CN213816222U - Buffer memory conveying device for battery production line - Google Patents

Abstract

The utility model belongs to the technical field of the battery apparatus for producing technique and specifically relates to a buffer memory conveyor for on battery production line, it includes that at least a set of first power is vice, the second power is vice, the conveying chain in first power is vice, the second power is vice can only place a tray in the width direction, when the tray is carried, the tray is from the last process completion back, get into buffer memory conveyor, the tray is placed in first power is vice, along tray direction of delivery, the tray on first power is vice can be carried to adjacent second power is vice, the tray on the second power can carry on adjacent first power is vice, until carrying to next process from buffer memory conveyor; this buffer memory conveyor can effectively guarantee tray FIFO, guarantees that battery production time control in process time, ensures the stability of battery performance, does benefit to the popularization.

Description

Buffer memory conveying device for battery production line

Technical Field

The utility model belongs to the technical field of the battery apparatus for producing technique and specifically relates to a buffer memory conveyor for on battery production line.

Background

In the production process of the battery, in order to ensure the normal operation between each device and reduce the downtime, a buffer conveying device needs to be arranged between every two devices, at present, the structure of the buffer conveying device which is commonly adopted on a production line is a disc type, the disc type buffer disc comprises a power shaft, a disc is arranged at the upper end of the power shaft, the tray does circular motion under the action of the disc after entering the disc, and an outlet of the buffer conveying device is arranged at the outer edge of the circumferential surface, so that the tray which is positioned at the innermost layer is not easy to be removed, the first-in first-out can not be realized, the tray is caused to be stored in the buffer conveying device for a long time, according to the production process flow of the battery, the production time of the battery in the production is less than or equal to 2 hours (the normal production time is 40 minutes), and the performance of the battery in the tray is seriously influenced after the battery is stored for a long time.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a buffer memory conveyor for on battery production line, buffer memory conveyor can effectively guarantee tray FIFO, guarantees that battery production time control ensures the stability of battery performance in process time.

The utility model provides a technical scheme that its technical problem adopted is: the buffer conveying device used on the battery production line comprises a rack, a first power transmission assembly, a second power transmission assembly, a buffer conveying assembly and a reversing assembly;

the buffer conveying assembly and the reversing assembly are arranged on the rack, and the reversing assembly is arranged above the buffer conveying assembly;

the buffer conveying assembly comprises a first power shaft, a second power shaft, at least one first driving wheel, at least one second driving wheel, at least one first driven wheel, at least one second driven wheel and at least two conveying chains, wherein the first power transmission assembly is connected with the first power shaft, and the second power transmission assembly is connected with the second power shaft;

the first power shaft and the second power shaft are arranged in parallel, the first driving wheel and the second driven wheel are arranged on the first power shaft at intervals in parallel, and the second driving wheel and the first driven wheel are arranged on the second power shaft at intervals in parallel;

a first driving wheel and a first driven wheel are connected through a conveying chain to form a first power pair, and the connected first driven wheels can rotate along with the first driving wheel; a second driving wheel and a second driven wheel are connected through a conveying chain to form a second power pair, and the connected second driven wheels can rotate along with the second driving wheel;

the reversing assembly comprises a first reversing plate and a second reversing plate, the first reversing plate and the second reversing plate are arranged on two sides of the rack, the inner side of the first reversing plate is at least provided with a first reversing groove, and the inner side of the second reversing plate is at least provided with a second reversing groove;

when the tray is carried, along tray direction of delivery, the tray on the first power is vice can lead to on the adjacent second power is vice through a first switching-over groove, and the tray on the second power is vice can lead to on the adjacent first power is vice through a second switching-over groove.

Furthermore, the first power transmission assembly comprises a first motor, a first belt transmission mechanism and a first protection shell, the first motor is connected with the first power shaft through the first belt transmission mechanism, and the first motor and the first belt transmission mechanism are arranged inside the first protection shell.

Furthermore, the second power transmission assembly comprises a second motor, a second belt transmission mechanism and a second protective shell, the second motor is connected with the second power shaft through the second belt transmission mechanism, and the second motor and the second belt transmission mechanism are arranged inside the first protective shell.

Furthermore, the first reversing plate and the second reversing plate are arranged in parallel, and the first reversing groove and the second reversing groove are arranged in parallel.

Further, the first reversing groove is arc-shaped, and the second reversing groove is arc-shaped.

Furthermore, a first magnetic piece is embedded on the inner surface of the first reversing groove, and a second magnetic piece is embedded on the inner surface of the second reversing groove.

Furthermore, the buffer conveying device also comprises two guide strips, wherein the guide strips are arranged above the buffer conveying component;

along tray direction of delivery, the length direction of gib block is the same with tray direction of delivery, and two mutual parallel arrangement of gib block are provided with the feed inlet on the gib block in the outside of frame, are provided with the discharge gate on another gib block.

