CN219729429U - Conveyer belt baffle device for square battery cell sorting - Google Patents

Abstract

The utility model discloses a conveyor belt baffle device for square cell sorting, which comprises a transmission line and an adjusting device; the transmission line comprises a frame body, a driving part and a conveyor belt; the driving part is used for driving the conveyor belt arranged in the frame body; the adjusting device comprises a first adjusting part and a clearance adjusting part; the first adjusting part is arranged outside the frame body and is positioned on the same plane with the driving part; the gap adjusting part comprises a vertical adjusting end, a horizontal adjusting end, a first roller baffle and a second roller baffle; the vertical adjusting end is arranged at one end, far away from the driving part, of the frame body, and the vertical adjusting end is used for adjusting the position height of the horizontal adjusting end. The problem of among the prior art transport line, all not set up corresponding anti-toppling mechanism, lead to the high back of cell height of transportation, can take place to topple over in the transmission process to seriously influenced equipment transportation efficiency's technical problem.

Description

Conveyer belt baffle device for square battery cell sorting

Technical Field

The utility model relates to the technical field of production lines, in particular to a conveyor belt baffle device for square cell sorting.

Background

The performance and the service life of the power battery system are directly related to the consistency of single battery cells formed by the system, wherein the consistency comprises the capacity, the voltage and the internal resistance of the battery cells; for the same type of battery cell, the battery cell with poor consistency can cause a short-circuit effect, so that the overall performance and service life of a battery system are reduced, and the control of the consistency of the battery cell is necessary;

in the chinese patent application CN112058670a, a "lithium battery sorting device and a lithium battery production line" are proposed, and the device can improve the screening efficiency of the battery in the transportation process, thereby improving the production efficiency of the battery; the application discloses a transportation line in a file, but the transportation line is not provided with a corresponding anti-toppling structure, and because the battery cells have various specifications and different sizes, the battery cell sorting equipment in the prior art can only be compatible in the thickness direction, and if the height of the battery cells is too high, toppling can occur in the transportation process, thereby seriously affecting the whole sorting efficiency of the equipment;

to this end, we propose a conveyor belt baffle device for square cell sorting.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a conveyor belt baffle device for sorting square battery cells, which solves the technical problems that the conveying line in the prior art is not provided with a corresponding anti-toppling mechanism, so that the conveyed battery cells can topple in the conveying process after the height of the conveyed battery cells is too high, and the conveying efficiency of equipment is seriously influenced.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

a conveyer belt baffle device for square cell sorting comprises a transmission line and an adjusting device;

the transmission line comprises a frame body, a driving part and a conveyor belt; the driving part is used for driving the conveyor belt arranged in the frame body;

the adjusting device comprises a first adjusting part and a clearance adjusting part; the first adjusting part is arranged outside the frame body and is positioned on the same plane with the driving part;

the adjusting device comprises a first adjusting part, a gap adjusting part, a first roller baffle and a second roller baffle; the first adjusting part is arranged outside the frame body and is positioned on the same plane with the driving part;

the gap adjusting part comprises a vertical adjusting end and a horizontal adjusting end; the vertical adjusting end is arranged at one end of the frame body, which is far away from the driving part, and is used for adjusting the position height of the horizontal adjusting end; the first adjusting part and the horizontal adjusting end are respectively connected with the first roller baffle and the second roller baffle, and the horizontal adjusting end is used for adjusting the distance between the second roller baffle and the first roller baffle.

In a specific embodiment, the frame body is provided with a groove, the conveying belt is arranged in the groove, and the position height of the conveying belt is smaller than the side wall height of the groove.

In a specific embodiment, the driving part comprises a driving motor and a transmission roller; the driving motor is arranged outside the frame body, the output end of the driving motor is connected with the transmission roller, the tail end of the transmission roller extends into the groove of the frame body, is positioned in the groove and is in transmission connection with the conveying belt on the transmission roller.

In a specific embodiment, the first adjusting part comprises a first vertical electric sliding rail, a first electric sliding block and a connecting plate; the first vertical electric sliding rail is fixed on the outer wall of the frame body and is in the same plane with the driving part, the first electric sliding block is connected to the first vertical electric sliding rail in a sliding mode, the connecting plate is fixed on the first electric sliding block, and the tail end of the connecting plate is connected with the first roller baffle.

