CN218839312U - Rearview mirror mounting structure and vehicle - Google Patents

Abstract

The utility model provides a rearview mirror mounting structure and a vehicle, belonging to the technical field of vehicles, comprising a door outer reinforcing plate and a rearview mirror mounting plate; the front part of the outer reinforcing plate of the vehicle door is provided with a first plane; the rearview mirror mounting plate is positioned on the inner side of the door outer reinforcing plate and is provided with a front support leg, an upper support leg and a lower support leg which are respectively connected with the door frame framework, the rear end of the rearview mirror mounting plate is positioned on the rear side of the first plane, and the rear end of the rearview mirror mounting plate is in lap joint with the door outer reinforcing plate; the rearview mirror mounting plate is also provided with a second plane attached to the first plane, and the second plane and the first plane form a mounting position of the rearview mirror. The utility model improves the fixing strength of the rearview mirror mounting plate by means of the doorframe framework and the outer door reinforcing plate; the overlapping size of the rearview mirror mounting plate and the door outer reinforcing plate is large, the fixing strength of the rearview mirror mounting plate can be fully improved by using the door outer reinforcing plate, and therefore the stability of the rearview mirror mounting structure is improved.

Description

Rearview mirror mounting structure and vehicle

Technical Field

The utility model belongs to the technical field of the vehicle, more specifically say, relate to a rear-view mirror mounting structure and vehicle.

Background

The rear-view mirror of the automobile reflects the conditions of the rear, the side and the lower part of the automobile, so that a driver can indirectly see the conditions of the positions, the rear-view mirror plays the role of a second eye, and the visual field range of the driver is expanded.

The rearview mirror has strong requirements on stability during design, and cannot shake obviously when a vehicle runs, particularly when the vehicle runs on a bad road; when the vehicle is closed in a static state, the rearview mirror cannot generate abnormal shaking due to closing impact of the door.

In the prior art, the rearview mirror is directly arranged on the sheet metal surface of the vehicle door or arranged at the upper part of the vehicle door and the position of the glass frame, the strengthening design is not carried out, and the mounting structure strength of the rearview mirror with a larger structure is weaker, so that the requirement of the stability of the rearview mirror during the running and static closing of the vehicle can not be met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rear-view mirror mounting structure and vehicle aims at solving the weak technical problem of rear-view mirror installation intensity that exists among the prior art.

In order to achieve the above object, the utility model adopts the following technical scheme: provided is a rearview mirror mounting structure including:

the outer door reinforcing plate is positioned on the inner side of the outer door plate and extends along the front and rear directions of the vehicle body; the front part of the outer door reinforcing plate is provided with a first plane;

the rearview mirror mounting plate is positioned on the inner side of the door outer reinforcing plate, the front end of the rearview mirror mounting plate is provided with a front supporting leg connected with a door frame framework, the upper end of the rearview mirror mounting plate is provided with an upper supporting leg connected with the door frame framework, the lower end of the rearview mirror mounting plate is provided with a lower supporting leg connected with the door frame framework, the rear end of the rearview mirror mounting plate is positioned on the rear side of the first plane, and the rear end of the rearview mirror mounting plate is in lap joint with the door outer reinforcing plate; the rearview mirror mounting plate is also provided with a second plane attached to the first plane, and the second plane and the first plane form a mounting position of a rearview mirror.

In a possible implementation manner, the door outer reinforcing plate is provided with flanges at the front side and the lower side of the first plane, and the flanges protrude from the door outer plate and are in lap joint with the door outer plate; the flanging positioned on the front side of the first plane is provided with a first reinforcing rib sunken towards the interior of the vehicle body, and the flanging positioned on the lower side of the first plane is provided with a second reinforcing rib sunken towards the interior of the vehicle body; and a third reinforcing rib which is sunken towards the outside of the vehicle body is arranged on the outer door reinforcing plate behind the first plane.