Further, the buffer conveying device also comprises at least one guide plate, and the guide plate is arranged above the buffer conveying assembly;

the length direction of the guide plate is the same as the conveying direction of the tray, and a guide plate is arranged between the adjacent first power pair and the second power pair.

Furthermore, a guide plate is arranged on a central axis between the adjacent first power pair and the second power pair.

Furthermore, the distance between two adjacent guide plates is 1-3mm larger than the outer diameter of the conveying tray, and the distance between the guide strip and the guide plate closest to the guide strip is 1-3mm larger than the outer diameter of the conveying tray.

The utility model has the advantages that: the utility model discloses a buffer memory conveyor for on battery production line, including at least a set of first power pair, the second power is vice, only can place a tray in the width direction in the conveying chain in first power pair, the second power is vice, when the tray is carried, the tray is from the last process completion after, get into buffer memory conveyor, the tray is placed in first power is vice, along tray direction of delivery, the tray on the first power is vice can be carried to adjacent second power is vice, the tray on the second power is vice can carry on adjacent first power is vice, until carrying to next process from buffer memory conveyor; this buffer memory conveyor can effectively guarantee tray FIFO, guarantees that battery production time control in process time, ensures the stability of battery performance, does benefit to the popularization.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic diagram of a buffer transport assembly;

labeled as: the device comprises a rack 1, a first power transmission assembly 2, a second power transmission assembly 3, a buffer conveying assembly 4, a first power shaft 41, a second power shaft 42, a first driving wheel 43, a second driving wheel 44, a first driven wheel 45, a second driven wheel 46, a conveying chain 47, a reversing assembly 5, a first reversing plate 51, a first reversing groove 511, a first magnetic part 512, a second reversing plate 52, a second reversing groove 521, a guide strip 6, a feeding hole 61, a discharging hole 62 and a guide plate 7.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

As shown in fig. 1 and fig. 2, the buffer conveying device for battery production line of the present invention comprises a frame 1, a first power transmission assembly 2, a second power transmission assembly 3, a buffer conveying assembly 4, and a reversing assembly 5;

the buffer conveying component 4 and the reversing component 5 are both arranged on the rack 1, and the reversing component 5 is arranged above the buffer conveying component 4;

the buffer conveying assembly 4 comprises a first power shaft 41, a second power shaft 42, at least one first driving wheel 43, at least one second driving wheel 44, at least one first driven wheel 45, at least one second driven wheel 46 and at least two conveying chains 47,

the first power transmission assembly 2 is connected with the first power shaft 41, and the second power transmission assembly 3 is connected with the second power shaft 42;

the first power shaft 41 and the second power shaft 42 are arranged in parallel, the first driving wheel 43 and the second driven wheel 46 are arranged on the first power shaft 41 in parallel at intervals, and the second driving wheel 44 and the first driven wheel 45 are arranged on the second power shaft 42 in parallel at intervals;

a first driving wheel 43 and a first driven wheel 45 are connected through a conveying chain 47 to form a first power pair, and the connected first driven wheel 45 can rotate along with the first driving wheel 43; a second driving wheel 44 and a second driven wheel 46 are connected through a conveying chain 47 to form a second power pair, and the connected second driven wheel 46 can rotate along with the second driving wheel 44;

the reversing assembly 5 comprises a first reversing plate 51 and a second reversing plate 52, the first reversing plate 51 and the second reversing plate 52 are arranged on two sides of the frame 1, at least one first reversing groove 511 is arranged on the inner side of the first reversing plate 51, and at least one second reversing groove 521 is arranged on the inner side of the second reversing plate 52;

when the tray is conveyed, along the conveying direction of the tray, the tray on the first power pair can be guided to the adjacent second power pair through the first reversing groove 511, and the tray on the second power pair can be guided to the adjacent first power pair through the second reversing groove 521.

