CN115872130A - Lifting and overturning equipment for automobile spring plate - Google Patents

Abstract

The invention relates to the technical field of spring plate processing, in particular to automobile spring plate lifting and overturning equipment which comprises a rack and a bearing table, wherein two annular conveying belts are arranged on the rack; the automobile spring plate supporting device has the advantages that the automobile spring plate is lifted and overturned in a mode that the first supporting rods and the second supporting rods alternately support the automobile spring plate, the automobile spring plate can be continuously operated, the processing efficiency is improved, the burden of workers is reduced, and the automation degree of equipment is improved.

Description

Lifting and overturning equipment for automobile spring plate

Technical Field

The invention relates to the technical field of spring plate processing, in particular to lifting and overturning equipment for an automobile spring plate.

Background

The automobile spring plate is an elastic element which is most widely applied in an automobile suspension, and is an elastic beam which is approximately equal in strength and formed by combining a plurality of alloy spring pieces which are equal in width but unequal in length, and the automobile steel plate spring has an important function of connecting a frame and an axle together in a suspension mode, is exposed between the frame and the axle, bears the load impact of wheels on the frame, reduces the violent vibration of an automobile body, keeps the running stability of the automobile and the adaptability to different road conditions, needs to be turned over in the processing and production process of the automobile spring plate, but in the prior art, as the work piece of the spring plate is larger, the special tool for the automobile spring plate is fewer, and the operation difficulty is increased.

Chinese patent CN217867678U discloses an automobile spring plate lifting and overturning device, which comprises a frame, an overturning mechanism and a lifting mechanism arranged on the frame and used for driving the overturning mechanism to lift up and down, wherein the lifting mechanism comprises a chain wheel shaft which can move up and down and is horizontally arranged and a first driving piece which drives the chain wheel shaft to move up and down; a chain wheel is rotatably arranged on the chain wheel shaft, a lifting chain meshed with the chain wheel is wound on the chain wheel, one end of the lifting chain is connected with the top of the rack, and the other end of the lifting chain is connected with a movable plate below the rack; tilting mechanism includes that the level sets up and can pivoted transmission shaft and drive transmission shaft pivoted second driving piece, two hanging wheels of symmetry installation on the transmission shaft, each is around there being the suspender on every hanging wheel, the suspender lower part is used for the pocket to hang the spring board that needs to be overturned, this patent passes through hoist mechanism and tilting mechanism's cooperation can the fast and stable promotion upset work of accomplishing the spring board, the special frock that does not carry out processing to the spring board among the prior art has been solved, but its operation is comparatively troublesome, place the spring board in the below of device at every turn, need manually locate the both ends of spring board with tilting mechanism's suspender cover, just can promote the upset operation to the spring board, make efficiency lower, and increased operating personnel's operation burden.

Disclosure of Invention

Aiming at the problems, the invention provides lifting and overturning equipment for an automobile spring plate, which realizes lifting and overturning of the automobile spring plate in a mode that a first support rod and a second support rod alternately support the automobile spring plate, can continuously operate the automobile spring plate, improves the processing efficiency, lightens the burden of workers, improves the automation degree of the equipment, can realize the problem that the first support rod and the second support rod alternately support the automobile spring plate when a first support mechanism runs along with a conveyor belt, reduces the cost input, has better equipment synchronism and consistency, is convenient for debugging the equipment, and is beneficial to further improving the processing efficiency of the equipment.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

a lifting and overturning device for an automobile spring plate comprises a rack and a bearing table arranged beside the rack and extending towards the inside of the rack, wherein two annular conveyor belts are arranged on the rack; be provided with actuating mechanism and a plurality of equidistance between two conveyer belts and arrange along the conveyer belt and be the mounting bracket of horizontality installation, actuating mechanism is located the side of bearing platform, is provided with two first supporting mechanism that can slide in the horizontal direction on the mounting bracket, and when the conveyer belt drove the mounting bracket through actuating mechanism, actuating mechanism can drive two first supporting mechanism and slide on the mounting bracket and make two first supporting mechanism keep away from each other and avoid the bearing platform.

Preferably, be provided with two first spouts that are the mirror image state on the mounting bracket, first supporting mechanism includes two carriages and two supporting components, two carriages can slide respectively be located two first spouts, two supporting components are located two carriages respectively, two supporting components all include two first bracing pieces and two second bracing pieces, the carriage that is located of first bracing piece and second bracing piece homoenergetic slide, and the slip direction mutually perpendicular of the slip direction of first bracing piece and second bracing piece and carriage.