In one possible implementation, the front leg includes:

the front fixing plate is used for being connected with the doorframe framework; the front fixing plate is positioned in front of the rearview mirror mounting plate in the front-rear direction of the vehicle body, and the front fixing plate is positioned on the outer side of the rearview mirror mounting plate in the left-right direction of the vehicle body; and

and the front connecting plate is positioned between the front fixing plate and the rearview mirror mounting plate and is connected with the front fixing plate and the rearview mirror mounting plate.

In some embodiments, the front fixing plate is provided with a notch; and a fourth reinforcing rib which is sunken towards the outside of the vehicle body is arranged on the front connecting plate.

In one possible implementation, the upper leg includes:

the lower end of the upper connecting plate is connected with the rearview mirror mounting plate, and the upper end of the upper connecting plate inclines towards the inside of the vehicle body; the upper connecting plate is provided with fifth reinforcing ribs sunken towards the inside of the vehicle body; and

the upper fixing plate is connected with the upper end of the upper connecting plate and is used for being connected with the doorframe framework; and the upper fixing plate is provided with a sixth reinforcing rib sunken towards the outside of the vehicle body.

In one possible implementation, the lower leg includes:

the upper end of the lower connecting plate is connected with the rearview mirror mounting plate, and the lower end of the lower connecting plate inclines towards the inside of the vehicle body; the lower connecting plate is provided with a seventh reinforcing rib which is sunken towards the interior of the vehicle body; and

and the lower fixing plate is connected with the lower end of the lower connecting plate and is used for being connected with the door frame framework.

In one possible implementation, the mirror mounting structure further includes:

a first rearview mirror reinforcing plate located on the inner side of the rearview mirror mounting plate and attached to the rearview mirror mounting plate.

In some embodiments, the first rearview mirror reinforcing plate is provided with an eighth reinforcing rib which is concave towards the inside of the vehicle body; the rearview mirror mounting plate is provided with a ninth reinforcing rib which is sunken towards the inside of the vehicle body and is arranged behind the second plane, and the ninth reinforcing rib corresponds to the eighth reinforcing rib in the vertical direction of the vehicle body.

In one possible implementation, the mirror mounting structure further includes:

the second rearview mirror reinforcing plate is positioned on the inner side of the rearview mirror mounting plate and connected with the door frame framework; the upper support legs are fixed on the second rearview mirror reinforcing plate and connected with the door frame framework through the second rearview mirror reinforcing plate; and

the third rearview mirror reinforcing plate is positioned on the inner side of the rearview mirror mounting plate and below the second rearview mirror reinforcing plate and is connected with the door frame framework; the lower support is fixed on the third rearview mirror reinforcing plate and connected with the door frame framework through the third rearview mirror reinforcing plate.

The utility model provides a rear-view mirror mounting structure's beneficial effect lies in: compared with the prior art, the utility model discloses rear-view mirror mounting structure, the front end, the upper end and the lower extreme of rear-view mirror mounting panel are connected with the door frame skeleton respectively, and rear-view mirror mounting panel and door outer reinforcing plate overlap joint are connected, promote the fixed strength of rear-view mirror mounting panel with the help of door frame skeleton and door outer reinforcing plate; in addition, the rear end of the rearview mirror mounting plate is positioned at the rear side of the first plane of the door outer reinforcing plate, so that the overlapping size of the rearview mirror mounting plate and the door outer reinforcing plate is large, the fixing strength of the rearview mirror mounting plate can be improved by fully using the door outer reinforcing plate, and the stability of the rearview mirror mounting structure is improved.

The utility model also provides a vehicle, including foretell rear-view mirror mounting structure.

The utility model provides a vehicle owing to adopted foretell rear-view mirror mounting structure, can effectively attenuate the door and receive vibration transmission energy such as tire excitation, power assembly excitation, striking excitation when closing the door, reaches the purpose that promotes rear-view mirror stability, promotes the travelling comfort that the user used the rear-view mirror, provides reliable stable side rear field of vision environment for the user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a rearview mirror mounting structure provided in an embodiment of the present invention;

fig. 2 is an exploded schematic view of a rearview mirror mounting structure provided in an embodiment of the present invention;

fig. 3 is a schematic structural view of a door outer reinforcement plate of a rearview mirror mounting structure provided in an embodiment of the present invention;

fig. 4 is a schematic structural view of a rearview mirror mounting plate of a rearview mirror mounting structure provided in an embodiment of the present invention;

fig. 5 is a schematic structural view of a first rearview mirror reinforcing plate of a rearview mirror mounting structure provided in an embodiment of the present invention;

fig. 6 is a schematic view of a position structure of a rearview mirror mounting structure and a door outer panel provided in an embodiment of the present invention.