When the cache conveying device operates, the first power transmission assembly 2 and the second power transmission assembly 3 work, the first power transmission assembly 2 drives the first power shaft 41 to rotate, the first power shaft 41 rotates to drive all the first driving wheels 43 to rotate, the first driving wheels 43 rotate to drive the corresponding conveying chains 47 to move, and the connected first driven wheels 45 can rotate along with the first driving wheels 43; the second power transmission assembly 3 drives the second power shaft 42 to rotate, the second power shaft 42 drives all the second driving wheels 44 to rotate, the second driving wheels 44 rotate to drive the corresponding conveying chains 47 to move, the tray enters the cache conveying device after the last process is completed, the tray is placed on the conveying chains 47 in the first power pair, the width of each conveying chain 47 is equal to the outer diameter of the conveyed tray, and only one tray can be placed in the width direction of each conveying chain 47; the conveying chain 47 in the first power pair moves to drive the tray to move, and on the conveying chain 47 in the second power pair adjacent is led to through a first switching-over groove 511 to the tray, the tray leads to the conveying chain 47 in the first power pair adjacent again through a second switching-over groove 521, according to above-mentioned tray transport mode, until carrying out buffer memory conveyor to next process, it is visible, the utility model discloses a buffer memory conveyor can guarantee tray FIFO, can not place on buffer memory device for a long time, effectively guarantees the stability of the battery performance of production. The number of the first power pairs and the second power pairs is determined according to the production process, the larger the number of the first power pairs and the second power pairs is, the larger the number of the trays (batteries) which can be cached by the cache conveying device is, and when the cache conveying device comprises 7 groups of the first power pairs and the second power pairs, the more the trays (batteries) 300 and 400 can be cached by the cache conveying device, so that the cache requirement is completely met.

Specifically, the first power transmission assembly 2 functions to enable the first power shaft 41 to rotate, and the first power transmission assembly 2 preferably has a structure in which: the first power transmission assembly 2 includes a first motor, a first belt transmission mechanism, and a first protection housing, the first motor is connected to the first power shaft 41 through the first belt transmission mechanism, and the first motor and the first belt transmission mechanism are disposed inside the first protection housing.

The second power transmission assembly 3 functions to enable the second power shaft 42 to rotate, and the second power transmission assembly 3 preferably has a structure in which: the second power transmission assembly 3 comprises a second motor, a second belt transmission mechanism and a second protection shell, the second motor is connected with the second power shaft 42 through the second belt transmission mechanism, and the second motor and the second belt transmission mechanism are arranged inside the first protection shell.

The first power shaft 41 rotates to drive all the first driving pulleys 43 to rotate, the second driven pulley 46 arranged on the first power shaft 41 does not rotate along with the first power shaft 41, a bearing may be arranged between the second driven pulley 46 and the first power shaft 41, an inner ring of the bearing is connected with the first power shaft 41, and the second driven pulley 46 is connected with an outer ring of the bearing. The second power shaft 42 drives all the second driving wheels 44 to rotate, the first driven wheel 45 arranged on the second power shaft 42 cannot rotate along with the second driving wheels 44, a bearing can be arranged between the first driven wheel 45 and the second power shaft 42, the inner ring of the bearing is connected with the second power shaft 42, and the first driven wheel 45 is connected with the outer ring of the bearing.

In order to facilitate the operation of the whole buffer conveying device, the first power pair and the second power pair are arranged in parallel, the first reversing plate 51 and the second reversing plate 52 are perpendicular to the first power pair and the second power pair, and the first reversing groove 511 and the second reversing groove 521 are arranged in parallel. In order to ensure the guiding effect of the first and second direction-changing grooves 511, 521, the first direction-changing groove 511 is shaped like an arc, and the second direction-changing groove 521 is shaped like an arc. In order to reduce the possibility of the tray falling down when the first direction-changing groove 511 and the second direction-changing groove 521 are guiding, the first magnetic member 512 is embedded on the inner surface of the first direction-changing groove 511, and the second magnetic member is embedded on the inner surface of the second direction-changing groove 521.

In order to facilitate the tray entering the buffer conveying device from the previous process and going out from the buffer conveying device to enter the next process, as shown in fig. 1, the two guide strips 6 of the utility model are arranged above the buffer conveying component 4, and the guide strips 6 are arranged on the same side of the buffer conveying component 4; along tray direction of delivery, the length direction of gib block 6 is the same with tray direction of delivery, promptly, gib block 6 is the same with the direction that carries chain 47 to remove, and two gib blocks 6 are parallel to each other and set up in the outside of frame 1, are provided with feed inlet 61 on one gib block 6, are provided with discharge gate 62 on another gib block 6. In order to improve the connection firmness of the guide bar 6, one end of the guide bar 6 is connected with the first direction-changing groove 511 or the second direction-changing groove 521.

In order to reduce the possibility of the tray shifting in the buffer conveying device, as shown in fig. 1, at least one guide plate 7 is further included, and the guide plate 7 is arranged above the buffer conveying assembly 4; the length direction of the guide plate 7 is the same as the conveying direction of the tray, and a guide plate 7 is arranged between the adjacent first power pair and the second power pair. Preferably, one guide plate 7 is arranged on a central axis between the adjacent first power pair and the second power pair. In order to further reduce the possibility of the tray shifting in the buffer conveying device, the distance between two adjacent guide plates 7 is 1-3mm larger than the outer diameter of the conveying tray, and the distance between the guide strip 6 and the guide plate 7 closest to the guide strip is 1-3mm larger than the outer diameter of the conveying tray. In order to improve the connection firmness of the guide plate 7, one end of the guide plate 7 is connected with the first direction-changing groove 511 or the second direction-changing groove 521.

