CN-224211708-U - Battery tray conveying mechanism

Abstract

The utility model discloses a battery tray conveying mechanism which comprises a lower frame and a rotary jacking mechanism, wherein a conveying roller is arranged on the lower frame and used for conveying a battery tray, the rotary jacking mechanism comprises a mounting substrate, a jacking cylinder, a rotary substrate, a rotary top plate and a driving assembly, the mounting substrate is arranged on the lower frame, the driving assembly is arranged on the mounting substrate, the rotary top plate is connected with a plurality of jacking shafts, the rotary substrate is provided with a plurality of first linear bearings, the plurality of jacking shafts are correspondingly penetrated and connected with the plurality of first linear bearings one by one, a telescopic rod of the jacking cylinder is in driving connection with the rotary top plate, the rotary top plate jacks up the battery tray, and the driving assembly is used for driving the rotary substrate and driving the rotary top plate to rotate. According to the technical scheme, the direction of the battery conveyed by the battery tray can be changed in a rotating mode, and the battery conveying device is suitable for various production and application scenes.

Inventors

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Assignees

• 深圳市瑞能创新科技有限公司

Dates

Publication Date

20260508

Application Date

20250515

Claims (10)

1. 1. A battery tray conveying mechanism, characterized in that the battery tray conveying mechanism comprises: The lower rack is provided with a conveying roller for conveying the battery trays; The rotary jacking mechanism comprises a mounting substrate, a jacking cylinder, a rotary substrate, a rotary top plate and a driving assembly, wherein the mounting substrate is mounted on the lower frame, the driving assembly is mounted on the mounting substrate, the rotary top plate is connected with a plurality of jacking shafts, the rotary substrate is provided with a plurality of first linear bearings, and the jacking shafts are correspondingly and penetratingly connected with the plurality of first linear bearings one by one; The telescopic rod of the jacking cylinder is in driving connection with the rotary top plate, so that the rotary top plate jacks up the battery tray, and the driving assembly is used for driving the rotary base plate and driving the rotary top plate to rotate.
2. 2. The battery tray conveying mechanism according to claim 1, wherein the driving assembly comprises a servo motor, a speed reducer and a turntable bearing, the servo motor is in driving connection with the speed reducer, an output end of the speed reducer is in driving connection with an output gear, a tooth part of the output gear is meshed with a tooth part of the turntable bearing, an inner ring of the turntable bearing is fixedly connected with the mounting substrate, and an outer ring of the turntable bearing is fixedly connected with the rotating substrate.
3. 3. The battery tray conveyance mechanism according to claim 2, wherein a first protective cover and a second protective cover are mounted on the mounting substrate, the first protective cover is provided around the outer periphery of the teeth of the output gear, and the second protective cover is provided around the outer periphery of the teeth of the turntable bearing.
4. 4. The battery tray conveying mechanism of claim 1, wherein the upper surface of the rotating top plate is laid with an antistatic rubber.
5. 5. The battery tray conveyance mechanism according to claim 1, wherein a plurality of hydraulic buffers are provided between the rotary base plate and the rotary top plate.
6. 6. The battery tray conveying mechanism according to claim 1, further comprising a lifting blocking mechanism, wherein the lifting blocking mechanism comprises a blocking block, a blocking main board, a blocking auxiliary board, a lower limit board, a blocking main shaft and a blocking air cylinder, the blocking main board is mounted on the lower frame, a second linear bearing is mounted on the blocking main board, the blocking main shaft is in penetrating connection with the second linear bearing, two ends of the blocking main shaft are respectively connected with the blocking main board and the lower limit board, the blocking air cylinder is mounted on the blocking main board, and a telescopic rod of the blocking air cylinder is in driving connection with the blocking auxiliary board, so that the blocking auxiliary board drives the blocking block to block conveying of the battery tray.
7. 7. The battery tray conveying mechanism according to claim 6, wherein an anti-collision ring is further sleeved on the periphery of the blocking main shaft, and the anti-collision ring is arranged between the second linear bearing and the blocking auxiliary plate.
8. 8. The battery tray conveying mechanism according to claim 6, wherein a plurality of first bumpers are provided on the blocking main plate, and a bumper head of the first bumpers can abut against the blocking sub plate.
9. 9. The battery tray conveying mechanism according to claim 8, wherein a limiting block is arranged on one side of the blocking main plate, which is opposite to the lower limit plate, and a second buffer is arranged on the lower limit plate, and a buffer head of the second buffer can be abutted with the limiting block.
10. 10. The battery tray conveying mechanism according to any one of claims 1 to 9, wherein both sides of the lower frame are respectively provided with a limit rib, and a distance between the limit ribs of both sides is greater than a width of the battery tray and less than a length of the battery tray.

