CN214870093U - A equipment mechanism for installing leaf spring support and camber beam - Google Patents

Abstract

The utility model provides an equipment mechanism for installing leaf spring support and camber beam, include: a curved beam, a split charging platform and a plate spring component; a first longitudinal beam assembly and a second longitudinal beam assembly are arranged on two sides of the split charging platform, the first longitudinal beam assembly is provided with a first positioning assembly, and the second longitudinal beam assembly is provided with a second positioning assembly; the first positioning assembly is connected with a first plate spring component, and the positioning assembly is connected with a second plate spring component; one side of the bent beam is detachably connected with the first plate spring component, and the other side of the bent beam is detachably connected with the second plate spring component. The plate spring support and the bent beam can form a workpiece assembly through the mechanism and are arranged on the frame. The problem of to novel heavy truck car install the positioning deviation in the frame in-process at leaf spring support and camber beam one by one, cause the assembly difficulty is solved.

Description

A equipment mechanism for installing leaf spring support and camber beam

Technical Field

The utility model belongs to heavy-duty car assembly field, concretely relates to equipment mechanism for installing leaf spring support and camber beam.

Background

In present heavy-duty car, leaf spring support and camber beam install respectively with the singleton form, operating personnel installs two leaf spring supports respectively on the frame earlier, and reuse hexagon head bolt installs camber beam and leaf spring support, and in the installation, because two leaf spring supports are installed on the frame, can't carry out effectual location, after installing the camber beam again, cause the pilot hole between leaf spring support and the camber beam to produce the error easily, can't fix. The bending beam needs to be dismounted again, and the two plate spring supports are positioned and aligned, so that the bending beam can be connected smoothly. If the location is still inaccurate, will relapse a lot of and carry out the alignment to two leaf spring support, cause assembly efficiency low, can't guarantee assembly quality.

SUMMERY OF THE UTILITY MODEL

In order to overcome the difficulty of above-mentioned leaf spring support and camber beam assembly to frame, realize the improvement of heavy-duty car leaf spring support and camber beam partial shipment technology, the utility model provides an equipment mechanism for installing leaf spring support and camber beam, include: a dispensing station;

a first longitudinal beam assembly and a second longitudinal beam assembly are arranged on two sides of the split charging platform;

the first longitudinal beam assembly is provided with a first positioning assembly, and the second longitudinal beam assembly is provided with a second positioning assembly;

the first positioning assembly is connected with a first plate spring component, and the second positioning assembly is connected with a second plate spring component;

during the equipment, camber beam one side and first leaf spring part adopt the dismantlement mode to be connected, and the opposite side adopts the dismantlement mode to be connected with second leaf spring part.

Preferably, the first leaf spring member includes: the first transverse partition plate, the first camber beam connecting plate, the first fixing seat and the first frame connecting plate are arranged on the first frame;

one side of the first diaphragm plate is connected with the first frame connecting plate and the first fixed seat; the upper parts of the first frame connecting plate and the first fixed seat extend towards the upper part of the first diaphragm plate;

preferably, the lower part of the first fixed seat extends to the lower part of the first diaphragm plate;

the other side of the first diaphragm plate is connected with a first camber beam connecting plate and a first fixing plate, and the upper parts of the first camber beam connecting plate and the first fixing plate extend towards the upper part of the first diaphragm plate;

the first camber beam connecting plate and the first fixing plate are arranged in the same plane, and the plane is a first inner side plane;

the first frame connecting plate and the first fixed seat are arranged in the same plane, and the plane is a first outer side plane;

the first inner plane and the first outer plane are parallel to each other.