Preferably, be provided with between two conveyer belts and drive two first bracing pieces and carry out the first slide rail that stretches out and draws back and drive two second bracing pieces and carry out the second slide rail that stretches out and draws back, all be provided with the mounting panel on two conveyer belts, first slide rail and second slide rail are located two mounting panels respectively.

Preferably, telescopic rods are arranged between the two first supporting rods and the two second supporting rods, a first sliding rod in sliding fit with the first sliding rail is arranged on one side, close to the first sliding rail, of the two first supporting rods, the first sliding rod is of a telescopic structure, a second sliding rod in sliding fit with the second sliding rail is arranged on one side, close to the second sliding rail, of the two second supporting rods, and the second sliding rod is of a telescopic structure.

Preferably, the driving mechanism comprises two guide plates arranged in a mirror symmetry state, and the two sliding frames are in sliding fit with the guide plates.

Preferably, the central authorities of mounting bracket are provided with the elastic component that extends to two first spouts respectively, the tip and two carriage fixed connection of the elastic component in two first spouts, and the one end that two carriages extend to the frame is inside all is provided with the connecting rod, and the cover is equipped with the pulley on the connecting rod, two pulleys respectively with correspond the deflector sliding fit of side.

Preferably, the two guide plates include a guide section for extending the two sliding frames, a parallel section for maintaining a distance between the two sliding frames, and a transition section for restoring the distance between the two sliding frames.

Preferably, an adjusting mechanism for adjusting the distance between the two guide plates is further arranged between the two guide plates.

Preferably, the bottom of the frame is provided with a plurality of universal wheels which are arranged in a rectangular array.

Preferably, the receiving table comprises two receiving plates and a support, the two receiving plates extend towards the inside of the rack, the support is located at the side of the rack, the two receiving plates are fixedly connected to the top end of the support, and the two receiving plates are both arranged in an inwards-concave arc-shaped structure.

Compared with the prior art, the invention has the beneficial effects that:

the lifting and overturning device has the advantages that the lifting and overturning of the automobile spring plate are realized in a mode that the first support rod and the second support rod alternately support the automobile spring plate, the operation on the automobile spring plate can be continuously performed, the processing efficiency is improved, the burden of workers is reduced, and the automation degree of equipment is improved.

Drawings

FIG. 1 is a first schematic perspective view of an automotive spring plate lifting and overturning device;

FIG. 2 is a schematic perspective view of a second lifting and turning device for a spring plate of an automobile;

fig. 3 is a schematic perspective view of a conveyor belt and a first support mechanism in the spring plate lifting and overturning device of the automobile;

fig. 4 is a schematic perspective view of a second slide rail and a first support mechanism in the spring plate lifting and overturning device for an automobile;

fig. 5 is a schematic perspective view of a first slide rail and a first supporting mechanism in the lifting and turning device for automobile spring plate;

FIG. 6 is a schematic perspective view of a receiving platform, a driving mechanism and an adjusting mechanism in the lifting and turning device for automobile spring plates;

fig. 7 is a schematic perspective view of a driving mechanism and an adjusting mechanism in the spring plate lifting and turning device of an automobile;

fig. 8 is a partial front view of a first support mechanism of an automotive spring plate lift and turn apparatus;

fig. 9 is a partial perspective view of a first support mechanism of the spring plate lifting and overturning device for an automobile;

fig. 10 is a partial perspective view of a second support mechanism of the spring plate lifting and overturning device for an automobile;

FIG. 11 is a front view of a first slide rail in an automotive spring plate lift and tilt apparatus;

fig. 12 is a schematic perspective view of a receiving platform in the lifting and overturning device for the spring plate of the automobile.

The reference numbers in the figures are:

1-a frame;

11-universal wheels;

12-a conveyor belt; 121-a mounting plate; 122 — a first slide rail; 1221-a constriction; 1222-an extension segment; 123-a second slide rail;

13-a receiving table; 131-a bearing plate; 132-a scaffold;

2-a drive mechanism;

21-a guide plate; 211-a guide segment; 212-parallel segments; 213-a transition section;

22-an adjustment mechanism; 221-a mounting seat; 222-a lead screw; 223-rotating the drive motor; 224-a slider; 225-a second runner;

3-a first support mechanism;

31-a mounting frame; 311-a first runner; 312-a carriage; 3121-a connecting rod; 3122-a pulley; 313-an elastic member;