In the figure:

1. a door outer reinforcement plate; 11. a first plane; 12. flanging; 13. a first reinforcing rib; 14. a second reinforcing rib; 15. a third reinforcing rib;

2. a rearview mirror mounting plate; 21. a front leg; 211. a front fixing plate; 212. a front connection plate; 213. a notch; 214. a fourth reinforcing rib; 22. an upper leg; 221. an upper connecting plate; 222. an upper fixing plate; 223. fifthly, strengthening the tendons; 224. a sixth reinforcing rib; 23. a lower leg; 231. a lower connecting plate; 232. a lower fixing plate; 233. a seventh reinforcing rib; 24. a second plane; 25. a ninth reinforcing rib;

3. an outer panel of the vehicle door;

4. a first rearview mirror stiffener; 41. an eighth reinforcing rib;

5. a second rearview mirror reinforcement panel;

6. a third rearview mirror reinforcing panel.

Detailed Description

In order to make the technical problem, technical solution and beneficial effects to be solved by the present invention more clearly understood, the following description is made in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that, in the present embodiment, it is to be noted that the terms "front", "rear", "inside", "outside", "up", "down", and the like indicate the orientation or positional relationship based on the orientation of the vehicle itself, where the head of the vehicle represents "front", the tail of the vehicle represents "rear", the top of the vehicle represents "up", the bottom of the vehicle represents "down", "inside" side means a side facing the inside of the cab, and the outside side means a side facing the outside of the cab.

In addition, the front-rear direction of the vehicle body defined in the embodiments of the present invention refers to the front-rear direction of the advancing direction during the traveling of the vehicle, the left-right direction of the vehicle body defined refers to the left-right direction of the advancing direction during the traveling of the vehicle, and the up-down direction of the vehicle body defined refers to the up-down direction of the advancing direction during the traveling of the vehicle.

Referring to fig. 1, 2 and 6 together, the rearview mirror mounting structure of the present invention will now be described. The rearview mirror mounting structure comprises a door outer reinforcing plate 1 and a rearview mirror mounting plate 2. The outer door reinforcing plate 1 is positioned on the inner side of the outer door plate 3 and extends along the front and rear direction of the vehicle body; the front part of the outer door reinforcing plate 1 is provided with a first plane 11; rear-view mirror mounting panel 2 is located the inboard of door outer reinforcing plate 1, and front end, upper end and the lower extreme of rear-view mirror mounting panel 2 are connected with the door frame skeleton respectively, specifically are: the front end of the rearview mirror mounting plate 2 is provided with a front supporting leg 21 connected with the doorframe framework, the upper end of the rearview mirror mounting plate is provided with an upper supporting leg 22 connected with the doorframe framework, and the lower end of the rearview mirror mounting plate is provided with a lower supporting leg 23 connected with the doorframe framework. The rear end of the rearview mirror mounting plate 2 is positioned at the rear side of the first plane 11, and the rear end of the rearview mirror mounting plate is in lap joint with the outer door reinforcing plate 1; the mirror mounting plate 2 further has a second plane 24 attached to the first plane 11, and the second plane 24 and the first plane 11 constitute a mirror mounting position.

The door outer reinforcement plate 1 is welded to the inner side of the door outer panel 3 for increasing the strength of the door outer panel 3. Specifically, the front and rear ends of the door outer reinforcement plate 1 extend to the front and rear sides of the door outer panel 3, respectively, as shown in fig. 6. The mirror mounting plate 2 is welded to the inner front portion of the door outer reinforcement plate 1. The whole rearview mirror mounting plate 2 is designed along with the shape of the front part of the outer door reinforcing plate 1, and the front end, the upper end and the lower end of the rearview mirror mounting plate 2 are respectively connected with a door frame framework by extending out supporting feet. First plane 11 and the laminating of second plane 24 all offer the mounting hole that is used for installing the rear-view mirror on first plane 11 and the second plane 24.

