CN219044438U - Automatic bagging mechanism for battery - Google Patents

Abstract

The utility model discloses an automatic battery bagging mechanism which comprises a fixed support, a material sucking component, a bag opening component and a bag entering component, wherein the fixed support is connected with a moving plate, the moving plate is driven to move through a driving piece, the bag opening component and the bag entering component are respectively arranged on the moving plate, the bag opening component is positioned below the bag entering component, a material frame is further arranged on the moving plate, the material sucking component is arranged on the fixed support, and a battery in the material frame is sucked and placed into the bag entering component. According to the automatic battery bagging mechanism, the sucking component is used for sucking the battery in the material frame, meanwhile, the bag opening component is used for clamping the conveyed packaging bag, the sucking component is used for placing the battery into the bag entering component, the bag entering component moves downwards to open two sides of the packaging bag and enable the battery to freely fall into the packaging bag, so that automatic bagging of the battery is achieved, finally, the bagging process of the battery is reasonable and smooth, and meanwhile, the packaging efficiency of the battery can be improved by adopting an automatic bagging mode.

Description

Automatic bagging mechanism for battery

Technical Field

The utility model relates to the field of automatic packaging equipment, in particular to an automatic battery bagging mechanism.

Background

After the production of the single cells is completed, one or a plurality of single cells need to be packaged by plastic bags or paper bags for transportation, storage or vending.

At present, when a battery is packaged, manual operation is generally adopted, a packaging bag is firstly opened manually, then the battery is put into the packaging bag, and finally the opening of the packaging bag is heat-sealed, so that the battery is packaged. Because the battery is packed into the wrapping bag and adopts manual operation's mode, and the cost of labor is high, and intensity of labour is big, consequently, causes the manufacturing cost increase of enterprise, simultaneously, because adopt artifical packing to make the packing efficiency of battery lower, consequently, a mechanism that can put into the wrapping bag with the battery voluntarily is needed to the needs.

Disclosure of Invention

The utility model aims to provide an automatic battery bagging mechanism which is reasonable in design and can improve packaging efficiency.

In order to solve the technical problems, the utility model can be realized by adopting the following technical scheme:

the utility model provides an automatic bag mechanism of going into of battery, includes fixed bolster, inhales the material subassembly, opens the bag subassembly and go into the bag subassembly, fixed bolster is connected with the movable plate, and the movable plate drives through the driving piece and removes, it sets up respectively on the movable plate to open the bag subassembly and go into the bag subassembly, and opens the below that the bag subassembly is located into the bag subassembly, still is equipped with the material frame on the movable plate, the material frame is located one side of going into the bag subassembly, inhale the material subassembly and locate the fixed bolster to with the battery in the material frame absorb and put into the bag subassembly.

In one embodiment, the material sucking component comprises a motor, a sliding block and an adsorption rod, wherein the sliding block is connected with the motor, the motor drives the sliding block to move, and the adsorption rod is connected with the sliding block and moves along with the sliding block.

In one embodiment, the bag opening assembly comprises two groups of bag opening units, the two groups of bag opening units are oppositely arranged, the bag opening units comprise sucking discs and clamping pieces, the sucking discs and the clamping pieces are connected with threaded air cylinders, and the threaded air cylinders drive the sucking discs and the clamping pieces to stretch out and draw back.

In one embodiment, clamping pieces are respectively arranged on two sides of the sucker, and the clamping pieces on two sides are connected with first driving air cylinders which drive the clamping pieces on two sides to move oppositely or back to back.

In one embodiment, the bag feeding assembly comprises a second driving cylinder, a mounting seat, a bag feeding unit and a bag feeding nozzle, wherein the second driving cylinder is connected with the mounting seat and drives the mounting seat to move, the bag feeding unit is arranged on the mounting seat, the bag feeding nozzle is funnel-shaped and comprises two oppositely arranged opening and closing clamps, one ends of the two opening and closing clamps are connected with the bag feeding unit, and the bag feeding unit drives the other ends of the two opening and closing clamps to open or close.

In one embodiment, the bag-entering unit comprises a third driving cylinder and a rotating block, a rotating shaft is arranged at one end of the rotating block, the rotating shaft penetrates into the mounting seat to be connected with one end of the opening and closing clamp, the other end of the rotating block is connected with the third driving cylinder, and the third driving cylinder drives the rotating block to swing, so that the rotating shaft rotates.

In one embodiment, the opening and closing clamp is arranged on the rotating shaft, and a fastening hole is formed at the sleeving position.