32-a support assembly; 321-a first support rod; 3211-a first sliding bar; 3212-telescoping pole; 322-a second support bar; 3221-a second slide bar.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1 to 6: a lifting and overturning device for an automobile spring plate comprises a rack 1 and a bearing table 13 which is arranged beside the rack 1 and extends towards the inside of the rack 1, wherein two annular conveyor belts 12 are arranged on the rack 1; be provided with actuating mechanism 2 and a plurality of equidistance between two conveyer belts 12 and arrange and be the mounting bracket 31 of horizontality installation along conveyer belt 12, actuating mechanism 2 is located the side of bearing platform 13, be provided with two first supporting mechanism 3 that can slide in the horizontal direction on mounting bracket 31, when conveyer belt 12 drives mounting bracket 31 through actuating mechanism 2, actuating mechanism 2 can drive two first supporting mechanism 3 and slide on mounting bracket 31 and make two first supporting mechanism 3 keep away from each other and avoid bearing platform 13.

Firstly, an automobile spring plate is placed on a first supporting mechanism 3 of an installation frame 31 through an external conveying device, an annular conveying belt 12 can simultaneously drive a plurality of installation frames 31 to move, the first supporting mechanism 3 connected with the annular conveying belt is driven through the installation frames 31, because the conveying belt 12 is in an annular structure, after the automobile spring plate moves to the top of the annular conveying belt 12 along with the first supporting mechanism 3 and the installation frame 31, the automobile spring plate can turn to the other side under the action of gravity, thereby turning over the automobile spring plate, meanwhile, the turned automobile spring plate can continuously move to a bearing platform 13 along with the first supporting mechanism 3, because a driving mechanism 2 is positioned between the two conveying belts 12 and positioned at the side of the bearing platform 13, when the conveying belts 12 drive the installation frames 31 to pass through the driving mechanism 2, the driving mechanism 2 can drive the two first supporting mechanisms 3 to be far away from each other on the mounting frame 31, the first supporting mechanisms 3 are enabled to avoid the bearing table 13 extending into the rack 1 and are also used for placing the automobile spring plates on the first supporting mechanisms 3 on the bearing table 13, the automobile spring plates are supported through the bearing table 13, the automobile spring plates after being overturned are convenient to process, after the two first supporting mechanisms 3 leave the driving mechanism 2, the two first supporting mechanisms 3 reset, the two first supporting mechanisms 3 can return to the initial positions along with the mounting frame 31, the automobile spring plates which need to be processed are continuously received, therefore, the continuous lifting and overturning effects on the automobile spring plates can be achieved, the automation degree of equipment is improved, and the labor intensity of workers is relieved.

As shown in fig. 1 to 5 and 8 to 10: two first sliding grooves 311 in a mirror image state are arranged on the mounting frame 31, the first support mechanism 3 comprises two sliding frames 312 and two support assemblies 32, the two sliding frames 312 are respectively positioned on the two first sliding grooves 311 in a sliding manner, the two support assemblies 32 are respectively positioned on the two sliding frames 312, the two support assemblies 32 respectively comprise two first support rods 321 and two second support rods 322, the first support rods 321 and the second support rods 322 can both slide and are positioned on the sliding frames 312, and the sliding directions of the first support rods 321 and the second support rods 322 are mutually perpendicular to the sliding direction of the sliding frames 312.

When the first support mechanism 3 supports the car spring plate, firstly, the two first support rods 321 positioned on the two sliding frames 312 extend out of the sliding frames 312 to support the car spring plate, the other two second support rods 322 are respectively positioned on the two sliding frames 312, and the two second support rods 322 are positioned above the first support rods 321, when the car spring plate turns to the other side after turning over the highest part of the conveyor belt 12 along with the first support mechanism 3, at the moment, because the second support rods 322 are positioned below the first support rods 321 when the conveyor belt 12 moves, the car spring plate falls on the two second support rods 322 under the action of gravity, the car spring plate is supported through the second support rods 322, at the moment, because the first support rods have no support effect, the two first support rods 321 can be retracted into the sliding frames 312, thereby realizing that the car spring plate turns over on the first support mechanism 3, and when the first support mechanism 3 passes through the drive mechanism 2, the two sliding frames can slide in the first sliding grooves 311, so that the two sliding frames 312 are far away from each other, thereby realizing that the two first support mechanisms are far away from each other, realizing that the car spring plate turns over on the first support rods 3, and improving the efficiency of the car spring plate, and improving the efficiency of a car support device, and improving the efficiency of a car spring plate, and improving the efficiency of a car support device, and a car spring plate, and a working mode of a car.