Preferably, the second plate spring member includes: the second transverse partition plate, the second camber beam connecting plate, the second fixing seat and the second frame connecting plate are arranged on the first frame;

one side of the second diaphragm plate is connected with the second frame connecting plate and the second fixed seat; the upper parts of the second frame connecting plate and the second fixed seat extend towards the upper part of the second diaphragm plate;

preferably, the lower part of the second fixed seat extends to the lower part of the second diaphragm plate;

the other side of the second diaphragm plate is connected with a second camber beam connecting plate and a second fixing plate, and the upper parts of the second camber beam connecting plate and the second fixing plate extend towards the upper part of the second diaphragm plate;

the second camber beam connecting plate and the second fixing plate are arranged in the same plane, and the plane is a second inner side plane;

the second frame connecting plate and the second fixed seat are arranged in the same plane, and the plane is a second outer side plane;

the second inner side plane and the second outer side plane are parallel to each other.

Preferably, the first longitudinal beam assembly comprises a first support plate and a first wing plate;

the bottom end of the first supporting plate is connected with the first side of the split charging platform, and the top end of the first supporting plate is connected with the bottom of the first wing plate;

the second longitudinal beam assembly comprises a second support plate and a second wing plate;

the bottom of second backup pad is connected with the second side of partial shipment platform, and the top of second backup pad is connected with the bottom of second pterygoid lamina.

Preferably, the first positioning component comprises: the first front limiting plate, the first rear limiting plate, the first positioning pin, the first upper positioning plate and the first lower positioning plate are arranged on the first front limiting plate;

the first front limiting plate is arranged on the first wing plate and is abutted against one end of the first diaphragm plate;

the first rear limiting plate is arranged on the first wing plate and is abutted against the other end of the first diaphragm plate;

the first upper positioning plate is arranged on the first wing plate and is abutted against one side of the first diaphragm plate;

the first positioning pin is connected with the top surface of the first wing plate;

the first diaphragm plate is provided with a positioning hole matched with the arrangement position of the first positioning pin;

the bottom surface of the first diaphragm plate is attached to the top surface of the first wing plate;

the first positioning pin penetrates through the positioning hole to position the first longitudinal beam assembly.

A first side of the sub-packaging table extends out of a connecting position with the bottom end of the first supporting plate to form a first lower positioning plate;

preferably, the second positioning assembly comprises: the second front limiting plate, the second rear limiting plate, the second positioning pin, the second upper positioning plate and the second lower positioning plate;

the second front limiting plate is arranged on the second wing plate and is abutted against one end of the second diaphragm plate;

the second rear limiting plate is arranged on the second wing plate and is abutted against the other end of the second diaphragm plate;

the second upper positioning plate is arranged on the second wing plate and is abutted against one side of the second diaphragm plate;

the second positioning pin is connected with the top surface of the second wing plate;

the second diaphragm plate is provided with a positioning hole matched with the setting position of the second positioning pin;

the bottom surface of the second diaphragm is attached to the top surface of the second wing plate;

and the second positioning pin penetrates through the positioning hole to position the second longitudinal beam assembly.

The second side of the sub-packaging table extends out of a connecting position with the bottom end of the second supporting plate to form a second lower positioning plate.

Preferably, the bottom of partial shipment platform is connected with four landing legs, is close to the intermediate position of four landing legs and is equipped with the storing board, storing board and partial shipment platform parallel arrangement.

Preferably, one end of the camber beam is connected with the first camber beam connecting plate through a bolt, and the other end of the camber beam is connected with the second camber beam connecting plate through a bolt.

According to the technical scheme, the utility model has the advantages of it is following:

the split charging platform is provided with two symmetrical longitudinal beam assemblies; accurately fixing the plate spring component on two longitudinal beam components of the split charging platform through a positioning component; the error of cooperation between assembly hole and the connecting piece is produced when reducing leaf spring part fixed connection camber beam, avoids the unable installation problem of camber beam and leaf spring support connecting bolt. The utility model discloses when carrying out the assembly of leaf spring support and camber beam assembly, can operate at the partial shipment bench, fix a position two leaf spring supports through locating component earlier, fix a position the after-fixing at the partial shipment bench, confirm two leaf spring support's mounted position, later carry out fixed mounting with camber beam and leaf spring support again, improve assembly efficiency like this, guarantee assembly quality.