The beneficial effects are that:

according to the automatic battery bagging mechanism, in an initial state, the material sucking assembly, the bag feeding assembly and the bag opening assembly are arranged up and down in sequence, after a battery is conveyed to the material frame, the driving member drives the moving plate to move, so that the material frame is arranged below the material sucking assembly, the material sucking assembly sucks the battery in the material frame, meanwhile, the bag opening assembly clamps the conveyed packaging bag, after the battery is sucked and the packaging bag is clamped, the driving member drives the moving plate to reset, after reset, the bag opening assembly sucks the opening of the packaging bag, the material sucking assembly puts the battery into the bag feeding assembly, the bag feeding assembly moves downwards, the two sides of the packaging bag are opened, and the battery falls into the packaging bag freely, so that automatic bag feeding of the battery is achieved, finally, the bag feeding process of the battery is reasonable and smooth, and meanwhile, the packaging efficiency of the battery can be improved by adopting an automatic bag feeding mode.

Drawings

FIG. 1 is a schematic view of an automatic battery bagging mechanism according to the present utility model;

FIG. 2 is a schematic view of a material frame structure of the automatic battery bagging mechanism;

FIG. 3 is a schematic view of a material sucking assembly of the automatic battery bagging mechanism of the utility model;

FIG. 4 is a schematic view of the bag opening assembly of the automatic battery bag-in mechanism of the present utility model;

FIG. 5 is a schematic view of a bag-in assembly of the automatic bag-in mechanism of the battery of the present utility model;

fig. 6 is a schematic diagram of a bag-in assembly of the automatic bag-in mechanism for batteries according to the present utility model.

As shown in the accompanying drawings:

100. a fixed support;

200. a suction assembly; 210. a motor; 220. a sliding block; 230. an adsorption rod;

300. a bag opening assembly; 310. a bag opening unit; 311. a suction cup; 312. a clamping member; 313. a threaded cylinder; 314. a first driving cylinder;

400. a bagging assembly; 410. a second driving cylinder; 420. a mounting base; 430. a bagging unit; 431. a third driving cylinder; 432. a rotating block; 433. a rotating shaft; 440. a bag inlet nozzle; 441. opening and closing the clamp; 442. a fastening hole;

500. a moving plate;

600. a driving member;

700. and (5) a material frame.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, an automatic battery bagging mechanism comprises a fixed support 100, a material sucking assembly 200, a bag opening assembly 300 and a bag filling assembly 400, wherein the fixed support 100 is connected with a moving plate 500, the moving plate 500 is driven to move by a driving piece 600, the bag opening assembly 300 and the bag filling assembly 400 are respectively arranged on the moving plate 500, the bag opening assembly 300 is positioned below the bag filling assembly 400, a material frame 700 is further arranged on the moving plate 500, the material frame 700 is positioned on one side of the bag filling assembly 400, the material sucking assembly 200 is arranged on the fixed support 100, and a battery in the material frame 700 is sucked and placed into the bag filling assembly 400.

Specifically, the bagging mechanism in this embodiment is mainly composed of a fixed support 100, a material sucking assembly 200, a material frame 700, a bag opening assembly 300 and a bag entering assembly 400, which are arranged on a moving plate 500, in the initial state, the material sucking assembly 200, the bag entering assembly 400 and the bag opening assembly 300 are arranged in an upper and lower mode, the material frame 700 is located at one side of the bag entering assembly 400, when a battery is automatically bagged, the battery is firstly conveyed to the material frame 700 through a previous process, then a driving member 600 drives a moving plate 500 to move, the material frame 700 is moved to the lower side of the material sucking assembly 200, meanwhile, the bag opening assembly 300 is moved to a packaging bag, the material sucking assembly 200 sucks the battery in the material frame 700, meanwhile, the bag opening assembly 300 clamps the packaging bag, after the battery is sucked and clamped, the driving member 600 drives the moving plate 500 to reset, the bag entering assembly 400 is located below the material sucking assembly 200 again, at the moment, the middle of the bag opening assembly 300 sucks the fetched middle portion, the battery is automatically placed in the bag sucking assembly 200, the battery is automatically placed in the bag, and the two sides of the bag can be automatically opened, the efficiency of the battery can be further reasonably and the bag can be automatically pulled, and the efficiency of the bag can be further improved, and the automatic bag can be further and the bag can be automatically and freely and flexibly pulled into the bag.

Referring to fig. 3, after the battery is transferred to the material frame 700 by the previous process, the material sucking assembly 200 needs to suck the battery in the material frame 700 and place the sucked battery into the bag entering assembly 400, and for convenience in sucking and placing the battery, therefore, the material sucking assembly 200 in this embodiment includes a motor 210, a sliding block 220 and an adsorption rod 230, the sliding block 220 is connected with the motor 210, the motor 210 drives the sliding block 220 to move, the adsorption rod 230 is connected with the sliding block 220 and moves along with the sliding block 220, and the structure that the motor 210 drives the sliding block 220 to move can adopt a belt transmission in the prior art.

