CN215922668U

CN215922668U - Automatic cylindrical battery boxing structure

Info

Publication number: CN215922668U
Application number: CN202121118768.0U
Authority: CN
Inventors: 万海斌; 龙城胜; 汪锦
Original assignee: Dongguan Weisheng Automation Equipment Co ltd
Current assignee: Dongguan Weisheng Automation Equipment Co ltd
Priority date: 2021-05-24
Filing date: 2021-05-24
Publication date: 2022-03-01
Anticipated expiration: 2031-05-24

Abstract

The utility model discloses an automatic cylindrical battery boxing structure which comprises a feeding transmission mechanism for feeding cylindrical batteries, a charging box mechanism arranged on one side of the feeding transmission mechanism and a boxing and pushing mechanism for pushing the cylindrical batteries of the feeding transmission mechanism into the boxing and pushing mechanism, wherein the feeding transmission mechanism is provided with a feeding channel, the charging box mechanism is provided with a charging box for stacking the cylindrical batteries up and down, one side or the upper part of the feeding channel is provided with a material blocking mechanism, the material blocking mechanism comprises a material blocking side plate and a material blocking driving cylinder for driving the material blocking side plate to extend into or withdraw from the feeding channel, and the tail end of the feeding channel is also provided with a dislocation stop plate and a dislocation stop cylinder for driving the dislocation stop plate to retreat. According to the cylindrical battery automatic boxing device, automatic boxing of cylindrical batteries is realized, and the cylindrical batteries are stacked in rows in the charging box in a staggered manner from top to bottom, so that the charging structure is higher in consistency and more stable, the loading rate is higher, and the material taking is more convenient.

Description

Automatic cylindrical battery boxing structure

Technical Field

The utility model relates to the technical field of cylindrical battery production lines, in particular to an automatic cylindrical battery boxing structure.

Background

When the existing cylindrical battery production line is used for grading cylindrical batteries, the cylindrical batteries are usually manually placed into corresponding material blocking grooves for storage, so that the operation efficiency is low, the manual production cost is high, and the improvement is needed.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide an automatic cylindrical battery boxing structure, which can automatically perform boxing on cylindrical batteries and enables the boxing of the cylindrical batteries to be higher in consistency, more stable and higher in loading rate.

In order to achieve the purpose, the utility model adopts the technical scheme that: the utility model provides an automatic cartoning structure of cylinder battery, it is including the material loading transmission device who is used for the material loading cylinder battery, set up in the magazine mechanism of material loading transmission device one side and be used for the dress box pushing equipment who pushes into the cylinder battery of material loading transmission device, material loading transmission device is provided with the material loading passageway, the magazine mechanism is installed and is used for piling up the magazine of cylinder battery from top to bottom, stock stop is installed to one side or top of material loading passageway, stock stop includes the fender curb plate and is used for driving the fender that the fender curb plate stretches into or withdraws from the material loading passageway and drives actuating cylinder, the end of material loading passageway still installs dislocation stop board and the dislocation stop cylinder that drives dislocation stop board and move back.

In a further technical scheme, the cartridge mechanism comprises a cartridge base and a lifting driving device for driving the cartridge base to move up and down, a charging opening is formed in one side of the cartridge, and the charging opening faces the charging channel at least when the cartridge is embedded in the cartridge base.

In a further technical scheme, the lifting driving device comprises an air cylinder mounting plate mounted on an external frame and a lifting driving air cylinder mounted on the air cylinder mounting plate, lifting and moving guide slide rails are respectively arranged on the left side and the right side of the air cylinder mounting plate, two sides of the boxing base are respectively slidably mounted on the lifting and moving guide slide rails, and the lifting driving air cylinder is connected to the boxing base through a driving transmission head in a driving mode.

In a further technical scheme, the boxing and pushing mechanism comprises a transversely extending pushing plate and a pushing driving cylinder connected to the pushing plate, and the pushing driving cylinder is used for driving the pushing plate to push the cylindrical batteries in the feeding channel into the charging box.

