CN212150678U - Automatic discharging device of small cylindrical battery formation and grading detection equipment - Google Patents

Abstract

The utility model discloses an automatic discharging device of a small-sized cylindrical battery formation and capacity grading detection device, which comprises a transfer frame, a battery frame and a feeding trolley, wherein a sliding guide rail is arranged on the transfer frame and is used for being in sliding connection with the battery frame; the utility model discloses a set up the material loading dolly and set up the handle on the battery rack, utilize the conveyer belt on the material loading dolly to drive two translation seats and remove to drive the couple and remove, thereby connect the handle through the couple and withdraw from the transfer rack in order to drive the battery rack, so can realize the automatic discharging of battery rack, with improvement overall efficiency, so that follow-up formation partial volume that carries out small-size cylinder battery detects, the security of improving production reduces workman's working strength.

Description

Automatic discharging device of small cylindrical battery formation and grading detection equipment

Technical Field

The utility model belongs to the technical field of the mechanical skill and specifically relates to an automatic discharging device of small-size cylinder battery ization becomes partial volume check out test set is related to.

Background

The cylindrical battery is a battery with high capacity, long cycle life and wide use environment temperature, wherein the small cylindrical battery also needs to be subjected to chemical composition capacity detection to be used before leaving a factory, and the equipment for chemical composition capacity detection comprises a battery frame for placing the small cylindrical battery, but the battery frame usually has a section of weight, so that the manual feeding and discharging battery frame not only easily damages workers, but also improves the integral working strength and reduces the integral efficiency.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model aims to provide a high small-size cylinder battery ization becomes partial volume check out test set's automatic discharging device of security.

The utility model discloses a realize above-mentioned purpose, the utility model provides a scheme does: an automatic discharging device of a small cylindrical battery formation and capacity grading detection device comprises a middle rotating frame, a battery frame and a feeding trolley, wherein a sliding guide rail is arranged on the middle rotating frame and is used for being in sliding connection with the battery frame, a handle is arranged on the battery frame, a feeding platform is formed on the top surface of the feeding trolley, the top surface of the feeding platform is level to the top surface of the middle rotating frame, conveying belts are arranged on the left side and the right side of the feeding platform, translation seats are fixedly connected on the conveying belts, a translation frame is connected between the two translation seats, a feeding motor is arranged on the translation frame and is connected with a swing arm, the free end of the swing arm is connected with a hook, and the feeding motor drives the swing arm to swing downwards so that the hook is connected with the handle in a hanging and buckling manner;

the bottom of the feeding trolley is rotatably connected with a plurality of idler wheels, a plurality of vertically extending sliding channels are formed in the feeding trolley, jacking blocks used for downwards abutting against and jacking the idler wheels are arranged in the sliding channels, limiting bosses are formed in the sliding channels, limiting flanges are formed on the outer side walls of the jacking blocks and located above the limiting bosses, reset springs are connected between the limiting bosses and the limiting flanges, meanwhile, pushing channels communicated with the sliding channels are formed in the top ends of the sliding channels, pushing wedge blocks are arranged in the pushing channels, inclined planes are formed at the end parts of the pushing wedge blocks, and the pushing wedge blocks are pushed to advance to push the jacking blocks to downwards move and jack and clamp the idler wheels.

The utility model has the advantages that: realize the automatic discharging, the utility model discloses a set up the material loading dolly and set up the handle on the battery rack, utilize the conveyer belt on the material loading dolly to drive two translation seats and move, in order to drive the couple and move, thereby connect the handle through the couple and in order to drive the battery rack and withdraw from the transfer rack, so can realize the automatic discharging of battery rack, in order to improve the overall efficiency, so that the formation partial volume detection of follow-up small-size cylinder battery carries out, improve the security of production, reduce workman's working strength; meanwhile, the pushing wedge block and the jacking block are arranged to compress the roller, so that the feeding trolley is prevented from moving in the discharging process of the battery rack and affecting normal work.

The conveying belt is internally provided with a plurality of driven wheels, the driving motor is connected with the driving reduction gearbox, the driving reduction gearbox is connected with the driving wheel, and the driving wheel is connected with one of the driven wheels through the transmission belt. The utility model adopts the above structure after, through driving motor and drive reducing gear box to drive the conveyer belt and rotate in the positive and negative direction, thereby drive two translation framves and go forward or retreat.

Furthermore, the feeding motor is connected with a feeding reduction gearbox, and the feeding reduction gearbox is connected with the swing arm. The utility model adopts the above structure after, make the material loading motor drive the swing arm luffing motion.

Furthermore, a first through hole is formed in the side wall of the feeding trolley, a second through hole is formed in the opposite side of the propelling wedge block and the first through hole, a limiting rod is arranged in the first through hole, the second through hole is gradually narrowed along the insertion direction of the limiting rod, and the limiting rod sequentially passes through the first through hole and the second through hole to push the propelling wedge block to advance. The utility model adopts the above structure after, when impeling the wedge through the gag lever post locking, promote the roof pressure piece and move down the chucking gyro wheel, prevent that the gyro wheel from removing.