Because the installation is carried out on the sub-packaging platform, the operating space of technical personnel is large, and the bolts responsible for connection are easily punched to the bottom and fastened. The mechanism can integrally connect the plate spring support and the bent beam and is installed on the frame as an assembly, so that the whole plate spring support and the whole bent beam can be conveniently disassembled and assembled in the later period.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced 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 that other drawings can be obtained according to these drawings without creative efforts.

Figure 1 is a front view of the mechanism for assembling the leaf spring support with the bent beam;

figure 2 is a top view of the mechanism for assembling the leaf spring support with the bent beam;

FIG. 3 is a right side view of the mechanism for assembling the leaf spring support with the bent beam;

FIG. 4 is a left side view of the mechanism for assembling the leaf spring support with the bent beam;

fig. 5 is a right side perspective view of a mechanism for assembling the leaf spring support with the bent beam.

In the figure: 1. the automobile seat comprises a camber beam, 2, a first diaphragm plate, 3, a second diaphragm plate, 4, a split charging platform, 5, a first positioning pin, 6, a second positioning pin, 7, a first front limiting plate, 8, a second front limiting plate, 9, a first rear limiting plate, 10, a second rear limiting plate, 11, a second supporting plate, 12, a first wing plate, 13, a second wing plate, 14, a first supporting plate, 16, a first camber beam connecting plate, 17, a first fixing plate, 18, a first fixing seat, 19, a first frame connecting plate, 21, a second camber beam connecting plate, 22, a second fixing plate, 23, a second fixing seat, 24, a second frame connecting plate, 25, a first lower positioning plate, 26, a first upper positioning plate, 27, a supporting leg, 28, a storage plate, 29, a second lower positioning plate and 30, and a second upper positioning plate.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments, and obviously, the embodiments described below are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the scope of protection of this patent.

The utility model provides an equipment mechanism for installing leaf spring support and camber beam, please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and show, include: a split charging table 4;

a first longitudinal beam assembly and a second longitudinal beam assembly are arranged on two sides of the split charging platform 4;

in the present disclosure, the first longitudinal beam assembly includes a first support plate 14 and a first wing plate 12;

the second longitudinal beam assembly comprises a second support plate 11 and a second wing plate 13;

the first longitudinal beam assembly and the second longitudinal beam assembly can be fixedly or detachably mounted on the split charging platform 4, or the first longitudinal beam assembly and the second longitudinal beam assembly can be slidably mounted on the split charging platform 4, so that the relative positions of the first longitudinal beam assembly and the second longitudinal beam can be adjusted according to the length of the bent beam 1, and the above is within the protection scope.

The bottom end of the first supporting plate 14 is connected with the first side of the sub-packaging table 4, and the top end of the first supporting plate 14 is connected with the bottom of the first wing plate 12;

the bottom end of the second support plate 11 is connected with the second side of the subpackaging table 4, and the top end of the second support plate 11 is connected with the bottom of the second wing plate 13;

the connection is a fixed connection or a detachable connection.

First support plate 14 is parallel to each other with second support plate 11, and first pterygoid lamina 12 and second pterygoid lamina 13 have the dislocation on the horizontal plane according to the specific installation condition, first pterygoid lamina 12 and second pterygoid lamina 13 in the coplanar or according to the leaf spring part of different models.

The first longitudinal beam assembly is provided with a first positioning assembly, and the second longitudinal beam assembly is provided with a second positioning assembly;

a first plate spring component is arranged on the first positioning component, and a second plate spring component is arranged on the second positioning component;

it is further noted that the first leaf spring member includes: the first diaphragm plate 2, a first camber beam connecting plate 16, a first fixing plate 17, a first fixing seat 18 and a first frame connecting plate 19;

the second plate spring member includes: the second diaphragm plate 3, a second camber beam connecting plate 21, a second fixing plate 22, a second fixing seat 23 and a second frame connecting plate 24;

in particular, the present invention relates to a method for producing,

one side of the first diaphragm plate 2 is connected with a first frame connecting plate 19 and a first fixed seat 18;

the other side of the first diaphragm plate 2 is connected with a first camber beam connecting plate 16 and a first fixing plate 17;

one side of the second diaphragm 3 is connected with a second frame connecting plate 24 and a second fixed seat 23;

the other side of the second diaphragm plate 3 is connected with a second camber beam connecting plate 21 and a second fixing plate 22;

the above connections are fixed connections.