In a further technical scheme, the feeding transmission mechanism selects a belt transmission mechanism, the front end of the feeding channel is set to be a feeding section, the rear end of the feeding channel is set to be a discharging end, the feeding transmission mechanism corresponds to the left side and the right side of the feeding section and is provided with a feeding baffle, and the feeding transmission mechanism corresponds to the discharging end and is provided with a discharging baffle above the discharging end.

In a further technical scheme, the discharge baffle and the feeding channel form a material pushing gap, and the material pushing plate is slidably mounted in the material pushing gap.

After adopting the structure, compared with the prior art, the utility model has the advantages that:

when charging, the material blocking driving cylinder drives the material blocking side plate to exit the feeding channel, the boxing and pushing mechanism pushes the cylindrical battery flowing into the feeding channel into the charging box, wherein when charging next time, the charging box moves downwards to one station, the dislocation blocking cylinder drives the dislocation blocking plate to extend out of the station of one cylindrical battery, namely, the material blocking side plate is pushed into the charging box by one less cylindrical battery, so that the cylindrical batteries are stacked in rows in the charging box and are vertically staggered, the charging structure is more stable, the loading rate is higher, and the material taking is more convenient.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of a loading and conveying mechanism and a boxing and pushing mechanism;

fig. 3 is a schematic structural view of the cartridge mechanism.

Detailed Description

The following are merely preferred embodiments of the present invention, and do not limit the scope of the present invention.

As shown in fig. 1 to 3, in order to achieve the above object, the present invention adopts the following technical solutions: the utility model provides an automatic cartoning structure of cylinder battery, it includes the material loading transmission device 1 that is used for the material loading cylinder battery, set up in the magazine mechanism 2 of material loading transmission device 1 one side and be used for the dress box pushing equipment 3 that pushes in the cylinder battery of material loading transmission device 1, material loading transmission device 1 is provided with material loading passageway 10, magazine mechanism 2 installs the magazine 20 that can reciprocate relatively to the material loading passageway and be used for piling up the cylinder battery from top to bottom, material stopping mechanism is installed to one side or top of material loading passageway 10, material stopping mechanism includes material stopping lateral plate 40 and is used for driving material stopping lateral plate 40 to stretch into or withdraw from material loading passageway 10 and keeps off material driving cylinder 41, the end of material loading passageway 10 still installs dislocation block board 50 and the dislocation block cylinder 51 that drives dislocation block board 50 and withdraw from the position. During charging, the material blocking driving cylinder 41 drives the material blocking side plate 40 to exit the charging channel 10, the boxing and pushing mechanism 3 pushes the cylindrical batteries flowing into the charging channel 10 into the charging box 20, wherein during next charging, the charging box 20 moves downwards to one station, and the dislocation blocking cylinder 51 drives the dislocation blocking plate 50 to extend out of one station of the cylindrical batteries, that is, the material blocking side plate 40 pushes one less cylindrical battery into the charging box 20, so that the cylindrical batteries are stacked in rows in the charging box 20 and are vertically staggered, the charging structure is more stable, the loading rate is higher, and the material taking is more convenient.

Preferably, as shown in fig. 3, the cartridge mechanism 2 includes a cassette housing base 21 and a lift driving device 22 for driving the cassette housing base 21 to move up and down, and one side of the cartridge 20 is provided with a charging opening facing the loading path 10 at least when the cartridge 20 is fitted to the cassette housing base 21. In the actual assembling process, the number of the cartridges 20 may be plural, and the cartridge 20 can be switched by turns after being fully loaded by the traverse driving mechanism for traversing the cartridge base 21 left and right.

The lifting driving device 22 comprises a cylinder mounting plate 220 mounted on an external frame and a lifting driving cylinder 221 mounted on the cylinder mounting plate 220, the left side and the right side of the cylinder mounting plate 220 are respectively provided with a lifting moving guide slide rail 222, two sides of the boxing base 21 are respectively slidably mounted on the lifting moving guide slide rails 222, and the lifting driving cylinder 221 is connected to the boxing base 21 through driving of a driving transmission head.