The rear end of the mirror mounting plate 2 is located on the rear side of the first plane 11, that is, the rear end of the mirror mounting plate 2 crosses the first plane 11, and the mirror mounting plate 2 can completely cover the first plane 11. Specifically, the overlapping length of the mirror mounting plate 2 and the door outer reinforcement plate 1 is 290mm or more.

Compared with the prior art, the rearview mirror mounting structure provided by the utility model has the advantages that the front end, the upper end and the lower end of the rearview mirror mounting plate 2 are respectively connected with the door frame framework, the rearview mirror mounting plate 2 is also in lap joint with the outer door reinforcing plate 1, and the fixing strength of the rearview mirror mounting plate 2 is improved by means of the door frame framework and the outer door reinforcing plate 1; in addition, the rear end of the mirror mounting plate 2 is located at the rear side of the first plane 11 of the door outer reinforcement plate 1, so that the overlapping size of the mirror mounting plate 2 and the door outer reinforcement plate 1 is large, the fixing strength of the mirror mounting plate 2 can be sufficiently improved by using the door outer reinforcement plate 1, and the stability of the mirror mounting structure can be improved.

In some embodiments, the door outer reinforcement plate 1 may have a structure as shown in fig. 3. Referring to fig. 3, the door outer reinforcing plate 1 is provided with flanges 12 on the front side and the lower side of the first plane 11, and the flanges 12 protrude toward the door outer plate 3 and are lapped with the door outer plate 3; wherein, the flange 12 located at the front side of the first plane 11 is provided with a first reinforcing rib 13 recessed towards the interior of the vehicle body, and the flange 12 located at the lower side of the first plane 11 is provided with a second reinforcing rib 14 recessed towards the interior of the vehicle body. The door outer reinforcement plate 1 is provided with a third bead 15 recessed toward the outside of the vehicle body behind the first plane 11.

The flange 12 in this embodiment is L-shaped in cross-section, that is, the flange 12 includes a first flange disposed substantially perpendicular to the first plane 11 and a second flange disposed substantially perpendicular to the first flange (substantially parallel to the first plane 11). The second side plate extends towards the periphery of the first plane 11. The second side plate is used for being lapped with the outer reinforcing plate 1 of the vehicle door. The first reinforcing bead 13 and the second reinforcing bead 14 are both provided on the second side plate.

Preferably, the first reinforcing bead 13 extends in the vertical direction of the vehicle body, and has an extension length of 45mm and a recess depth of 2mm. The second reinforcing rib 14 can be provided with a plurality of intervals along the front and rear direction of the vehicle body, and each second reinforcing rib 14 extends along the front and rear direction of the vehicle body, and the extension length is 55mm, and the depth of the recess is 3mm.

Preferably, the third reinforcing ribs 15 may be provided in plurality at intervals in the up-down direction of the vehicle body, and each third reinforcing rib 15 extends in the front-rear direction of the vehicle body or is provided in an inclined manner in the front-rear direction of the vehicle body, and has an extension length of 55mm and a recess depth of 3mm.

The outer reinforcing plate 1 of door increases turn-ups 12, can promote the bulk strength of outer reinforcing plate 1 of door, and turn- ups 12 and 3 overlap joints of door planking, and then strengthen the intensity of door planking 3. Set up first strengthening rib 13 and second strengthening rib 14 on turn-ups 12, set up third strengthening rib 15 on door outer reinforcing plate 1, and first strengthening rib 13, second strengthening rib 14 are opposite with third strengthening rib 15's sunken direction, can further increase door outer reinforcing plate 1's intensity to promote the overall structure intensity of rear-view mirror mounted position.