In a specific embodiment, the vertical adjusting end comprises a second vertical electric sliding rail, a second electric sliding block and a supporting plate; the second vertical electric sliding rail is fixed at one end of the frame body, which is opposite to the driving part, and is connected with the second electric sliding block in a sliding manner, the supporting plate is fixed on the second electric sliding block, and the horizontal adjusting end is connected on the supporting plate.

In a specific embodiment, the horizontal adjusting end comprises a third horizontal electric sliding rail, a third electric sliding block and a pushing block; the third horizontal electric sliding rail is arranged on the supporting plate, the third horizontal electric sliding rail is connected with the third electric sliding block in a sliding manner, the pushing block is fixed on the third electric sliding block, and the second roller baffle is connected on the pushing block.

In a specific embodiment, the surface of the conveyor belt is provided with anti-slip lines, and the anti-slip lines are any one of strip lines or grid lines.

In a specific embodiment, a plurality of reinforcing ribs are equidistantly arranged on the supporting plate.

In a specific embodiment, the connecting plate is an L-shaped plate body.

In a specific embodiment, the number of the driving motors is at least two.

Compared with the prior art, the utility model has the beneficial effects that:

1. compared with the prior art, the utility model can enable the transportation line to be compatible with battery cells with various dimensions in thickness and height at the same time so as to improve the universality of equipment, and secondly, the adjusting device has higher mechanical degree, does not need manual operation, can effectively reduce manual intervention, thereby improving the production efficiency, and can drive the adjusting device to adjust the distance between the first roller baffle and the second roller baffle according to the actual size of the battery cells when the battery cells are transported, thereby adapting to the battery cells with different heights and ensuring that the battery cells can be transported stably on a conveyor belt without toppling.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the structure of the gap adjusting section of the present utility model;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2;

FIG. 4 is an enlarged view of the utility model at B in FIG. 2;

fig. 5 is a schematic view of the structure of the first adjusting part in the present utility model.

In the figure: 1. a transmission line; 11. a frame body; 12. a driving section; 121. a driving motor; 122. a transmission roller; 13. a conveyor belt; 2. an adjusting device; 21. a first adjusting part; 211. a first vertical electric slide rail; 212. a first electric slider; 213. a connecting plate; 22. a gap adjusting section; 23. a vertical adjustment end; 231. the second vertical electric sliding rail; 232. the second electric sliding block; 233. a support plate; 24. a horizontal adjustment end; 241. the third horizontal electric sliding rail; 242. a third electric slider; 243. a pushing block; 25. a first roller shutter; 26. and a second roller shutter.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1, the conveyor belt baffle device for sorting square battery cells provided by the utility model comprises a transmission line 1 and an adjusting device 2.

The transmission line 1 includes a frame 11, a driving section 12, and a conveyor belt 13; the driving unit 12 drives a conveyor belt 13 provided in the frame 11.

The adjusting device 2 includes a first adjusting portion 21, a gap adjusting portion 22, a first drum shutter 25, and a second drum shutter 26; the first adjusting portion 21 is mounted outside the frame 11 and is located on the same plane as the driving portion 12.

The gap adjusting portion 22 includes a vertical adjusting end 23 and a horizontal adjusting end 24; the vertical adjusting end 23 is arranged at one end of the frame 11 far away from the driving part 12, and the vertical adjusting end 23 is used for adjusting the position height of the horizontal adjusting end 24; the first adjusting portion 21 and the horizontal adjusting end 24 are respectively connected with a first roller baffle 25 and a second roller baffle 26, and the horizontal adjusting end 24 is used for adjusting the distance between the second roller baffle 26 and the first roller baffle 25.

The driving part 12 drives the conveyor belt 13 inside the frame 11 to operate, the conveyor belt 13 can drive the battery core to horizontally move, when the battery core is required to be limited, the first adjusting part 21 is started, the first adjusting part 21 can perform lifting movement and is used for adjusting the position height of the first roller baffle 25 on the first adjusting part 21, the vertical adjusting end 23 in the gap adjusting part 22 can be used for adjusting the position height of the horizontal adjusting end 24, then the horizontal position of the second roller baffle 26 mounted on the surface of the battery core is adjusted through the horizontal adjusting end 24, and the situation that the battery core falls down is avoided by adjusting the distance between the first roller baffle 25 and the second roller baffle 26.

In order to improve the anti-toppling effect of the transmission line 1, referring to fig. 1, in a preferred embodiment, a groove is formed on the frame 11, a conveyor belt 13 is disposed in the groove, and the height of the conveyor belt 13 is smaller than the height of the side wall of the groove.