Preferably, the cartoning and pushing mechanism 3 includes a transversely extending pushing plate 30 and a pushing driving cylinder 31 connected to the pushing plate 30, and the pushing driving cylinder 31 is used for driving the pushing plate 30 to push the cylindrical batteries in the loading channel 10 into the magazine 20.

As the preferable scheme of the utility model, the feeding transmission mechanism 1 adopts a belt transmission mechanism, so that the cylindrical battery cannot be scratched, and the transmission speed can be regulated and controlled. The front end of the feeding channel 10 is set to be a feeding section, the rear end is set to be a discharging end, the feeding baffle plates 11 are arranged on the left side and the right side of the feeding transmission mechanism 1 corresponding to the feeding section, and the feeding baffle plates 11 prevent the cylindrical battery from sliding out of the feeding channel in the feeding transmission process.

The discharging baffle plate 12 is arranged above the discharging end corresponding to the feeding transmission mechanism 1, a material pushing gap is formed between the discharging baffle plate 12 and the feeding channel 10, the material pushing plate 30 is slidably mounted in the material pushing gap, the cylindrical batteries positioned at the middle section are prevented from being stacked together under stress in the material pushing process of the material blocking side plate 40, and the charging stability is improved.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims

1. The utility model provides an automatic cartoning structure of cylinder battery which characterized in that: comprises a feeding transmission mechanism (1) for feeding cylindrical batteries, a charging box mechanism (2) arranged on one side of the feeding transmission mechanism (1) and a boxing and pushing mechanism (3) for pushing the cylindrical batteries of the feeding transmission mechanism (1), the feeding conveying mechanism (1) is provided with a feeding channel (10), the charging box mechanism (2) is provided with a charging box (20) which can move up and down relative to the feeding channel and is used for stacking cylindrical batteries up and down, a material blocking mechanism is arranged on one side or above the feeding channel (10) and comprises a material blocking side plate (40) and a material blocking driving cylinder (41) which is used for driving the material blocking side plate (40) to stretch into or withdraw from the feeding channel (10), and the tail end of the feeding channel (10) is further provided with a dislocation stop plate (50) and a dislocation stop cylinder (51) which drives the dislocation stop plate (50) to withdraw.

2. The automatic cylindrical battery boxing structure of claim 1, wherein: the cartridge mechanism (2) comprises a cartridge base (21) and a lifting driving device (22) for driving the cartridge base (21) to move up and down, one side of the cartridge (20) is provided with a charging opening, and the charging opening faces the charging channel (10) at least when the cartridge (20) is embedded in the cartridge base (21).

3. The automatic cylindrical battery boxing structure of claim 2, wherein: the lifting driving device (22) comprises a cylinder mounting plate (220) mounted on an external frame and a lifting driving cylinder (221) mounted on the cylinder mounting plate (220), lifting guide sliding rails (222) are respectively arranged on the left side and the right side of the cylinder mounting plate (220), two sides of the boxing base (21) are respectively slidably mounted on the lifting guide sliding rails (222), and the lifting driving cylinder (221) is connected to the boxing base (21) through a driving transmission head in a driving mode.

4. The automatic cylindrical battery boxing structure of claim 1, wherein: the boxing and pushing mechanism (3) comprises a transversely extending pushing plate (30) and a pushing driving cylinder (31) connected to the pushing plate (30), wherein the pushing driving cylinder (31) is used for driving the pushing plate (30) to push the cylindrical batteries in the feeding channel (10) into the charging box (20).

5. The automatic cylindrical battery boxing structure of claim 4, wherein: belt transmission device is selected for use in material loading transmission device (1), the front end of material loading passageway (10) sets to the material loading section, the rear end sets to the discharge end, and material loading baffle (11) have been installed to the left and right sides that material loading transmission device (1) corresponds the material loading section, and discharge baffle (12) have been installed to the top that material loading transmission device (1) corresponds the discharge end.

6. The automatic cylindrical battery boxing structure of claim 5, wherein: the discharging baffle (12) and the feeding channel (10) form a pushing gap, and the material pushing plate (30) is slidably mounted in the pushing gap.