It is further stated that the first and second electrodes,

the upper parts of the first camber beam connecting plate 16 and the first fixing plate 17 extend to the upper part of the first diaphragm plate 2;

the upper parts of the first frame connecting plate 19 and the first fixed seat 18 extend towards the upper part of the first diaphragm 2;

the lower part of the first fixed seat 18 extends to the lower part of the first diaphragm plate 2;

the upper parts of the second frame connecting plate 24 and the second fixed seat 23 extend above the second diaphragm 3;

the upper parts of the second camber beam connecting plate 21 and the second fixing plate 22 extend above the second diaphragm plate 3;

the lower part of the second fixed seat 23 extends to the lower part of the second diaphragm plate 3;

the utility model discloses in, the terminal surface shape and the width height that extend out are unfixed to it is suitable to make things convenient for the installation.

Wherein the first fastening plate 17 and the second fastening plate 22 are primarily responsible for the connection of the other vehicle parts to the leaf spring element. The first fixing seat 18 and the second fixing seat 23 can assist in connecting a frame or fixing other automobile accessories according to different specific automobile types. The first frame connecting plate 19 and the second frame connecting plate 24 are used for assembling with the frame after the connection of the whole set of processes is completed.

It is further explained that the first camber beam connection plate 16 and the first fixing plate 17 are arranged in the same plane, which is a first inner side plane;

the second camber beam connecting plate 21 and the second fixing plate 22 are arranged in the same plane, which is a second inner side plane;

the first frame connecting plate 19 and the first fixed seat 18 are arranged in the same plane, and the plane is a first outer side plane;

the second frame connecting plate 24 and the second fixing seat 23 are arranged in the same plane, and the plane is a second outer side plane;

the first inner side plane and the first outer side plane are parallel to each other;

the second inner side plane and the second outer side plane are parallel to each other.

For inside partial shipment platform 4 between first inboard plane and the second inboard plane for place camber beam and spare part, first outside plane and the outside plane of second are partial shipment platform 4 outsides for provide technical staff or manipulator arm to the operating space of assembling of camber beam and leaf spring part.

As right the utility model discloses further improve, first locating component includes: a first front limiting plate 7, a first rear limiting plate 9, a first positioning pin 5, a first upper positioning plate 26 and a second lower positioning plate 29;

the second positioning assembly includes: a second front limiting plate 8, a second rear limiting plate 10, a second positioning pin 6, a second upper positioning plate 30 and a second lower positioning plate 29;

the first front limiting plate 7 is fixedly or detachably arranged on the first wing plate 12 and abuts against one end of the first diaphragm plate 2;

the first rear limiting plate 9 is fixedly or detachably arranged on the first wing plate 12 and abuts against the other end of the first diaphragm plate 2;

the second front limiting plate 8 is fixedly or detachably arranged on the second wing plate 13 and abuts against one end of the second diaphragm plate 3;

the second rear limiting plate 10 is fixedly or detachably arranged on the second wing plate 13 and abuts against the other end of the second diaphragm plate 3;

can dismantle the change that the setting can make things convenient for the later stage, reduce the error that causes because of wearing and tearing, improve the precision of locating component location.

The first positioning pin 5 is connected with the top surface of the first wing plate 12;

the second positioning pin 6 is connected with the top surface of the second wing plate 13;

the connection mode can be fixed connection or detachable connection.