As shown in fig. 1 to 5 and 8 to 11: be provided with between two conveyer belts 12 and drive two first bracing pieces 321 and carry out the first slide rail 122 that stretches out and draws back and drive two second bracing pieces 322 and carry out the second slide rail 123 that stretches out and draws back, all be provided with mounting panel 121 on two conveyer belts 12, first slide rail 122 and second slide rail 123 are located two mounting panels 121 respectively.

Generally, when the conveyor belt 12 moves a workpiece, a clamping mechanism is mostly used to fix the workpiece, although the clamping mechanism can stably realize that the workpiece is turned over along with the turning of the clamping mechanism, it is not convenient to release the clamping state during unloading, and it needs to match a plurality of electrical components, thereby increasing the production cost, because the automobile spring plate has a heavy structure, it is stable on the first support mechanism 3, and it does not need to clamp it, through the arrangement of the two mounting plates 121, the accommodating spaces of the first slide rail 122 and the second slide rail 123 are provided, the first slide rail 122 and the second slide rail 123 are both provided with a contraction section 1221 for driving the first support rod 321 or the second support rod 322 to contract inwards and an extension section 1222 extending outwards, when the first support rod 321 extends outwards, second bracing piece 322 is the state of inwards contracting, when first bracing piece 321 inwards contracts, second bracing piece 322 is the state of outside extension, the mode that supports is carried out to car spring plate through first bracing piece 321 and second bracing piece 322 in turn realizes promotion and upset to it, can be continuous carry out the operation to car spring plate, the efficiency of processing is improved, the burden of staff is lightened, the degree of automation of equipment is improved, simultaneously, through the aforesaid mode, can realize that first supporting mechanism 3 just realizes first bracing piece 321 and second bracing piece 322 in turn to carrying out the problem of supporting to car spring plate when moving along with conveyer belt 12, reduce the input of cost, equipment synchronism and uniformity are better, be convenient for debug equipment, help further improving the machining efficiency of equipment.

As shown in fig. 1 to 5 and 8 to 10: telescopic rods 3212 are arranged between the two first support rods 321 and the two second support rods 322, a first sliding rod 3211 slidably engaged with the first sliding rail 122 is arranged on one side of each of the two first support rods 321 close to the first sliding rail 122, the first sliding rod 3211 is of a telescopic structure, a second sliding rod 3221 slidably engaged with the second sliding rail 123 is arranged on one side of each of the two second support rods 322 close to the second sliding rail 123, and the second sliding rod 3221 is of a telescopic structure.

Through the way of the telescopic rod 3212, when the two first supporting rods 321 and the second supporting rods 322 slide relatively along with the two sliding frames 312, the two first supporting rods 321 or the two second supporting rods 322 can be synchronously driven by the first sliding rail 122 and the second sliding rail 123, the synchronism and consistency of the device are improved, and the debugging of the device is facilitated, so that the stability of the two first supporting rods 321 and the two second supporting rods 322 for supporting the automobile spring plate can be improved, through the telescopic arrangement of the first sliding rod 3211 and the second sliding rod 3221, the two first supporting rods 321 and the second supporting rods 322 can always keep a transmission state in the process of moving along with the sliding frames 312, the supporting effect on the automobile spring plate is not influenced, the automation degree of the device is improved, and the burden of workers is reduced.

As shown in fig. 1 to 7: the driving mechanism 2 includes two guide plates 21 arranged in a mirror-symmetrical state, and both sliding frames 312 are slidably fitted to the guide plates 21.

Through the arrangement of the two sliding frames 312 and the two guide plates 21, when the two sliding frames 312 pass through the driving mechanism 2, the guide plates 21 drive the sliding frames 312 in sliding fit with the guide plates to be away from each other, and the two first supporting mechanisms 3 are driven to be away from each other through the sliding frames 312, so that the supporting effect on the automobile spring plate is removed, meanwhile, the bearing table 13 can be avoided, the automobile spring plate is conveniently placed on the bearing table 13,

as shown in fig. 1 to 5 and 8 to 10: the center of the mounting frame 31 is provided with elastic members 313 extending towards the two first sliding grooves 311, the end portions of the elastic members 313 in the two first sliding grooves 311 are fixedly connected with the two sliding frames 312, one ends of the two sliding frames 312 extending towards the inside of the rack 1 are provided with connecting rods 3121, the connecting rods 3121 are sleeved with pulleys 3122, and the two pulleys 3122 are in sliding fit with the guide plates 21 on the corresponding sides respectively.