In some embodiments, the front leg 21 can adopt the structure shown in fig. 4, and referring to fig. 4, the front leg 21 includes a front fixing plate 211 and a front connecting plate 212. The front fixing plate 211 is used for connecting with a doorframe framework; the front fixing plate 211 is located forward of the mirror attachment plate 2 in the front-rear direction of the vehicle body, and the front fixing plate 211 is located outward of the mirror attachment plate 2 in the left-right direction of the vehicle body. The front connecting plate 212 is located between the front fixing plate 211 and the mirror mounting plate 2, and connects the front fixing plate 211 and the mirror mounting plate 2.

The front support leg 21 is an arc-shaped plate structure which is arched towards the outside of the vehicle body, the front fixing plate 211 is approximately parallel to the second plane 24, the front connecting plate 212 is obliquely arranged relative to the second plane 24, and the joint of the front fixing plate 211 and the front connecting plate 212 adopts fillet transition. The front leg 21 is designed in a curved plate structure that is arched to increase the strength of the mirror mounting plate 2 in the left-right direction of the vehicle body.

Preferably, the front connecting plate 212 covers the entire front end of the mirror mounting plate 2, that is, the vertical height of the front connecting plate 212 is substantially equal to the vertical height of the mirror mounting plate 2. Therefore, the welding area of the front fixing plate 211 and the doorframe framework can be increased, and the fixing strength of the rearview mirror mounting plate 2 is improved.

Preferably, the front fixing plate 211 is provided with a notch 213, and the notch 213 is semicircular. The provision of the notch 213 reduces the overall weight of the mirror mounting plate 2. The front link plate 212 is provided with a fourth bead 214 recessed toward the outside of the vehicle body. Preferably, the fourth reinforcing ribs 214 may be provided in plurality at intervals in the up-down direction of the vehicle body, and each of the fourth reinforcing ribs 214 extends in the front-rear direction of the vehicle body or extends obliquely in the front-rear direction of the vehicle body.

In some embodiments, the upper supporting leg 22 and the lower supporting leg 23 may adopt the structure shown in fig. 4, and referring to fig. 4, the upper supporting leg 22 includes an upper connecting plate 221 and an upper fixing plate 222. The lower end of the upper connecting plate 221 is connected with the rearview mirror mounting plate 2, and the upper end is inclined towards the interior of the vehicle body; the upper connecting plate 221 is provided with fifth reinforcing ribs 223 which are recessed towards the interior of the vehicle body; the upper fixing plate 222 is connected to the upper end of the upper connecting plate 221 for connecting to the frame; the upper fixing plate 222 is provided with a sixth reinforcing bead 224 recessed toward the outside of the vehicle body.

The lower leg 23 includes a lower connecting plate 231 and a lower fixing plate 232, the upper end of the lower connecting plate 231 is connected to the mirror mounting plate 2, and the lower end is inclined toward the inside of the vehicle body; the lower connection plate 231 is provided with a seventh reinforcing rib 233 recessed toward the inside of the vehicle body; the lower fixing plate 232 is connected to the lower end of the lower connecting plate 231 for connection with the doorframe frame.

The upper connecting plate 221 and the lower connecting plate 231 are both inclined toward the inside of the vehicle body, and preferably, the inclination angles of the upper connecting plate 221 and the lower connecting plate 231 are different, so that the whole rearview mirror mounting plate 2 is of a triangular three-dimensional structure, and the strength of the rearview mirror mounting plate 2 in the left-right direction of the vehicle body can be increased.

In addition, the fifth reinforcing rib 223 is provided on the upper connecting plate 221, the sixth reinforcing rib 224 is provided on the upper fixing plate 222, and the recessed directions of the fifth reinforcing rib 223 and the sixth reinforcing rib 224 are opposite, so that the strength of the upper leg 22 can be enhanced. The seventh reinforcing rib 233 is provided on the lower connecting plate 231, and preferably, the recessed shape of the seventh reinforcing rib 233 is a triangle, which can increase the strength of the lower leg 23.