If the connection means is a fixed connection,

namely, the first positioning pin 5 is fixedly connected with the top surface of the first wing plate 12;

the second positioning pin 6 is fixedly connected with the top surface of the second wing plate 13;

the first diaphragm plate 2 is provided with a positioning hole matched with the position of the first positioning pin 5;

the second diaphragm plate 3 is provided with a positioning hole matched with the position of the second positioning pin 6;

the bottom surface of the first diaphragm plate 2 is attached to the top surface of the first wing plate 12;

the bottom surface of the second diaphragm 3 is attached to the top surface of the second wing plate 13;

the first positioning pin 5 passes through the positioning hole on the first diaphragm plate 2 for positioning.

And a second positioning pin 6 passes through the positioning hole to position the second longitudinal beam assembly.

The positioning pin is fixedly arranged, positioning is convenient, the bottom surface of the first diaphragm plate 2 is directly attached to the top surface of the first wing plate 12, and the first diaphragm plate 2 can be installed by the positioning pin 5;

place the bottom surface of second diaphragm 3 and the top surface laminating of second wing 13, can accomplish the installation of locating pin 6 to first diaphragm 2.

If the connection means is a detachable connection,

namely, the first positioning pin 5 is detachably connected with the top surface of the first wing plate 12;

the second positioning pin 6 is detachably connected with the top surface of the second wing plate 13;

the bottom surface of the first diaphragm plate 2 is attached to the top surface of the first wing plate 12;

the bottom surface of the second diaphragm 3 is attached to the top surface of the second wing plate 13;

the first diaphragm plate 2 and the first wing plate 12 are both provided with positioning holes matched with the first positioning pins 5 in position;

the second diaphragm plate 3 and the second wing plate 13 are both provided with positioning holes matched with the first positioning pins 5 in position;

the first positioning pin 5 is positioned through the positioning hole of the first diaphragm 2 and the positioning hole of the first wing plate 12.

The second positioning pin 6 passes through the positioning hole on the second diaphragm plate 3 and the positioning hole on the second wing plate 13 for positioning.

Can dismantle and connect and make things convenient for the later stage to carry out periodic replacement to the locating pin, avoid because the locating pin is long-time and locating hole wearing and tearing, cause the positioning deviation.

Further, the first upper positioning plate 26 is disposed on the first wing plate 12 and abuts against one side of the first diaphragm plate 2;

the second lower positioning plate 29 is arranged on the second wing plate 13 and is abutted against one side of the second diaphragm plate 3;

the above arrangement is either a fixed arrangement or a detachable design.

A first side of the sub-packaging table 4 extends out of a connecting position with the bottom end of the first supporting plate 14 to form a first lower positioning plate 25;

the second side of the dispensing table 4 extends out of a connection position with the bottom end of the second support plate 11 to form a second lower positioning plate 29.

The improved point is that the multi-dimensional limitation of the position of the plate spring support by the positioning assembly ensures accurate positioning of plate spring components, the fixation is firm, the assembling size error of the bent beam is reduced, and the complexity of the process is greatly reduced, so that the bent beam assembly formed after the plate spring support is connected with the bent beam is ensured to be accurately positioned.

It should be further noted that the bottom of the dispensing table 4 is connected with four supporting legs 27, a storage plate 28 is disposed at a position close to the middle of the four supporting legs 27, and the storage plate 28 is parallel to the dispensing table 4. The storage panel 28 may store mounting tools, accessories, and the like.

During installation, the first leaf spring member is placed on the first positioning assembly and the second leaf spring member is placed on the second positioning assembly.

The specific operation flow is that the bottom surface of the first diaphragm plate 2 is attached to the top surface of the first wing plate 12, and the first positioning pin 5 on the first wing plate 12 is inserted into a positioning hole in the first diaphragm plate 2 and is designed in a matching manner for positioning. The inner side of the first diaphragm plate 2 abuts against the first upper positioning plate 26, and meanwhile, the extending surface of the first fixed seat 18 on the first supporting plate 14 abuts against the first lower positioning plate 25, so that whether the workpiece is in place or not is confirmed. The front end of the first diaphragm plate 2 is fixed by the first front limiting plate 7 in an abutting mode, and the rear end of the first diaphragm plate 2 is fixed by the first rear limiting plate 9 in an abutting mode, so that the plate spring component is prevented from sliding back and forth.