Furthermore, a transfer plate extends from the opposite side of the feeding platform and the transfer frame. The utility model adopts the above structure after to in impel the transfer rack with the battery rack on or pull out the transfer rack.

Furthermore, a limiting block is arranged on the middle rotating frame and used for limiting the movement of the battery frame. The utility model adopts the above structure after, make the battery rack can only get into or withdraw from the transfer rack from one side of transfer rack.

Drawings

Fig. 1 is a top view of the overall structure of the present invention.

Fig. 2 is a side view of the overall structure of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a top view of the propulsion passage of the present invention.

Fig. 5 is a three-dimensional structure diagram of the transfer frame of the present invention.

The automatic feeding device comprises a middle rotating frame 1, a sliding guide rail 11, a limiting block 12, a battery rack 2, a handle 21, a feeding trolley 3, a conveying belt 31, a translation seat 311, a translation frame 312, a feeding motor 313, a swing arm 314, a hook 315, a feeding reduction box 316, a feeding platform 32, a middle rotating plate 321, a roller 33, a sliding channel 34, a top pressing block 341, a limiting flange 342, a limiting boss 343, a return spring 345, a pushing channel 35, a pushing wedge 351, a first through hole 352, a second through hole 353, a limiting rod 354, a driving motor 41, a driving wheel 42, a driven wheel 43 and a transmission belt 44.

Detailed Description

The invention will be further described with reference to the following specific embodiments:

referring to the attached drawings 1 to 5, an automatic discharging device of a small cylindrical battery formation and capacity grading detection device comprises a middle rotating frame 1, a battery frame 2, a feeding trolley 3, a driving motor 41, a driving reduction gearbox, a driving wheel 42, a plurality of driven wheels 43 and a transmission belt 44, wherein a sliding guide rail is arranged on the middle rotating frame 1 and is used for being in sliding connection with the battery frame 2, a handle 21 is arranged on the battery frame 2, a feeding platform 32 is formed on the top surface of the feeding trolley 3, the top surface of the feeding platform 32 is level with the top surface of the middle rotating frame 1, conveying belts 31 are arranged on the left side and the right side of the feeding platform 32, a translation seat 311 is fixedly connected onto the conveying belts 31, a translation frame 312 is connected between the two translation seats 311, a feeding motor 313 is arranged on the translation frame 312, the feeding motor 313 is connected with the feeding reduction gearbox 316, the feeding reduction gearbox 316 is connected with a swing arm 314, the swing arm 314 is, the free end of the swing arm 314 is connected with a hook 315, and the feeding motor 313 drives the swing arm 314 to swing downwards so that the hook 315 is connected with the handle 21 in a hanging and buckling manner; the conveying belt 31 is connected with a plurality of driven wheels 43 in a rolling manner, the driving motor 41 is connected with a driving reduction gearbox, the driving reduction gearbox is connected with a driving wheel 42, and the driving wheel 42 is connected with one driven wheel 43 through a transmission belt 44.

The bottom of the feeding trolley 3 is rotatably connected with a plurality of rollers 33, a plurality of vertically extending sliding channels 34 are formed in the feeding trolley 3, a top pressing block 341 is arranged in each sliding channel 34 and used for downwards abutting against the top pressing roller 33, a limiting boss 343 is formed in each sliding channel 34, a limiting flange 342 is formed on the outer side wall of each top pressing block 341 and located above each limiting boss 343, a reset spring 345 is connected between each limiting boss 343 and each limiting flange 342, meanwhile, a pushing channel 35 communicated with each sliding channel 34 is formed at the top end of each sliding channel 34, a pushing wedge 351 is arranged in each pushing channel 35, an inclined surface is formed at the end of each pushing wedge 351, and the pushing wedge 351 is pushed to advance to push the top pressing block 341 to downwards move to abut against the clamping roller 33; wherein, the bottom end of the top pressing block 341 is in an arc structure for clinging to the roller 33.

The side wall of the feeding trolley 3 is provided with a first through hole 352, the opposite side of the propulsion wedge 351 and the first through hole 352 is provided with a second through hole 353, a limiting rod 354 is arranged in the first through hole 352, the second through hole 353 gradually narrows along the insertion direction of the limiting rod 354, the limiting rod 354 sequentially passes through the first through hole 352 and the second through hole 353 to push the propulsion wedge 351 to advance, the opposite side of the feeding platform 32 and the intermediate rotary frame 1 extends to form an intermediate rotary plate 321, and the intermediate rotary frame 1 is provided with a limiting block 12 for limiting the movement of the battery frame 2.