Through the strengthening rib of designing different structures on last stabilizer blade 22, lower stabilizer blade 23 to and through the different inclination of design upper junction plate 221, lower connecting plate 231, make and have structural difference in last stabilizer blade 22 and lower stabilizer blade 23, can further realize local strength difference design, make and go up stabilizer blade 22 and lower stabilizer blade 23 and have different modal frequency, reduce rear-view mirror mounting panel 2 resonance risk.

In some embodiments, the above-mentioned rearview mirror mounting structure can also adopt a structure as shown in fig. 2 and 5, and referring to fig. 2 and 5, the rearview mirror mounting structure further includes a first rearview mirror reinforcing plate 4. The first rearview mirror reinforcing plate 4 is located on the inner side of the rearview mirror mounting plate 2 and is welded with the rearview mirror mounting plate 2 in an attaching mode. The first rearview mirror reinforcing plate 4 is attached to the inner side of the rearview mirror mounting plate 2 and plays a role in supporting and increasing the thickness of the rearview mirror mounting plate 2.

Preferably, the first rearview mirror reinforcing plate 4 is provided with an eighth reinforcing rib 41 recessed toward the inside of the vehicle body; the mirror attachment plate 2 is provided with a ninth bead 25 recessed toward the inside of the vehicle body rearward of the second plane 24, and the ninth bead 25 and the eighth bead 41 correspond in the vehicle body vertical direction. The eighth reinforcing rib 41 and the ninth reinforcing rib 25 are provided to further increase the strength of the mirror mounting plate 2.

In some embodiments, the above-mentioned rearview mirror mounting structure can also adopt a structure as shown in fig. 1, 2 and 6, and referring to fig. 1, 2 and 6, the rearview mirror mounting structure further comprises a second rearview mirror reinforcing plate 5 and a third rearview mirror reinforcing plate 6. The second rearview mirror reinforcing plate 5 is positioned on the inner side of the rearview mirror mounting plate 2 and is connected with the doorframe framework; the upper leg 22 is fixed to the second mirror reinforcement 5, and the upper leg 22 is connected to the door frame framework via the second mirror reinforcement 5. The third rearview mirror reinforcing plate 6 is positioned on the inner side of the rearview mirror mounting plate 2 and below the second rearview mirror reinforcing plate 5 and is connected with the doorframe framework; the lower leg 23 is fixed to the third mirror reinforcing plate 6, and the lower leg 23 is connected to the door frame framework through the third mirror reinforcing plate 6.

Add second rear-view mirror reinforcing plate 5 and third rear-view mirror reinforcing plate 6 for increase with the area of being connected of door frame skeleton, further promote this rear-view mirror mounting structure's fixed strength with the help of the door frame skeleton.

Based on the same inventive concept, the embodiment of the application also provides a vehicle, which comprises the rearview mirror mounting structure.

The vehicle that this application embodiment provided, owing to adopted foretell rear-view mirror mounting structure, vibration transmission energy such as impact excitation when can effectively attenuate the door and receive tire excitation, power assembly excitation, close the door reaches the purpose that promotes rear-view mirror stability, promotes the travelling comfort that the user used the rear-view mirror, provides reliable stable side rear field of vision environment for the user.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A rearview mirror mounting structure, comprising:

the outer door reinforcing plate (1) is positioned on the inner side of the outer door plate (3) and extends along the front and rear direction of the vehicle body; the front part of the door outer reinforcing plate (1) is provided with a first plane (11);

the rearview mirror mounting plate (2) is positioned on the inner side of the door outer reinforcing plate (1), the front end of the rearview mirror mounting plate is provided with a front supporting leg (21) connected with a door frame framework, the upper end of the rearview mirror mounting plate is provided with an upper supporting leg (22) connected with the door frame framework, the lower end of the rearview mirror mounting plate is provided with a lower supporting leg (23) connected with the door frame framework, the rear end of the rearview mirror mounting plate is positioned on the rear side of the first plane (11), and the rear end of the rearview mirror mounting plate is in lap joint with the door outer reinforcing plate (1); the rearview mirror mounting plate (2) is further provided with a second plane (24) attached to the first plane (11), and the second plane (24) and the first plane (11) form a mounting position of a rearview mirror.