Claims (10)

1. A buffer memory conveyor for on battery production line, its characterized in that: the device comprises a rack (1), a first power transmission assembly (2), a second power transmission assembly (3), a buffer conveying assembly (4) and a reversing assembly (5);

the buffer conveying assembly (4) and the reversing assembly (5) are arranged on the rack (1), and the reversing assembly (5) is arranged above the buffer conveying assembly (4);

the buffer conveying assembly (4) comprises a first power shaft (41), a second power shaft (42), at least one first driving wheel (43), at least one second driving wheel (44), at least one first driven wheel (45), at least one second driven wheel (46) and at least two conveying chains (47), the first power transmission assembly (2) is connected with the first power shaft (41), and the second power transmission assembly (3) is connected with the second power shaft (42);

the first power shaft (41) and the second power shaft (42) are arranged in parallel, the first driving wheel (43) and the second driven wheel (46) are arranged on the first power shaft (41) in parallel at intervals, and the second driving wheel (44) and the first driven wheel (45) are arranged on the second power shaft (42) in parallel at intervals;

a first driving wheel (43) and a first driven wheel (45) are connected through a conveying chain (47) to form a first power pair, and the connected first driven wheel (45) can rotate along with the first driving wheel (43); a second driving wheel (44) and a second driven wheel (46) are connected through a conveying chain (47) to form a second power pair, and the connected second driven wheel (46) can rotate along with the second driving wheel (44);

the reversing assembly (5) comprises a first reversing plate (51) and a second reversing plate (52), the first reversing plate (51) and the second reversing plate (52) are arranged on two sides of the rack (1), at least one first reversing groove (511) is formed in the inner side of the first reversing plate (51), and at least one second reversing groove (521) is formed in the inner side of the second reversing plate (52);

when the tray is conveyed, the tray on the first power pair can be guided to the adjacent second power pair through a first reversing groove (511) along the conveying direction of the tray, and the tray on the second power pair can be guided to the adjacent first power pair through a second reversing groove (521).

2. The buffer conveying device used on the battery production line as claimed in claim 1, wherein: the first power transmission assembly (2) comprises a first motor, a first belt transmission mechanism and a first protection shell, the first motor is connected with a first power shaft (41) through the first belt transmission mechanism, and the first motor and the first belt transmission mechanism are arranged inside the first protection shell.

3. The buffer conveying device used on the battery production line as claimed in claim 1, wherein: the second power transmission assembly (3) comprises a second motor, a second belt transmission mechanism and a second protective shell, the second motor is connected with a second power shaft (42) through the second belt transmission mechanism, and the second motor and the second belt transmission mechanism are arranged inside the first protective shell.

4. The buffer conveying device used on the battery production line as claimed in claim 1, wherein: the first reversing plate (51) and the second reversing plate (52) are arranged in parallel, and the first reversing groove (511) and the second reversing groove (521) are arranged in parallel.

5. The buffer conveying device used on the battery production line as claimed in claim 1, wherein: the first direction-changing groove (511) is arc-shaped, and the second direction-changing groove (521) is arc-shaped.

6. The buffer conveying device used on the battery production line according to claim 5, wherein: the inner surface of the first reversing groove (511) is embedded with a first magnetic piece (512), and the inner surface of the second reversing groove (521) is embedded with a second magnetic piece.

7. The buffer conveying device for the battery production line according to any one of claims 1 to 6, wherein: the buffer conveying device also comprises two guide strips (6), wherein the guide strips (6) are arranged above the buffer conveying assembly (4);

along tray direction of delivery, the length direction of gib block (6) is the same with tray direction of delivery, and two gib blocks (6) are parallel to each other and set up in the outside of frame (1), are provided with feed inlet (61) on one gib block (6), are provided with discharge gate (62) on another gib block (6).

8. The buffer conveying device for the battery production line as claimed in claim 7, wherein: the buffer conveying device also comprises at least one guide plate (7), wherein the guide plate (7) is arranged above the buffer conveying assembly (4);

the length direction of the guide plate (7) is the same as the conveying direction of the tray, and a guide plate (7) is arranged between the adjacent first power pair and the second power pair.

9. The buffer conveying device for the battery production line as claimed in claim 7, wherein: a guide plate (7) is arranged on a central axis between the adjacent first power pair and the second power pair.

10. The buffer conveying device for the battery production line as claimed in claim 9, wherein: the distance between two adjacent guide plates (7) is 1-3mm larger than the outer diameter of the conveying tray, and the distance between the guide strip (6) and the guide plate (7) closest to the guide strip is 1-3mm larger than the outer diameter of the conveying tray.

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