After the driving piece 600 drives the moving plate 500 to move, the moving plate 500 drives the material frame 700 to move below the material sucking assembly 200, at this time, the motor 210 drives the sliding block 220 to move downwards, so that the sucking rod 230 moves downwards, after the sucking rod 230 moves to a position, a battery in the material frame 700 is sucked, after sucking, the motor 210 drives the sliding block 220 to move upwards to a set position with the sucking rod 230, the rear driving piece 600 drives the moving plate 500 to reset, so that the bag entering assembly 400 returns to the lower part of the material sucking assembly 200, and the motor 210 drives the sliding block 220 to move downwards with the sucking rod 230, so that the sucked battery is placed in the bag entering assembly 400, thereby completing sucking and placing of the battery, realizing automatic carrying of the battery and improving the bag entering efficiency of the battery.

Referring to fig. 4, since the packaging bag needs to be opened when the battery is put into the bag, in this embodiment, the bag opening assembly 300 includes two sets of bag opening units 310, the two sets of bag opening units 310 are disposed opposite to each other, the bag opening units 310 include a suction cup 311 and a clamping member 312, the suction cup 311 and the clamping member 312 are connected with a threaded cylinder 313, the threaded cylinder 313 drives the suction cup 311 and the clamping member 312 to stretch and retract, the clamping members 312 are respectively disposed on two sides of the suction cup 311, and the clamping members 312 on two sides are also connected with a first driving cylinder 314, and the first driving cylinder 314 drives the clamping members 312 on two sides to move in opposite directions or back to back.

When the driving member 600 drives the moving plate 500 to move, the bag opening assembly 300 can be moved to the packaging bag feeding position, the clamping members 312 in the two groups of bag opening units 310 can be driven by the threaded air cylinders 313 to clamp packaging bags at the feeding position, after the packaging bags are clamped, the driving member 600 drives the moving plate 500 to reset, after the moving plate is reset, the suckers 311 of the two groups of bag opening units 310 can be driven by the threaded air cylinders 313 to suck the middle parts of the packaging bags outwards, at the moment, the batteries can directly fall into the packaging bags by the bag opening assembly, and finally, the clamping members 312 clamp the packaging bags and the suckers 311 automatically open the packaging bags, so that the automatic bag feeding of the batteries is realized, and the packaging efficiency of the batteries is improved.

In addition, in order to facilitate clamping of the packaging bags with different sizes, therefore, the clamping pieces 312 on two sides are connected with the first driving air cylinder 314, and the clamping pieces 312 on two sides are driven to move in opposite directions or back to back through the first driving air cylinder 314, so that the distance between the clamping pieces 312 on two sides is adjusted, the clamping pieces are matched with the packaging bags with different sizes, clamping of the packaging bags with different sizes is facilitated, and the applicability of a bag feeding mechanism is improved.

Referring to fig. 5 and 6, in order to make the battery reasonably smooth when being put into the packaging bag, the bag-in assembly 400 of the present embodiment includes a second driving cylinder 410, a mounting seat 420, a bag-in unit 430 and a bag-in nozzle 440, wherein the second driving cylinder 410 is connected with the mounting seat 420 and drives the mounting seat 420 to move, the bag-in unit 430 is disposed on the mounting seat 420, the bag-in nozzle 440 is funnel-shaped and includes two oppositely disposed open-close clamps 441, one ends of the two open-close clamps 441 are connected with the bag-in unit 430, the bag-in unit 430 drives the other ends of the two open-close clamps 441 to open or close,

the bag-in unit 430 includes a third driving cylinder 431 and a rotating block 432, wherein a rotating shaft 433 is disposed at one end of the rotating block 432, the rotating shaft 433 penetrates into the mounting seat 420 to be connected with one end of the opening and closing clamp 441, the other end of the rotating block 432 is connected with the third driving cylinder 431, and the third driving cylinder 431 drives the rotating block 432 to swing, thereby rotating the rotating shaft 433.

