CN115716429A - Battery replacement auxiliary device of new energy automobile - Google Patents

Abstract

The invention relates to the technical field of new energy automobile battery replacement, in particular to a battery replacement auxiliary device of a new energy automobile. The utility model provides a can reduce operating personnel and be located the vehicle bottom time, improve the battery of new energy automobile of operation security and change auxiliary device. The utility model provides a new energy automobile's battery replacement auxiliary device, is including installation base, first synchronous belt subassembly and servo motor etc. there is servo motor installation base right part upside through bolted connection, is connected with first synchronous belt subassembly on the servo motor output shaft. According to the novel energy automobile battery disassembling device, the bottom of a novel energy automobile is observed through the detection camera, then the double-shaft motor is controlled to enable the disassembling device to be aligned with the battery mounting screw, then the mounting screw is disassembled through the disassembling mechanism, the effect of rapidly disassembling the mounting screw is achieved, the time of an operator at the bottom of the automobile is reduced, and then the mounting screw is installed through the disassembling device, so that the effect of installing a novel energy automobile battery is achieved.

Description

Battery replacement auxiliary device of new energy automobile

Technical Field

The invention relates to the technical field of new energy automobile battery replacement, in particular to a battery replacement auxiliary device of a new energy automobile.

Background

Along with the continuous increase of the consumption speed of petroleum resources, the traditional automobile is gradually not favored by people due to the rise of oil prices, the environmental protection consciousness of people is enhanced, the new energy automobile is gradually replaced by a transmission automobile and becomes a seat for people to go out in daily life, the new energy automobile uses electric energy as a driving power source of the automobile, batteries are continuously lost in the daily use process, the maintenance is needed after the battery loss reaches a certain degree, or the batteries are directly replaced, so that the battery use efficiency of the new energy automobile is ensured.

Therefore to above-mentioned problem, research and development now can reduce operating personnel and be located the vehicle bottom time, improve the battery of new energy automobile of operation security and change auxiliary device.

Disclosure of Invention

In order to overcome the shortcoming that certain risks may exist due to the fact that an operator needs to operate at the bottom of the automobile for a long time when the battery of the existing device is replaced, the battery replacement auxiliary device of the new energy automobile is capable of reducing the time that the operator is located at the bottom of the automobile and improving the operation safety.

The technical scheme is as follows: the utility model provides a new energy automobile's battery replacement auxiliary device, including the installation base, first lead screw, first synchronous belt subassembly, servo motor, placement machine constructs and disassembles the mechanism, there is servo motor installation base right part upside through bolted connection, be connected with first synchronous belt subassembly on the servo motor output shaft, the bottom rotary type is connected with two first lead screws in the installation base, first lead screw all is connected with first synchronous belt subassembly, be equipped with the placement machine who is used for placing new energy automobile battery between two first lead screws and construct, the last mechanism of disassembling that is used for supplementary new energy automobile battery to dismantle the change that is equipped with of placement machine constructs.

Optionally, the placing mechanism comprises a movable base, hydraulic cylinders and a placing table, the movable base is connected between the two first screw rods in a threaded manner, the top of the movable base is connected with the four hydraulic cylinders, and the placing table is connected between the top of the telescopic ends of the four hydraulic cylinders.

Optionally, the disassembling mechanism comprises a detection camera, a double-shaft motor, a first rotating shaft, a second synchronous belt assembly, a second lead screw, a movable plate, a lifting plate, a disassembling device and a spring, the detection camera is uniformly connected to a placing table through bolts, the double-shaft motor is connected to each side face of the placing table through bolts, the first rotating shaft is connected to an output shaft of the double-shaft motor, the second lead screw is connected to the placing table in a uniform rotating mode, the second synchronous belt assembly is connected between the second lead screw and the first rotating shaft, two movable plates are connected to the second lead screw on each of the front side and the rear side in a threaded mode, three movable plates are connected to the second lead screws on the left side and the right side in a threaded mode, the movable plates are connected to the placing table in a sliding mode, the lifting plate is connected to the top in a sliding mode, two springs are connected between the lifting plate and the movable plates, and the disassembling device is connected to the top of the lifting plate.

Optionally, still including being used for carrying out the trigger mechanism that docks to the battery installation screw fast, trigger mechanism is including the supporting seat, the second pivot, the third pivot, first carriage, second carriage and connecting piece, it has the supporting seat to remove the base top through bolted connection, the rotation type is connected with the second pivot on the supporting seat, second pivot top is connected with the third pivot, it has four first carriages to place the inside sliding type of platform, first carriage all with third pivot sliding type connection, all be connected with the second carriage on the first carriage, the lifter plate bottom all is connected with two connecting pieces.

