 44 to the rear side mounting piece 48.

The front side surface mounting piece 46 and the rear side surface mounting piece 48 are vertically joined to the left side surface 21 of the side frame 18 via a front side curved portion 58 and a rear side curved portion 62, respectively. A leftward load is applied to the left side surface 21 of the side frame 18 from the front side mounting piece 46 and the rear side mounting piece 48.

Thus, the packing box mount bracket 32 provided on the left side frame 18 is effectively held by the front side mounting piece 46 and the rear side mounting piece 48 joined to the left side surface 21 of the side frame 18. Therefore, not only the front plate 42 and the rear plate 44 but also the front side mounting piece 46 and the rear side mounting piece 48 that are mounted perpendicularly to the left side surface 21 of the side frame 18 are provided laterally. The load box mounting bracket 32 can reliably support the load box 14 even when the load is biased to the left.

Further, as described above, the front curved portion 56 and the front side curved portion 58 are continuous with substantially the same curved surface, and the rear curved portion 60 and the rear side curved portion 62 are similarly continuous with substantially the same curved surface. Accordingly, the front plate 42 and the front side surface mounting piece 46, and the rear plate 44 and the rear side surface mounting piece 48 are firmly connected to each other, so that the load box 14 loaded in the left direction can be reliably supported.

Further, a load in the left direction of the vehicle 10 is also applied to the packing box mount bracket 32 provided on the right side frame 18. Also in this case, the moment is set in the front-rear direction with the central axis in the front-rear direction and is applied in the clockwise direction as viewed from the front of the vehicle, unlike the left-side load box mount bracket 32. The load box mount bracket 32 can support the load box 14 with certainty because the front plate 42 and the rear plate 44 provided on the upper surface 19 of the right side frame 18 hold the load.

Further, even when the load is deviated to the right of the vehicle 10, the left and right packing box mounting brackets 32 are similarly loaded by the front side mounting piece 46, the rear side mounting piece 48, the front plate 42 and the rear plate 44. And the packing box 14 can be reliably supported.

Thus, the load box mount bracket 32 causes the front curved portion 56 and the like of the front plate 42 to be elastically deformed appropriately according to the load. Therefore, even if pitching occurs in the vehicle 10, stress concentration occurs in the frame member 16. I will not let you.

Further, since the front side mounting piece 46 and the rear side mounting piece 48 are attached to the side surface 21 of the side frame 18, the packing box mounting bracket 32 can sufficiently cope with the load generated in the width direction of the vehicle 10. Thus, even when turning or traveling on an inclined road surface and the load is biased to the left and right, the cargo box 14 can be reliably supported.

The present invention is not limited to the above-described embodiment, and can be implemented with appropriate modifications. For example, both the front side surface mounting piece 46 and the rear side surface mounting piece 48 do not have to be both, and may be either one. The front curved portion 56 and the like are not in a cylindrically curved shape, and may have other shapes as long as an elastic function is obtained. The front curved portion 56, the front side curved portion 58, and the like may not be formed continuously. The packing box mounting bracket 32 of the present embodiment may be a packing box mounting bracket that is attached to another position instead of the first bracket.

The present invention can be used for a carton mounting bracket for attaching a carton to a frame in a vehicle having a carton.

DESCRIPTION OF SYMBOLS 10 ... Vehicle, 12 ... Cabin, 14 ... Packing box, 16 ... Frame member, 18 ... Side frame, 19 ... Upper surface, 20 ... Cross member, 21 ... Side surface, 26 ... Bottom plate part, 28 ... Side plate part, 32 ... Packing box Mount bracket, 40 ... upper plate, 40a ... upper right edge, 40b ... upper left edge, 42 ... front plate, 42a ... right edge, 42b ... left edge, 44 ... rear plate, 44a ... right edge, 44b ... Left edge, 46 ... front side mounting piece, 48 ... rear side mounting piece, 50 ... bolt hole, 51 ... bolt, 52 ... positioning hole, 54 ... convex part, 56 ... front curved part, 58 ... front side curved part, 60 ... rear curved part, 62 ... rear side curved part.

Claims

An upper plate (40) on which a cargo box at the rear of the vehicle is placed;
A front plate (42) having an upper end provided at a front edge of the upper plate (40) and a lower end attached to the upper surface of the frame member (16) of the vehicle via a buffer;
A rear plate having an upper end at the rear edge of the upper plate (40) and a lower end attached to the upper surface of the frame member (16) behind the lower end of the front plate (42) via a buffering portion ( 44)
Side surface attachment pieces (46, 48) that are provided continuously with at least one of the front plate (42) and the rear plate (44) and are attached to the side surface of the frame member (16) via a buffer. Prepared,
The cargo box mounting bracket, wherein the side surface mounting pieces (46, 48) are perpendicular to the side surface of the frame member (16).
2. The packing box mounting bracket according to claim 1, wherein the buffer portion is formed of an elastically deformable curved portion (56, 60) curved along the front-rear direction.
The buffer portion of the side surface mounting pieces (46, 48) and the buffer portion of the front plate (42) and the rear plate (44) provided with the side surface mounting pieces (46, 48) are substantially the same. The packing box mounting bracket according to claim 2, wherein the packing box mounting bracket is continuously formed in the same curved shape.
The buffer portion is attached to the frame member (16) at the leading edge of the curved portion (56, 60), and the curved portion (56, 60) is elastically deformed according to a load to the frame member (16). The load box mounting bracket according to claim 2 or 3, wherein the impact is reduced.
The load according to any one of claims 1 to 4, wherein the side surface mounting pieces (46, 48) are provided on both the front plate (42) and the rear plate (44). Box mount bracket.
The load box mounting bracket is provided at the foremost position among a plurality of mount brackets attached to the frame member (16) for fixing the load box (14). The packing box mounting bracket according to any one of 1 to 5.