After guide plate 21 drives carriage 312 and removes, can cause subsequent car spring board material loading difficulty if carriage 312 can not reset, need manually to reset to carriage 312, can increase staff's burden from this, setting through elastic component 313, make the distance between two carriages 312 can be timely reset after through actuating mechanism 2, keep the same distance all the time, thereby be convenient for support car spring board, can improve equipment's stability from this, alleviate staff's burden, setting through connecting rod 3121 and pulley 3122, make carriage 312 can be more convenient be connected with guide plate 21 transmission, setting through pulley 3122, can reduce the frictional force between carriage 312 and the guide plate 21, improve the ability that carriage 312 passes through guide plate 21, make more smooth-going through, impact force when carriage 312 and guide plate 21 contact can reduce from this, the life of extension guide plate 21.

As shown in fig. 1 to 7: the two guide plates 21 include a guide section 211 for extending the two sliding frames 312, a parallel section 212 for maintaining the distance between the two sliding frames 312, and a transition section 213 for restoring the distance between the two sliding frames 312.

The guide section 211 and the transition section 213 of the two guide plates 21 are both arranged obliquely, and both incline to the part between the two guide plates, the parallel section 212 is arranged between the guide section 211 and the transition section 213, the guide section 211 is arranged obliquely, so that the two sliding frames 312 can be slowly unfolded when moving along with the guide plates 21, when the two sliding joints move to the parallel section 212 of the two guide plates 21 respectively, the two sliding frames 312 keep the distance between the two sliding frames 312 to continuously slide, the two sliding frames 312 drive the two first supporting mechanisms 3 to unload the support of the automobile spring plate, the transition section 213 of the two guide plates 21 is arranged, so that the two sliding frames 312 can be slowly reset, the two sliding frames 312 can be driven to leave the two guide plates 21 and then quickly collide due to the reset of the elastic piece 313, and the service life of the device is prolonged.

As shown in fig. 6 and 7: an adjusting mechanism 22 for adjusting the distance between the two guide plates 21 is also arranged between the two guide plates.

The adjusting mechanism 22 comprises a mounting seat 221, a screw rod 222, a rotary driving motor 223 and two sliding blocks 224, the two sliding blocks 224 are respectively and fixedly connected with the two guide plates 21, the mounting seat 221 is horizontally and fixedly connected between the two conveyor belts 12, the screw rod 222 is horizontally and rotatably positioned on the mounting seat 221, a second sliding groove 225 is arranged on the mounting seat 221, the two sliding blocks 224 are respectively and slidably positioned on the two second sliding grooves 225, the screw rod 222 is a bidirectional threaded screw rod 222, the screw rod 222 penetrates through the two sliding blocks 224, the two sliding blocks 224 are respectively in threaded fit with two ends of the screw rod 222, the rotary driving motor 223 is fixedly connected with one end of the mounting seat 221, the screw rod 222 is in transmission connection with an output shaft of the rotary driving motor 223, when the distance between the two guide plates 21 needs to be adjusted, the screw rod 222 can drive the two sliding blocks 224 to move relatively by starting the rotary driving motor 223, the rotation of the screw rod 222 is driven by the output shaft of the rotary driving motor 223, the two sliding blocks 224 are driven by the rotation of the screw rod 222, the guide plate 21 is in transmission mechanism, the adjustment mechanism is convenient for adjusting the distance between the guide plate 21 and the support device in the later stage 13, and the adjustment mechanism.

As shown in fig. 2: the bottom of the frame 1 is provided with a plurality of universal wheels 11 which are arranged in a rectangular array.

Through the setting of universal wheel 11, can drive whole frame 1 and remove, the convenient butt joint of carrying on through removing whole equipment and different equipment improves equipment's suitability, and the convenient transportation to equipment alleviates staff's burden.

As shown in fig. 1, 6 and 7: the receiving platform 13 includes two receiving plates 131 and a bracket 132 extending towards the inside of the rack 1, the bracket 132 is located at the side of the rack 1, the two receiving plates 131 are fixedly connected to the top end of the bracket 132, and the two receiving plates 131 are both arranged in an inward concave arc structure.