Optionally, still including being used for carrying out pivoted slewing mechanism to the second pivot fast, slewing mechanism is including the fixing base, the mount, the fourth pivot, fifth pivot and bevel gear, it has the fixing base to remove base right part upside through bolted connection, it has the mount to remove the base right side through bolted connection, the last rotation of fixing base is connected with the fourth pivot, sliding connection has the fifth pivot in the fourth pivot, the fifth pivot rotates and sliding connection with the mount, fourth pivot left part is connected with bevel gear, second pivot bottom also is connected with bevel gear.

Optionally, the automobile seat further comprises a step mechanism for assisting the automobile to move, the step mechanism comprises a first step and a second step, the second step is connected to the front side and the rear side of the left part of the installation base, and the two first steps are connected to the left part of the installation base in a sliding mode.

Optionally, the automobile parking device further comprises a positioning mechanism used for assisting the automobile in stopping positioning, the positioning mechanism comprises a positioning frame and a blocking seat, the left side of the movable base is connected with the positioning frame, and the rear side of the positioning frame is connected with the blocking seat in a sliding mode.

Optionally, the first synchronous belt assembly comprises two first synchronous wheels and a first synchronous belt, the right ends of the first screw rods are connected with the first synchronous wheels, and the first synchronous belt is wound between the first synchronous wheels.

Optionally, the second synchronous belt assembly comprises a second synchronous wheel and a second synchronous belt, the second synchronous wheel is connected to the first rotating shaft, and the second synchronous belt is wound between two second synchronous wheels which are close to each other.

Optionally, the second rotating shaft is provided with a knob, and the knob is convenient for people to rotate the second rotating shaft.

The invention has the beneficial effects that: 1. according to the invention, the bottom of the new energy automobile is observed through the detection camera, then the double-shaft motor is controlled to enable the disassembling device to be aligned with the battery mounting screw, then the mounting screw is disassembled through the disassembling mechanism, the effect of rapidly disassembling the mounting screw is achieved, the time of an operator at the bottom of the automobile is reduced, and then the mounting screw is installed through the disassembling device, so that the effect of installing the new energy automobile battery is realized.

2. According to the battery mounting screw dismounting device, the second rotating shaft is rotated to enable the third rotating shaft to rotate, the first sliding frame pulls the second sliding frame to move, the connecting pieces are not limited any more, the dismounting device can move upwards and is in butt joint with the battery mounting screw under the action of the spring, and the mounting screw can be dismounted conveniently.

3. According to the invention, the fourth rotating shaft is rotated by rotating the fifth rotating shaft, so that the second rotating shaft is rotated under the action of the bevel gear, an operator does not need to enter the vehicle bottom to rotate, and the operation safety is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a partial structural schematic diagram of the present invention.

Fig. 3 is a schematic perspective view of the placement mechanism of the present invention.

Fig. 4 is a first structural schematic diagram of the disassembling mechanism of the invention.

Fig. 5 is a schematic perspective view of a second disassembling mechanism according to the present invention.

Fig. 6 is a schematic view of a first structure of the trigger mechanism of the present invention.

Fig. 7 is a schematic view of a second structure of the trigger mechanism of the present invention.

Fig. 8 is a schematic partial perspective view of the trigger mechanism of the present invention.

Fig. 9 is a schematic structural view of the rotating mechanism of the present invention.

Fig. 10 is a schematic cross-sectional three-dimensional structure of the stair mechanism of the present invention.

Fig. 11 is a schematic perspective view of the positioning mechanism of the present invention.

Reference numbers in the drawings: 1: installation base, 2: first lead screw, 3: first timing belt assembly, 4: servo motor, 5: placement mechanism, 51: moving base, 52: hydraulic cylinder, 53: placing table, 6: disassembling mechanism, 61: detection camera, 62: two-shaft motor, 63: first rotating shaft, 64: second timing belt assembly, 65: second lead screw, 66: moving plate, 67: lifter plate, 68: disassembling device, 69: spring, 7: trigger mechanism, 71: support seat, 72: second rotating shaft, 73: third rotating shaft, 74: first carriage, 75: second carriage, 76: connecting piece, 8: rotating mechanism, 81: fixing base, 82: mount, 83: fourth rotation shaft, 84: fifth rotating shaft, 85: bevel gears, 9: step mechanism, 91: first step, 92: second step, 10: positioning mechanism, 101: a positioning frame, 102: a blocking seat.