Similarly, the bottom surface of the second diaphragm plate 3 is attached to the top surface of the second wing plate 13, and the second positioning pin 6 on the second wing plate 13 is inserted into a positioning hole of the second diaphragm plate 3, which is designed to match with the second diaphragm plate, for positioning. The inner side of the second diaphragm plate 3 abuts against the first upper positioning plate 26, and meanwhile, the extending surface of the second fixed seat 23 on the second supporting plate 11 abuts against the second lower positioning plate 29, so that the workpiece is judged and confirmed to be in place. The front end of the second diaphragm plate 3 is fixed by abutting against the second front limiting plate 8, and the rear end of the second diaphragm plate 3 is fixed by abutting against the second rear limiting plate 10, so that the plate spring component is prevented from sliding back and forth.

After the position has been determined to be correct, one end of the bending beam 1 is detachably connected, e.g. bolted, to the first bending beam connection plate 16, and the other end of the bending beam 1 is detachably connected, e.g. bolted, to the second bending beam connection plate 21. And the connecting workpiece between the bent beam and the plate spring bracket is fastened, the plate spring bracket and the bent beam sub-assembly are taken down, and the plate spring bracket and the plate spring sub-assembly are installed on the frame through a first frame connecting plate 19, a second frame connecting plate 24, a first fixing seat 18 and a second fixing seat 23. The problems of size mismatching, large error, low efficiency and the like caused by the fact that a single part is arranged in the frame are solved. The method has the advantages of high production efficiency, stable and reliable quality, avoidance of rework and repair resource waste and the like.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. An assembly mechanism for mounting a leaf spring support to a camber beam, comprising: a dispensing table (4);

a first longitudinal beam assembly and a second longitudinal beam assembly are arranged on two sides of the split charging platform (4);

the first longitudinal beam assembly is provided with a first positioning assembly, and the second longitudinal beam assembly is provided with a second positioning assembly;

the first positioning assembly is connected with a first plate spring component, and the second positioning assembly is connected with a second plate spring component;

during assembly, one side of the bent beam (1) is detachably connected with the first plate spring component, and the other side of the bent beam is detachably connected with the second plate spring component.

2. An assembly mechanism for mounting a leaf spring support bracket to a camber beam according to claim 1,

the first leaf spring member includes: the first transverse partition plate (2), a first camber beam connecting plate (16), a first fixing plate (17), a first fixing seat (18) and a first frame connecting plate (19);

one side of the first diaphragm plate (2) is connected with a first frame connecting plate (19) and a first fixed seat (18); the upper parts of the first frame connecting plate (19) and the first fixed seat (18) extend towards the upper part of the first diaphragm plate (2);

the lower part of the first fixed seat (18) extends to the lower part of the first diaphragm plate (2);

the other side of the first diaphragm plate (2) is connected with a first camber beam connecting plate (16) and a first fixing plate (17), and the upper parts of the first camber beam connecting plate (16) and the first fixing plate (17) extend above the first diaphragm plate (2);

the first camber beam connecting plate (16) and the first fixing plate (17) are arranged in the same plane, and the plane is a first inner side plane;

the first frame connecting plate (19) and the first fixed seat (18) are arranged in the same plane, and the plane is a first outer side plane;

the first inner plane and the first outer plane are parallel to each other.

3. An assembly mechanism for mounting a leaf spring support bracket to a camber beam according to claim 2,

the second plate spring member includes: the second transverse partition plate (3), a second camber beam connecting plate (21), a second fixing plate (22), a second fixing seat (23) and a second frame connecting plate (24);

one side of the second diaphragm plate (3) is connected with a second frame connecting plate (24) and a second fixed seat (23); the upper parts of the second frame connecting plate (24) and the second fixed seat (23) extend towards the upper part of the second diaphragm plate (3);

the lower part of the second fixed seat (23) extends to the lower part of the second diaphragm plate (3);

the other side of the second diaphragm plate (3) is connected with a second camber beam connecting plate (21) and a second fixing plate (22), and the upper parts of the second camber beam connecting plate (21) and the second fixing plate (22) extend above the second diaphragm plate (3);

the second camber beam connecting plate (21) and the second fixing plate (22) are arranged in the same plane, and the plane is a second inner side plane;

the second frame connecting plate (24) and the second fixed seat (23) are arranged in the same plane, and the plane is a second outer side plane;

the second inner side plane and the second outer side plane are parallel to each other.