The upper surface of the conveyor belt 13 is lower than the height of the side wall of the groove, so that the bottom of the battery cell can be prevented from being deviated to be separated from the conveyor belt 13, and the battery cell sorting device is mainly used for conveying battery cells to be sorted.

To improve the driving efficiency of the driving portion 12, referring to fig. 1 and 5, in a preferred embodiment, the driving portion 12 includes a driving motor 121 and a transmission roller 122; the driving motor 121 is installed outside the frame 11, the output end of the driving motor 121 is connected with the transmission roller 122, the tail end of the transmission roller 122 extends into the groove of the frame 11, the transmission roller 122 is positioned in the groove and is in transmission connection with the conveyor belt 13, and the number of the driving motor 121 is at least two.

The transmission roller 122 is driven to operate by the driving motor 121, and the transmission belt 13 arranged on the outer peripheral surface can be driven to operate by the transmission roller 122, so that the effect of conveying the battery cells is achieved.

To improve the anti-toppling effect of the adjusting device 2 on the battery cell, referring to fig. 1 to 5, in a preferred embodiment, the first adjusting portion 21 includes a first vertical electric sliding rail 211, a first electric sliding block 212, and a connecting plate 213; the first vertical electric sliding rail 211 is fixed on the outer wall of the frame 11 and is positioned on the same plane with the driving part 12, a first electric sliding block 212 is connected to the first vertical electric sliding rail 211 in a sliding way, a connecting plate 213 is fixed on the first electric sliding block 212, the tail end of the connecting plate 213 is connected with a first roller baffle 25, and the vertical adjusting end 23 comprises a second vertical electric sliding rail 231, a second electric sliding block 232 and a supporting plate 233; the second vertical electric sliding rail 231 is fixed at one end of the frame 11, which is opposite to the driving part 12, a second electric sliding block 232 is connected to the second vertical electric sliding rail 231 in a sliding way, a supporting plate 233 is fixed on the second electric sliding block 232, a horizontal adjusting end 24 is connected to the supporting plate 233, and the horizontal adjusting end 24 comprises a third horizontal electric sliding rail 241, a third electric sliding block 242 and a pushing block 243; the third horizontal electric slide rail 241 is arranged on the support plate 233, the third horizontal electric slide rail 241 is connected with a third electric slide block 242 in a sliding way, a pushing block 243 is fixed on the third electric slide block 242, the pushing block 243 is connected with the second roller baffle 26, the surface of the conveyor belt 13 is provided with anti-skid lines, and the anti-skid lines are any one of strip lines or grid lines; a plurality of reinforcing ribs are equidistantly arranged on the supporting plate 233, and the connecting plate 213 is an L-shaped plate body.

The first roller baffle 25 and the second roller baffle 26, one of which is installed on the first adjusting part 21 and the other of which is installed on the horizontal adjusting end 24, can drive the connecting plate 213 to move upwards through the cooperation of the first vertical electric sliding rail 211 and the first electric sliding block 212, thereby realizing the adjustment of the height of the first roller baffle 25; through the cooperation of the vertical electronic slide rail 231 of second and the electronic slider 232 of second, can drive backup pad 233 and reciprocate, when backup pad 233 reciprocates, drive whole horizontal adjustment end 24 and carry out the altitude mixture control, through the cooperation of the electronic slide rail 241 of third level and the electronic slider 242 of third, adjust the horizontal position of pushing block 243, drive the second roller baffle 26 through pushing block 243 and carry out the horizontal adjustment, through adjusting the distance between first roller baffle 25 and the second roller baffle 26, realize the effect that the battery core prevents empting in the transportation, and through the cooperation between first roller baffle 25 and the second roller baffle 26, can reduce the friction between battery core and the baffle, be used for stabilizing the battery core, guarantee that the battery core can be transported steadily on conveyer 13, simultaneously through setting up the strip line on conveyer 13, frictional force between battery core bottom and the conveyer 13 can be strengthened, further strengthen the stability in the transportation.