Description

Battery tray conveying mechanism Technical Field The utility model relates to the technical field of battery tray conveying, in particular to a battery tray conveying mechanism. Background At present, the state advocates a new energy automobile greatly, the lithium square battery industry also has great development, under the condition, the production effect and the efficiency requirement on the lithium square battery are also more and more strict, and therefore, the production process of the battery needs to be enhanced to effectively control, so that the efficiency and the productivity of a production line are improved, and the problem of battery tray conveying in battery sorting is solved. In the conventional conveying mechanism for the battery tray, the battery tray can only be conveyed along the length direction of the battery, and cannot be conveyed along the width direction of the battery, so that the positions of the battery tray, which are required to be rotated to change the battery conveying production line, cannot be met, and the production and application scene is single. Disclosure of utility model The utility model mainly aims to provide a battery tray conveying mechanism, and aims to solve the problem that the conventional battery tray conveying mechanism is single in production and application scene of conveying battery trays. In order to achieve the above object, the present utility model provides a battery tray conveying mechanism, comprising: The lower rack is provided with a conveying roller for conveying the battery trays; The rotary jacking mechanism comprises a mounting substrate, a jacking cylinder, a rotary substrate, a rotary top plate and a driving assembly, wherein the mounting substrate is mounted on the lower frame, the driving assembly is mounted on the mounting substrate, the rotary top plate is connected with a plurality of jacking shafts, the rotary substrate is provided with a plurality of first linear bearings, and the jacking shafts are correspondingly and penetratingly connected with the plurality of first linear bearings one by one; The telescopic rod of the jacking cylinder is in driving connection with the rotary top plate, so that the rotary top plate jacks up the battery tray, and the driving assembly is used for driving the rotary base plate and driving the rotary top plate to rotate. Further, the driving assembly comprises a servo motor, a speed reducer and a turntable bearing, the servo motor is in driving connection with the speed reducer, an output gear is in driving connection with an output end of the speed reducer, teeth of the output gear are meshed with teeth of the turntable bearing, an inner ring of the turntable bearing is fixedly connected with the mounting substrate, and an outer ring of the turntable bearing is fixedly connected with the rotating substrate. Further, a first protective cover and a second protective cover are arranged on the mounting substrate, the first protective cover is arranged on the periphery of the tooth part of the output gear in a surrounding mode, and the second protective cover is arranged on the periphery of the tooth part of the turntable bearing in a surrounding mode. Further, an antistatic rubber is laid on the upper surface of the rotary top plate. Further, a plurality of hydraulic buffers are provided between the rotary base plate and the rotary top plate. Further, the battery tray conveying mechanism further comprises a lifting blocking mechanism, the lifting blocking mechanism comprises a blocking block, a blocking main plate, a blocking auxiliary plate, a lower limit plate, a blocking main shaft and a blocking air cylinder, the blocking main plate is installed on the lower frame, a second linear bearing is installed on the blocking main plate, the blocking main shaft is connected with the second linear bearing in a penetrating mode, two ends of the blocking main plate are respectively connected with the lower limit plate, the blocking air cylinder is installed on the blocking main plate, and a telescopic rod of the blocking air cylinder is in driving connection with the blocking auxiliary plate, so that the blocking auxiliary plate drives the blocking block to block conveying of the battery tray. Further, the periphery of the blocking main shaft is also sleeved with an anti-collision ring, and the anti-collision ring is arranged between the second linear bearing and the blocking auxiliary plate. Further, a plurality of first buffers are arranged on the blocking main board, and buffer heads of the first buffers can be abutted to the blocking auxiliary board. Further, a limiting block is arranged on one side of the blocking main board, which is opposite to the lower limit board, a second buffer is arranged on the lower limit board, and a buffer head of the second buffer can be abutted to the limiting block. Further, two sides of the lower rack are respectively provided with a limit flange, and the distance between