Detailed Description

The present invention will be further described with reference to specific examples, which are intended to illustrate, but not limit the scope of the invention.

The utility model provides a new energy automobile's battery changes auxiliary device, as shown in fig. 1 and fig. 2, including installation base 1, first lead screw 2, first synchronous belt subassembly 3, servo motor 4, placement mechanism 5 and disassemble mechanism 6, there is servo motor 4 installation base 1 right part upside through bolted connection, servo motor 4 output shaft sets up for left orientation, be connected with first synchronous belt subassembly 3 on the servo motor 4 output shaft, first synchronous belt subassembly 3 is including two first synchronizing wheels and a first synchronous belt, first lead screw 2 right-hand member all is connected with first synchronizing wheel, around having first synchronous belt between the first synchronizing wheel, bottom rotary type is connected with two first lead screws 2 in the installation base 1, first lead screw 2 all is connected with first synchronous belt subassembly 3, be equipped with placement mechanism 5 between two first lead screws 2, be used for dismantling new energy automobile battery, be equipped with mechanism 6 on the placement mechanism 5, be used for supplementary new energy automobile battery dismantlement and change.

When dismantling the change to new energy automobile battery, can use this device to assist assistance, at first start servo motor 4, servo motor 4 output shaft drives first synchronous belt subassembly 3 and operates, thereby make first lead screw 2 all rotate, all carry out the pivoted in-process at first lead screw 2, can make placement mechanism 5 move left, operating personnel disassembles mechanism 6 through control, dismantle new energy automobile's former battery, later control servo motor 4 output shaft antiport, thereby make placement mechanism 5 slide right and reset, later put new electromagnetism on placement mechanism 5, repeated above-mentioned operation is sent into new battery, it can to install the battery through disassembling mechanism 6, thereby realize dismantling the effect of changing new energy automobile battery fast.

As shown in fig. 1 and 3, the placing mechanism 5 includes a movable base 51, hydraulic cylinders 52 and a placing table 53, the movable base 51 is connected between the two first lead screws 2 in a threaded manner, the top of the movable base 51 is connected with four hydraulic cylinders 52, the placing table 53 is connected between the tops of the telescopic ends of the four hydraulic cylinders 52, and the placing table 53 is used for placing and supporting the new energy automobile battery.

When the new energy automobile battery is replaced, the output shaft of the servo motor 4 is controlled to drive the first synchronous belt assembly 3 to operate, so that the first lead screw 2 rotates, the movable base 51 slides leftwards, the telescopic end of the hydraulic cylinder 52 is controlled to extend upwards, the placing table 53 moves upwards, the disassembled old battery is placed on the placing table 53, the telescopic end of the hydraulic cylinder 52 is controlled to shrink downwards for resetting, the output shaft of the servo motor 4 is controlled to drive the first synchronous belt assembly 3 to rotate reversely, the first lead screw 2 rotates reversely, the movable base 51 slides rightwards, an operator takes the old battery down and places the new battery on the placing table 53, the operation is repeated, the electrocardio battery is sent to the bottom of the new energy automobile to be replaced, and in conclusion, the output shaft of the servo motor 4 drives the first lead screw 2 to rotate, the movable base 51 drives the placing table 53 to move, the new energy automobile battery is replaced quickly, and replacement efficiency is improved.

As shown in fig. 1, 4 and 5, the disassembling mechanism 6 includes a detection camera 61, a dual-shaft motor 62, a first rotating shaft 63, a second synchronous belt assembly 64, a second screw 65, a moving plate 66, a lifting plate 67, a disassembling device 68 and a spring 69, the placing table 53 is uniformly connected with the detection camera 61 through a bolt, the detection camera 61 is used for photographing and detecting the bottom of the new energy automobile, each side surface of the placing table 53 is connected with the dual-shaft motor 62 through a bolt, an output shaft of the dual-shaft motor 62 is connected with the first rotating shaft 63, the placing table 53 is uniformly and rotatably connected with the second screw 65, the second synchronous belt assembly 64 is connected between the second screw 65 and the first rotating shaft 63, the second synchronous belt assembly 64 includes a second synchronous wheel and a second synchronous belt, all be connected with the second synchronizing wheel on the first pivot 63, all around there being the second hold-in range between two second synchronizing wheels that are close to each other, all threaded connection has two movable plates 66 on the second lead screw 65 of both sides around every, all threaded connection has three movable plate 66 on the second lead screw 65 of both sides about, movable plate 66 all with place platform 53 sliding connection, movable plate 66 top all sliding connection has lifter plate 67, all be connected with two springs 69 between lifter plate 67 and the movable plate 66, the spring 69 top all is connected with lifter plate 67, the spring 69 bottom all is connected with movable plate 66, lifter plate 67 top all is connected with detaching device 68, detaching device 68 is used for disassembling the installation screw on the new energy automobile battery.