For a better understanding of the present utility model, the operation of a conveyor belt baffle device for square cell sorting according to the present utility model is described in detail below with reference to fig. 1-5: in use, when the cells are placed on the conveyor belt 13;

when the adjusting device 2 needs to adapt to the height of the electric core, the first vertical electric sliding rail 211 and the first electric sliding block 212 are matched to drive the connecting plate 213 to move upwards, the second vertical electric sliding rail 231 and the second electric sliding block 232 are matched to drive the whole supporting plate 233 to move upwards, and as the horizontal adjusting end 24 is connected to the supporting plate 233, the first roller baffle 25 and the second roller baffle 26 are respectively fixed on the connecting plate 213 and the horizontal adjusting end 24, the electric core with different heights is adapted to by adjusting the position heights of the first roller baffle 25 and the second roller baffle 26, and the situation that the electric core falls down in the transportation process is avoided;

when the thickness of the electric core needs to be adapted, the third horizontal electric slide rail 241 and the third electric slide block 242 are started, the pushing block 243 is driven to horizontally move on the supporting plate 233 by the third electric slide block 242, so that the second roller baffle 26 is driven to move, the electric cores with different thicknesses are adapted by adjusting the distance between the first roller baffle 25 and the second roller baffle 26, and the adaptability of the conveying device is effectively improved.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims (10)

1. A conveyer belt baffle device for square electricity core is selected separately, its characterized in that: comprises a transmission line and an adjusting device;

the transmission line comprises a frame body, a driving part and a conveyor belt; the driving part is used for driving the conveyor belt arranged in the frame body;

the adjusting device comprises a first adjusting part, a gap adjusting part, a first roller baffle and a second roller baffle; the first adjusting part is arranged outside the frame body and is positioned on the same plane with the driving part;

the gap adjusting part comprises a vertical adjusting end and a horizontal adjusting end; the vertical adjusting end is arranged at one end of the frame body, which is far away from the driving part, and is used for adjusting the position height of the horizontal adjusting end; the first adjusting part and the horizontal adjusting end are respectively connected with the first roller baffle and the second roller baffle, and the horizontal adjusting end is used for adjusting the distance between the second roller baffle and the first roller baffle.

2. A conveyor belt baffle device for square cell sorting as in claim 1 wherein: the frame body is provided with a groove, the conveying belt is arranged in the groove, and the position height of the conveying belt is smaller than the side wall height of the groove.

3. A conveyor belt baffle device for square cell sorting as in claim 2 wherein: the driving part comprises a driving motor and a transmission roller; the driving motor is arranged outside the frame body, the output end of the driving motor is connected with the transmission roller, the tail end of the transmission roller extends into the groove of the frame body, is positioned in the groove and is in transmission connection with the conveying belt on the transmission roller.

4. A conveyor belt baffle device for square cell sorting as in claim 1 wherein: the first adjusting part comprises a first vertical electric sliding rail, a first electric sliding block and a connecting plate; the first vertical electric sliding rail is fixed on the outer wall of the frame body and is in the same plane with the driving part, the first electric sliding block is connected to the first vertical electric sliding rail in a sliding mode, the connecting plate is fixed on the first electric sliding block, and the tail end of the connecting plate is connected with the first roller baffle.

5. A conveyor belt baffle device for square cell sorting as in claim 1 wherein: the vertical adjusting end comprises a second vertical electric sliding rail, a second electric sliding block and a supporting plate; the second vertical electric sliding rail is fixed at one end of the frame body, which is opposite to the driving part, and is connected with the second electric sliding block in a sliding manner, the supporting plate is fixed on the second electric sliding block, and the horizontal adjusting end is connected on the supporting plate.

6. A conveyor belt baffle device for square cell sorting as in claim 5 wherein: the horizontal adjusting end comprises a third horizontal electric sliding rail, a third electric sliding block and a pushing block; the third horizontal electric sliding rail is arranged on the supporting plate, the third horizontal electric sliding rail is connected with the third electric sliding block in a sliding manner, the pushing block is fixed on the third electric sliding block, and the second roller baffle is connected on the pushing block.

7. A conveyor belt baffle device for square cell sorting as in claim 1 wherein: the surface of the conveyor belt is provided with anti-skid lines, and the anti-skid lines are any one of strip lines or grid lines.

8. A conveyor belt baffle device for square cell sorting as in claim 5 wherein: a plurality of reinforcing ribs are equidistantly arranged on the supporting plate.

9. A conveyor belt baffle device for square cell sorting as in claim 4 wherein: the connecting plate is an L-shaped plate body.

10. A conveyor belt baffle device for square cell sorting as in claim 3 wherein: the number of the driving motors is at least two.