2. Rearview mirror mounting arrangement according to claim 1, characterized in that said door outer reinforcement plate (1) is provided with flanges (12) at both the front side and the underside of said first plane (11), said flanges (12) projecting towards said door outer panel (3) and overlapping said door outer panel (3); wherein, a first reinforcing rib (13) which is sunken towards the interior of the vehicle body is arranged on the flanging (12) positioned at the front side of the first plane (11), and a second reinforcing rib (14) which is sunken towards the interior of the vehicle body is arranged on the flanging (12) positioned at the lower side of the first plane (11); and a third reinforcing rib (15) which is sunken towards the outside of the vehicle body is arranged on the outer door reinforcing plate (1) behind the first plane (11).

3. -rear-view mirror mounting structure according to claim 1, characterized in that said front foot (21) comprises:

the front fixing plate (211) is connected with the door frame framework; the front fixing plate (211) is positioned in front of the rearview mirror mounting plate (2) in the front-rear direction of the vehicle body, and the front fixing plate (211) is positioned outside the rearview mirror mounting plate (2) in the left-right direction of the vehicle body; and

the front connecting plate (212) is located between the front fixing plate (211) and the rearview mirror mounting plate (2) and is connected with the front fixing plate (211) and the rearview mirror mounting plate (2).

4. The rearview mirror mounting structure of claim 3, wherein the front fixing plate (211) is provided with a notch (213); and a fourth reinforcing rib (214) which is sunken towards the outside of the vehicle body is arranged on the front connecting plate (212).

5. Rearview mirror mounting arrangement according to claim 1, characterized in that said upper foot (22) comprises:

an upper connection plate (221) having a lower end connected to the mirror mounting plate (2) and an upper end inclined toward the inside of the vehicle body; the upper connecting plate (221) is provided with fifth reinforcing ribs (223) which are sunken towards the interior of the vehicle body; and

the upper fixing plate (222) is connected with the upper end of the upper connecting plate (221) and is used for being connected with the door frame framework; and the upper fixing plate (222) is provided with a sixth reinforcing rib (224) which is sunken towards the outside of the vehicle body.

6. Rearview mirror mounting arrangement according to claim 1, wherein said lower foot (23) comprises:

a lower connecting plate (231) having an upper end connected to the mirror mounting plate (2) and a lower end inclined toward the inside of the vehicle body; a seventh reinforcing rib (233) which is sunken towards the interior of the vehicle body is arranged on the lower connecting plate (231); and

and the lower fixing plate (232) is connected with the lower end of the lower connecting plate (231) and is used for being connected with the door frame framework.

7. The rearview mirror mounting structure of claim 1 further comprising:

a first rearview mirror reinforcing plate (4) located on the inner side of the rearview mirror mounting plate (2) and attached to the rearview mirror mounting plate (2).

8. A mirror mounting structure according to claim 7, wherein the first mirror reinforcing plate (4) is provided with an eighth reinforcing bead (41) recessed inwardly of the vehicle body; the rear-view mirror mounting plate (2) is provided with a ninth reinforcing rib (25) which is sunken towards the inside of the vehicle body behind the second plane (24), and the ninth reinforcing rib (25) corresponds to the eighth reinforcing rib (41) in the vertical direction of the vehicle body.

9. The rearview mirror mounting structure of claim 1 further comprising:

the second rearview mirror reinforcing plate (5) is positioned on the inner side of the rearview mirror mounting plate (2) and is connected with the door frame framework; the upper support leg (22) is fixed on the second rearview mirror reinforcing plate (5), and the upper support leg (22) is connected with the door frame framework through the second rearview mirror reinforcing plate (5); and

a third rearview mirror reinforcing plate (6) which is positioned on the inner side of the rearview mirror mounting plate (2) and below the second rearview mirror reinforcing plate (5) and is connected with the door frame framework; the lower support leg (23) is fixed on the third rearview mirror reinforcing plate (6), and the lower support leg (23) is connected with the door frame framework through the third rearview mirror reinforcing plate (6).

10. A vehicle characterized by comprising the mirror mounting structure according to any one of claims 1 to 9.

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