4. An assembly mechanism for mounting a leaf spring support bracket to a camber beam according to claim 3,

the first longitudinal beam assembly comprises a first support plate (14) and a first wing plate (12);

the bottom end of the first supporting plate (14) is connected with the first side of the sub-packaging table (4), and the top end of the first supporting plate (14) is connected with the bottom of the first wing plate (12);

the second longitudinal beam assembly comprises a second support plate (11) and a second wing plate (13);

the bottom end of the second support plate (11) is connected with the second side of the sub-packaging table (4), and the top end of the second support plate (11) is connected with the bottom of the second wing plate (13).

5. An assembly mechanism for mounting a leaf spring support bracket to a camber beam according to claim 4,

the first positioning component comprises: a first front limiting plate (7), a first rear limiting plate (9), a first positioning pin (5), a first upper positioning plate (26) and a first lower positioning plate (25);

the first front limiting plate (7) is arranged on the first wing plate (12) and is abutted against one end of the first diaphragm plate (2);

the first rear limiting plate (9) is arranged on the first wing plate (12) and is abutted against the other end of the first diaphragm plate (2);

the first upper positioning plate (26) is arranged on the first wing plate (12) and is abutted against one side of the first diaphragm plate (2);

the first positioning pin (5) is connected with the top surface of the first wing plate (12);

the first diaphragm plate (2) is provided with a positioning hole matched with the position of the first positioning pin (5);

the bottom surface of the first diaphragm plate (2) is attached to the top surface of the first wing plate (12);

the first positioning pin (5) penetrates through the positioning hole to position the first longitudinal beam assembly;

the first side of the sub-packaging table (4) extends out of a connecting position with the bottom end of the first supporting plate (14) to form a first lower positioning plate (25).

6. An assembly mechanism for mounting a leaf spring support bracket to a camber beam according to claim 4,

the second positioning assembly includes: a second front limiting plate (8), a second rear limiting plate (10), a second positioning pin (6), a second upper positioning plate (30) and a second lower positioning plate (29);

the second front limiting plate (8) is arranged on the second wing plate (13) and is abutted against one end of the second diaphragm plate (3);

the second rear limiting plate (10) is arranged on the second wing plate (13) and is abutted against the other end of the second diaphragm plate (3);

the second upper positioning plate (30) is arranged on the second wing plate (13) and is abutted against one side of the second diaphragm plate (3);

the second positioning pin (6) is connected with the top surface of the second wing plate (13);

a positioning hole matched with the position of the second positioning pin (6) is formed in the second diaphragm plate (3);

the bottom surface of the second diaphragm plate (3) is attached to the top surface of the second wing plate (13);

a second positioning pin (6) penetrates through the positioning hole to position the second longitudinal beam assembly;

the second side of the sub-packaging table (4) extends out of a connecting position with the bottom end of the second supporting plate (11) to form a second lower positioning plate (29).

7. An assembly mechanism for mounting a leaf spring support bracket to a camber beam according to claim 1,

the bottom of partial shipment platform (4) is connected with four landing legs (27), and the intermediate position that is close to four landing legs (27) is equipped with storing board (28), and storing board (28) and partial shipment platform (4) parallel arrangement.

8. An assembly mechanism for mounting a leaf spring support bracket to a camber beam according to claim 1,

one end of the camber beam (1) is connected with the first camber beam connecting plate (16) through a bolt, and the other end of the camber beam (1) is connected with the second camber beam connecting plate (21) through a bolt.

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