Because the car spring board comprises the steel sheet that the polylith is the echelonment, it is placed and probably takes place to empty on the platform 13 that holds after the upset, inconvenient follow-up to the processing of car spring board, through the setting of holding board 131 and its arc structure, the bottom contact with car spring board that the board 131 can be better is held to its arc structure, improves the stability that car spring board is located and holds on the board 131, is convenient for process it, improve equipment's stability.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A lifting and overturning device for an automobile spring plate comprises a rack (1) and a bearing table (13) which is arranged beside the rack (1) and extends towards the inside of the rack (1), and is characterized in that two annular conveyor belts (12) are arranged on the rack (1); be provided with actuating mechanism (2) and a plurality of equidistance between two conveyer belts (12) and arrange and be mounting bracket (31) of horizontal state installation along conveyer belt (12), actuating mechanism (2) are located the side of bearing platform (13), be provided with two first supporting mechanism (3) of ability horizontal direction slip on mounting bracket (31), when conveyer belt (12) drive mounting bracket (31) when actuating mechanism (2), actuating mechanism (2) can drive two first supporting mechanism (3) and slide on mounting bracket (31) and make two first supporting mechanism (3) keep away from each other and take away from bearing platform (13).

2. The vehicle spring plate lifting and overturning device according to claim 1, wherein two first sliding grooves (311) in a mirror image state are disposed on the mounting frame (31), the first supporting mechanism (3) comprises two sliding frames (312) and two supporting members (32), the two sliding frames (312) are slidably disposed on the two first sliding grooves (311), the two supporting members (32) are slidably disposed on the two sliding frames (312), the two supporting members (32) each comprise two first supporting rods (321) and two second supporting rods (322), the first supporting rods (321) and the second supporting rods (322) are slidably disposed on the sliding frames (312), and the sliding directions of the first supporting rods (321) and the second supporting rods (322) are perpendicular to the sliding direction of the sliding frames (312).

3. The vehicle spring plate lifting and overturning device as claimed in claim 2, wherein a first sliding rail (122) capable of driving the two first supporting rods (321) to extend and retract and a second sliding rail (123) capable of driving the two second supporting rods (322) to extend and retract are disposed between the two conveyor belts (12), the two conveyor belts (12) are both provided with mounting plates (121), and the first sliding rail (122) and the second sliding rail (123) are respectively located on the two mounting plates (121).

4. The lifting and overturning device for the spring plate of the automobile as claimed in claim 3, wherein a telescopic rod (3212) is disposed between the two first support rods (321) and the two second support rods (322), a first sliding rod (3211) slidably engaged with the first sliding rail (122) is disposed on one side of the two first support rods (321) close to the first sliding rail (122), the first sliding rod (3211) is a telescopic structure, a second sliding rod (3221) slidably engaged with the second sliding rail (123) is disposed on one side of the two second support rods (322) close to the second sliding rail (123), and the second sliding rod (3221) is a telescopic structure.

5. The vehicle spring plate lifting and overturning device as claimed in any one of claims 2-4, wherein the driving mechanism (2) comprises two guide plates (21) arranged in a mirror symmetry state, and the two sliding frames (312) are in sliding fit with the guide plates (21).

6. The vehicle spring plate lifting and overturning device according to claim 5, wherein the mounting frame (31) is provided at the center thereof with an elastic member (313) extending towards the two first sliding grooves (311), the ends of the elastic member (313) in the two first sliding grooves (311) are fixedly connected with the two sliding frames (312), one ends of the two sliding frames (312) extending towards the inside of the frame (1) are provided with connecting rods (3121), the connecting rods (3121) are sleeved with pulleys (3122), and the two pulleys (3122) are respectively in sliding fit with the corresponding side guide plates (21).

7. The spring plate lifting and overturning device for automobile as claimed in claim 6, wherein the two guide plates (21) comprise a guide section (211) for driving the two sliding frames (312) to unfold, a parallel section (212) for maintaining the distance between the two sliding frames (312) and a transition section (213) for restoring the distance between the two sliding frames (312).

8. The vehicle spring plate lifting and overturning device as claimed in claim 7, wherein an adjusting mechanism (22) for adjusting the distance between the two guide plates (21) is further arranged between the two guide plates.

9. The lifting and overturning device for the spring plate of the automobile according to any one of claims 1-4, characterized in that the bottom of the frame (1) is provided with a plurality of universal wheels (11) which are arranged in a rectangular array.

10. The vehicle spring plate lifting and overturning device as claimed in any one of claims 1-4, wherein the receiving platform (13) comprises two receiving plates (131) and a bracket (132) extending towards the inside of the frame (1), the bracket (132) is located beside the frame (1), the two receiving plates (131) are fixedly connected to the top end of the bracket (132), and the two receiving plates (131) are both arranged in an inwardly concave arc structure.

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