When the suction assembly 200 sucks and places the battery into the bag assembly 400, since the bag inlet nozzle 440 in the bag assembly 400 is funnel-shaped, the battery cannot directly fall into the packaging bag after being transversely placed into the bag assembly 400, at this time, the second driving cylinder 410 can drive the mounting seat 420 to move downwards, the end part of the opening and closing clamp 441 of the bag inlet nozzle 440 is inserted into the side edge of the packaging bag, then the third driving cylinder 431 is started to drive one end of the rotating block 432 to rotate, the rotating block 432 can drive the rotating shaft 433 to rotate along with the rotating shaft 433 when rotating, the opening and closing clamp 441 is driven to swing, the two opening and closing clamps 441 are inserted into one end of the packaging bag to open two side edges of the packaging bag, at this time, the battery can directly fall into the packaging bag, thereby realizing automatic bag inlet of the battery, and reasonable and smooth bag inlet process of the battery.

In addition, the bag mouth 440 of the present embodiment is funnel-shaped, so that two opening and closing blocks 441 can be conveniently inserted into the packaging bag, and two sides can be opened, so that the process of filling the battery into the bag is smooth.

Referring to fig. 5, as the batteries with different sizes need to be packaged by adopting the packaging bags with different sizes, in order to facilitate the bag inlet nozzle 440 to adapt to the batteries with different sizes and the packaging bags, the opening and closing clamp 441 is sleeved on the rotating shaft 433, the fastening hole 442 is formed at the sleeved position, meanwhile, the fastening nut is arranged in the fastening hole 442, and the angle of the opening and closing clamp 441 is adjusted by screwing the fastening nut, so that the taper of the funnel-shaped bag inlet nozzle 440 is adjusted, and finally, the bag inlet nozzle 440 is convenient to adapt to the batteries with different sizes and the packaging bags, the applicability of the bag inlet mechanism is improved, and meanwhile, the bag inlet process of the batteries is reasonable and smooth.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. Those skilled in the art can practice the utility model smoothly as shown in the drawings and described above; however, those skilled in the art will appreciate that many modifications, adaptations, and variations of the present utility model are possible in light of the above teachings without departing from the scope of the utility model; meanwhile, any equivalent changes, modifications and evolution of the above embodiments according to the essential technology of the present utility model still fall within the scope of the present utility model.

Claims (7)

1. Automatic bagging mechanism of going into of battery, its characterized in that: including fixed bolster, inhale material subassembly, open the bag subassembly and go into the bag subassembly, fixed bolster is connected with the movable plate, and the movable plate drives through the driving piece and removes, open the bag subassembly and go into the bag subassembly and set up respectively on the movable plate, and open the below that the bag subassembly is located into the bag subassembly, still be equipped with the material frame on the movable plate, the material frame is located one side of going into the bag subassembly, inhale material subassembly and locate the fixed bolster to with the battery in the material frame absorb and put into the bag subassembly.

2. The automatic battery bagging mechanism according to claim 1, wherein: the suction assembly comprises a motor, a sliding block and a suction rod, wherein the sliding block is connected with the motor, the motor drives the sliding block to move, and the suction rod is connected with the sliding block and moves along with the sliding block.

3. The automatic battery bagging mechanism according to claim 1, wherein: the bag opening assembly comprises two groups of bag opening units, the two groups of bag opening units are oppositely arranged, the bag opening units comprise suckers and clamping pieces, the suckers and the clamping pieces are connected with threaded air cylinders, and the threaded air cylinders drive the suckers and the clamping pieces to stretch out and draw back.

4. The automatic battery bagging mechanism according to claim 3, wherein: clamping pieces are respectively arranged on two sides of the sucker, and the clamping pieces on two sides are connected with first driving air cylinders which drive the clamping pieces on two sides to move oppositely or back to back.

5. The automatic battery bagging mechanism according to claim 1, wherein: the bag feeding assembly comprises a second driving cylinder, a mounting seat, a bag feeding unit and a bag feeding nozzle, wherein the second driving cylinder is connected with the mounting seat and drives the mounting seat to move, the bag feeding unit is arranged on the mounting seat, the bag feeding nozzle is funnel-shaped and comprises two oppositely arranged opening and closing clamps, one ends of the two opening and closing clamps are connected with the bag feeding unit, and the bag feeding unit drives the other ends of the two opening and closing clamps to open or close.

6. The automatic battery bagging mechanism according to claim 5, wherein: the bag feeding unit comprises a third driving cylinder and a rotating block, a rotating shaft is arranged at one end of the rotating block, the rotating shaft penetrates into the mounting seat to be connected with one end of the opening and closing clamp, the other end of the rotating block is connected with the third driving cylinder, and the third driving cylinder drives the rotating block to swing, so that the rotating shaft rotates.

7. The automatic battery bagging mechanism according to claim 6, wherein: the opening and closing clamp is arranged on the rotating shaft, and a fastening hole is formed in the sleeving part.

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