When replacing the new energy automobile battery, as the moving base 51 drives the placing platform 53 to slide leftwards, the detection camera 61 also moves leftwards, the operator observes the bottom of the new energy automobile through the detection camera 61, then the biaxial motor 62 is started to enable the first rotating shaft 63 to rotate, the first rotating shaft 63 rotates to enable the second synchronous belt assembly 64 to operate, so that the second lead screw 65 rotates, and further the moving plate 66 slides, so that the disassembling device 68 can align with the mounting screw, then the biaxial motor 62 is closed, as the telescopic end of the hydraulic cylinder 52 extends upwards, the disassembling device 68 can align with the mounting screw, so that the lifting plate 67 slides downwards, the spring 69 is compressed under stress, then the disassembling device 68 is controlled to disassemble the mounting screw, so that the old battery falls on the placing platform 53, then the old battery resets as the placing platform 53 moves downwards, under the action of the spring 69, the lifting plate 67 slides upwards to reset, then the moving base 51 moves rightwards, the operator needs to remove the old battery, places the new battery on the placing platform 53, then the new battery is installed, the new battery is installed by the camera 6, and the new energy automobile is installed by the camera 6, and the new energy automobile is installed and the camera 6 is installed by the camera, and the camera 6, and then the mounting screws are mounted through the disassembling device 68, so that the effect of mounting the new energy automobile battery is achieved.

As shown in fig. 1, 6, 7 and 8, the portable electronic device further includes a trigger mechanism 7, the trigger mechanism 7 includes a support base 71, a second rotating shaft 72, a third rotating shaft 73, a first sliding frame 74, a second sliding frame 75 and connectors 76, the top of the movable base 51 is connected with the support base 71 through bolts, the support base 71 is rotatably connected with the second rotating shaft 72, the second rotating shaft 72 is provided with a knob, the knob is convenient for people to rotate the second rotating shaft 72, the top of the second rotating shaft 72 is connected with the third rotating shaft 73, four first sliding frames 74 are slidably connected inside the placing table 53, the first sliding frames 74 are slidably connected with the third rotating shaft 73, the first sliding frames 74 are connected with the second sliding frame 75, the bottoms of the lifting plates 67 are connected with two connectors 76, and the sliding frame connectors 76 can be pressed and limited by the second sliding frame 75.

After the disassembling device 68 is aligned with the battery mounting screws, the lifting plate 76 is moved upwards along with the placing table 53, the second rotating shaft 72 can be rotated by people, so that the third rotating shaft 73 is rotated, so that the first sliding frame 74 slides towards one side close to the third rotating shaft 73, and then the second sliding frame 75 is pulled towards one side close to the third rotating shaft 73, so that the connecting piece 76 is not extruded by the second sliding frame 75 any more, at this time, in an initial state, the spring 69 is in a state of stressed compression, when the connecting piece 76 is not extruded any more, under the action of the spring 69, the lifting plate 67 drives the connecting piece 76 to move upwards, so as to drive the disassembling device 68 to move upwards, and is butted with the mounting screws of the battery, after the disassembling is completed, the second rotating shaft 72 is rotated backwards, so that the third rotating shaft 73 rotates backwards, so that the first sliding frame 74 slides towards one side far away from the third rotating shaft 73, the first sliding frame 74 pushes the second sliding frame 75 to slide towards one side far away from the third rotating shaft 73, so that the connecting piece 76 is pushed, so that the lifting plate 74 slides downwards, and the connecting piece 69 slides downwards, so that the connecting piece is pulled and the mounting screw is pulled downwards, and the connecting piece is pulled to move upwards by the mounting screw, and the connecting shaft 73, so that the battery mounting screw is pulled, and the battery mounting screw is not pressed, and the battery mounting screw is pulled upwards, and the battery mounting screw is pulled, and the battery mounting device is pulled upwards, and the battery mounting device is pulled downwards, and the battery mounting device is pulled upwards, and the battery mounting screw is pulled upwards, and the battery mounting device is pushed.