In this embodiment, the specific feeding or discharging process is as follows: firstly, the feeding trolley 3 is pushed to the feeding side of the transfer frame 1, the transfer plate 321 is in contact with the transfer frame 1, then the pushing wedge block 351 is pushed, the pushing wedge block 351 is made to advance in the pushing channel 35 to push the pressing block 341 to move down to press the roller 33, the limiting flange 342 compresses the reset spring 345 and is close to the limiting boss 343, then the limiting rod 354 sequentially penetrates through the first through hole 352 and the second through hole 353, and when the limiting rod 354 enters the second through hole 353, the pushing wedge block 351 is continuously pushed to advance, so that the pressing wedge block 351 and the pressing block 341 are fixed, the roller 33 is locked, and the feeding trolley 3 is prevented from moving randomly;

at this time, the feeding motor 313 is driven, the feeding motor 313 drives the feeding reduction box 316 to work, the feeding reduction box 316 drives the swing arm 314 and the hook 315 to swing downwards until the hook 315 is hooked on the handle 21, then the driving motor 41 is started, the driving motor 41 drives the driving reduction box to work, the driving reduction box drives the driving wheel 42 to rotate, the driving wheel 42 drives the driven wheel 43 to rotate through the transmission belt 44, the conveying belt 31 works to drive the two translation seats 311 to retreat away from the transfer rack 1, the two translation seats 311 retreat to enable the hook 315 to pull the handle 21, so as to pull the battery rack 2, the battery rack 2 is enabled to retreat from the transfer rack 1, and enters the feeding platform 32 through the transfer board 321, and automatic discharging is achieved.

When the battery rack 2 on the feeding platform 32 needs to be pushed to the transfer rack 1, the driving motor 41 is controlled to enable the hook 315 to push the battery rack 2 to enter the transfer rack 1, so that automatic feeding is realized.

The above-described embodiments are merely preferred embodiments of the present invention, which are not intended to limit the present invention in any way. Those skilled in the art can make further changes and modifications to the invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the invention. Therefore, the content of the technical scheme of the utility model, according to the equivalent change made by the idea of the utility model, should be covered in the protection scope of the utility model.

Claims (6)

1. The utility model provides an automatic discharging device of small-size cylinder battery ization becomes partial volume check out test set which characterized in that: comprises a transfer frame (1), a battery frame (2) and a feeding trolley (3), wherein a sliding guide rail is arranged on the transfer frame (1) and is used for being in sliding connection with the battery frame (2), a handle (21) is arranged on the battery rack (2), a feeding platform (32) is formed on the top surface of the feeding trolley (3), the top surface of the feeding platform (32) is level with the top surface of the middle rotating frame (1), the left side and the right side of the feeding platform (32) are both provided with a conveying belt (31), the conveying belt (31) is fixedly connected with a translation seat (311), a translation frame (312) is connected between the two translation seats (311), a feeding motor (313) is arranged on the translation frame (312), the feeding motor (313) is connected with a swing arm (314), the free end of the swing arm (314) is connected with a hook (315), and the feeding motor (313) drives the swing arm (314) to swing downwards so that the hook (315) is connected with the handle (21) in a hanging and buckling mode;

the bottom of the feeding trolley (3) is rotatably connected with a plurality of rollers (33), a plurality of vertically extending sliding channels (34) are formed in the feeding trolley (3), a pressing block (341) is arranged in each sliding channel (34) and used for downward abutting and pressing the rollers (33), a limiting boss (343) is formed in each sliding channel (34), a limiting flange (342) is formed on the outer side wall of each pressing block (341), each limiting flange (342) is located above each limiting boss (343), a return spring (345) is connected between each limiting boss (343) and each limiting flange (342), a pushing channel (35) communicated with each sliding channel (34) is formed at the top end of each sliding channel (34), a pushing wedge block (351) is arranged in each pushing channel (35), an inclined surface is formed at the end of each pushing wedge block (351), and the pushing wedge blocks (351) are pushed to advance to push the pressing blocks (341) to move downwards to press and clamp the rollers (34) downwards A wheel (33).

2. The automatic discharging device of a small cylindrical battery formation and capacity detection device according to claim 1, wherein: the conveying belt is characterized by further comprising a driving motor (41), a driving reduction gearbox, a driving wheel (42), a plurality of driven wheels (43) and a transmission belt (44), the conveying belt (31) is connected with the driven wheels (43) in a rolling mode, the driving motor (41) is connected with the driving reduction gearbox, the driving reduction gearbox is connected with the driving wheel (42), and the driving wheel (42) is connected with one driven wheel (43) through the transmission belt (44).

3. The automatic discharging device of a small cylindrical battery formation and capacity detection device according to claim 1, wherein: the feeding motor (313) is connected with a feeding reduction box (316), and the feeding reduction box (316) is connected with the swing arm (314).

4. The automatic discharging device of a small cylindrical battery formation and capacity detection device according to claim 1, wherein: the side wall of the feeding trolley (3) is provided with a first through hole (352), a second through hole (353) is formed in the side wall of the propelling wedge block (351) opposite to the first through hole (352), meanwhile, a limiting rod (354) is arranged in the first through hole (352), the second through hole (353) is gradually narrowed along the insertion direction of the limiting rod (354), and the limiting rod (354) sequentially passes through the first through hole (352) and the second through hole (353) to push the propelling wedge block (351) to advance.

5. The automatic discharging device of a small cylindrical battery formation and capacity detection device according to claim 1, wherein: and a transfer plate (321) extends from the opposite side of the feeding platform (32) and the transfer frame (1).

6. The automatic discharging device of a small cylindrical battery formation and capacity detection device according to claim 1, wherein: the middle rotating frame (1) is provided with a limiting block (12) for limiting the movement of the battery frame (2).

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