As shown in fig. 1 and 9, the device further includes a rotating mechanism 8, the rotating mechanism 8 includes a fixing seat 81, a fixing frame 82, a fourth rotating shaft 83, a fifth rotating shaft 84 and bevel gears 85, the upper side of the right portion of the movable base 51 is connected with the fixing seat 81 through bolts, the right side of the movable base 51 is connected with the fixing frame 82 through bolts, the fixing seat 81 is connected with the fourth rotating shaft 83 in a rotating manner, the fifth rotating shaft 84 is connected with the fifth rotating shaft 83 in a sliding manner, the fifth rotating shaft 84 rotates and is connected with the fixing frame 82 in a rotating manner, the fourth rotating shaft 83 can be driven to rotate by rotating the fifth rotating shaft 84, the bevel gears 85 are connected to the left portion of the fourth rotating shaft 83, the bottom of the second rotating shaft 72 is also connected with the bevel gears 85, and the two bevel gears 85 are meshed with each other.

When needing to rotate second pivot 72, can be according to operating personnel's arm length, pull fifth pivot 84 right, later rotate fifth pivot 84, thereby make fourth pivot 83 rotate, fourth pivot 83 rotates and to drive bevel gear 85 of downside and rotate, thereby make bevel gear 85 of upside rotate, and then make second pivot 72 rotate, make second pivot 72 rotate through the mode of rotating fifth pivot 84, the operating personnel of being convenient for operate, no longer need operating personnel to get into the vehicle bottom and operate, to sum up, make fourth pivot 83 rotate through rotating fifth pivot 84, thereby make second pivot 72 rotate under bevel gear 85's effect, no longer need operating personnel to get into the vehicle bottom and rotate the operation, the operational safety has been improved.

As shown in fig. 1 and fig. 10, the novel energy automobile energy storage device further comprises a step mechanism 9, the step mechanism 9 comprises a first step 91 and a second step 92, the second step 92 is connected to the front side and the rear side of the left portion of the installation base 1, the two first steps 91 are connected to the left portion of the installation base 1 in a sliding mode, the first steps 91 can be spliced with the corresponding second steps 92, and therefore the novel energy automobile can conveniently run.

In order to facilitate the battery replacement of new energy automobile, can all stimulate one side of keeping away from each other first step 91 to make first step 91 all splice with second step 92, operating personnel can drive the car through the direction of first step 91 and second step 92 this moment, thereby make this device can directly be located the car bottom, no longer need extra mobile device to cause inconvenience.

As shown in fig. 1 and fig. 11, the vehicle wheel suspension device further comprises a positioning mechanism 10, wherein the positioning mechanism 10 comprises a positioning frame 101 and a blocking seat 102, the positioning frame 101 is connected to the left side of the movable base 51, the blocking seat 102 is slidably connected to the rear side of the positioning frame 101, and the blocking seat 102 is used for limiting the vehicle wheel.

The blocking seat 102 is pulled out backwards, then after the new energy automobile is guided by the first step 91 and the second step 92, the new energy automobile is in contact with the blocking seat 102 along with wheels, namely, the automobile is marked to be parked at a specified position, the automobile does not need to be operated at the moment, and after the battery is replaced, the blocking seat 102 is pushed forwards to reset along with the fact that the automobile leaves the device.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (10)

1. The utility model provides a new energy automobile's battery replacement auxiliary device, including installation base (1), first lead screw (2), first synchronous belt subassembly (3) and servo motor (4), there are servo motor (4) installation base (1) right part upside through bolted connection, be connected with first synchronous belt subassembly (3) on servo motor (4) output shaft, bottom rotary type is connected with two first lead screws (2) in installation base (1), first lead screw (2) all are connected with first synchronous belt subassembly (3), characterized by, still including placement mechanism (5) and disassembly mechanism (6), be equipped with between two first lead screws (2) and be used for carrying out placement mechanism (5) placed to new energy automobile battery, be equipped with on placement mechanism (5) and be used for assisting disassembly mechanism (6) that new energy automobile battery changed.

2. The battery replacement auxiliary device for the new energy automobile as claimed in claim 1, wherein the placement mechanism (5) comprises a movable base (51), hydraulic cylinders (52) and a placement platform (53), the movable base (51) is connected between the two first screw rods (2) in a threaded manner, the top of the movable base (51) is connected with four hydraulic cylinders (52), and the placement platform (53) is connected between the tops of the telescopic ends of the four hydraulic cylinders (52).

3. The auxiliary device for replacing the battery of the new energy automobile is characterized in that the disassembling mechanism (6) comprises a detection camera (61), a double-shaft motor (62), a first rotating shaft (63) and a second synchronous belt component (64), second lead screw (65), movable plate (66), lifter plate (67), detaching device (68) and spring (69), it has detection camera (61) evenly to place on platform (53) through bolted connection, it has double-shaft motor (62) all to place every side of platform (53) through bolted connection, all be connected with first pivot (63) on the double-shaft motor (62) output shaft, it has second lead screw (65) to place even rotary type on platform (53), all be connected with second synchronous belt subassembly (64) between second lead screw (65) and first pivot (63), it is connected with two movable plates (66) all to screw thread formula on second lead screw (65) of both sides around every, it has three movable plate (66) all to screw thread formula on second lead screw (65) of the left and right sides, movable plate (66) all with place platform (53) sliding connection, movable plate (66) top all sliding connection has lifter plate (67), all be connected with two springs (69) between lifter plate (67) and movable plate (66), lifter plate (67) top all is connected with detaching device (68).

4. The battery replacement auxiliary device of the new energy automobile as claimed in claim 3, characterized by further comprising a trigger mechanism (7) for rapidly butting a battery mounting screw, wherein the trigger mechanism (7) comprises a support base (71), a second rotating shaft (72), a third rotating shaft (73), a first sliding frame (74), a second sliding frame (75) and connecting pieces (76), the top of the movable base (51) is connected with the support base (71) through bolts, the support base (71) is rotatably connected with the second rotating shaft (72), the top of the second rotating shaft (72) is connected with the third rotating shaft (73), the placing table (53) is internally connected with four first sliding frames (74) in a sliding manner, the first sliding frames (74) are connected with the third rotating shaft (73) in a sliding manner, the first sliding frames (74) are connected with the second sliding frame (75), and the bottoms of the lifting plates (67) are connected with two connecting pieces (76).

5. The auxiliary device for replacing the battery of the new energy automobile according to claim 4, characterized by further comprising a rotating mechanism (8) for rapidly rotating the second rotating shaft (72), wherein the rotating mechanism (8) comprises a fixed seat (81), a fixed frame (82), a fourth rotating shaft (83), a fifth rotating shaft (84) and a bevel gear (85), the upper side of the right part of the movable base (51) is connected with the fixed seat (81) through a bolt, the right side of the movable base (51) is connected with the fixed frame (82) through a bolt, the fixed seat (81) is rotationally connected with the fourth rotating shaft (83), the fourth rotating shaft (83) is slidably connected with the fifth rotating shaft (84), the fifth rotating shaft (84) and the fixed frame (82) rotate and are slidably connected, the left part of the fourth rotating shaft (83) is connected with the bevel gear (85), and the bottom of the second rotating shaft (72) is also connected with the bevel gear (85).

6. The battery replacement auxiliary device of the new energy automobile as claimed in claim 5, characterized by further comprising a step mechanism (9) for assisting the automobile in moving, wherein the step mechanism (9) comprises a first step (91) and a second step (92), the second step (92) is connected to the front side and the rear side of the left part of the mounting base (1), and the two first steps (91) are slidably connected to the left part of the mounting base (1).

7. The battery replacement auxiliary device of the new energy automobile according to claim 6, characterized by further comprising a positioning mechanism (10) for assisting the automobile in stopping positioning, wherein the positioning mechanism (10) comprises a positioning frame (101) and a blocking seat (102), the positioning frame (101) is connected to the left side of the movable base (51), and the blocking seat (102) is movably connected to the rear side of the positioning frame (101).

8. The battery replacement assistance device for the new energy automobile as claimed in claim 1, wherein the first timing belt assembly (3) comprises two first timing wheels and a first timing belt, the first timing wheels are connected to the right end of the first lead screw (2), and the first timing belt is wound between the first timing wheels.

9. The battery replacement assistance device for the new energy automobile as claimed in claim 3, wherein the second timing belt assembly (64) comprises a second timing wheel and a second timing belt, the second timing wheel is connected to the first rotating shaft (63), and the second timing belt is wound between two second timing wheels adjacent to each other.

10. The battery replacement auxiliary device of the new energy automobile as claimed in claim 4, wherein the second rotating shaft (72) is provided with a knob, and the knob is convenient for people to rotate the second rotating shaft (72).

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