CN219187795U - Automatic conveying and sorting device for batteries - Google Patents

Abstract

The patent relates to an automatic battery conveying and sorting device, which comprises a conveying mechanism, and a feeding mechanism and a discharging mechanism which are respectively arranged at two ends of the conveying mechanism; at least one sorting mechanism is arranged on the vertical direction of the conveying mechanism, at least one guide mechanism corresponding to the sorting mechanism is arranged on the side face of the conveying mechanism, and the sorting mechanism is used for sorting and discharging the batteries conveyed on the conveying mechanism to the guide mechanism. Through this patent feed mechanism, conveying mechanism, letter sorting mechanism, guiding mechanism, unloading mechanism the structure mutually support, realized that the automation of battery is material loading, conveying one by one, letter sorting, unloading, the smooth operation does not have the jam, and continuity automatic letter sorting, unloading are to next process, show improvement production efficiency.

Description

Automatic conveying and sorting device for batteries

Technical Field

This patent belongs to the automatic letter sorting technical field of carrying of battery, concretely relates to automatic letter sorting device of carrying of battery.

Background

Along with the rapid development of battery technology, the application of the battery technology is wider and wider, the productivity is rapidly increased along with the rapid development, the battery can be subjected to multiple tests before delivery, such as voltage, internal resistance, appearance and the like, and the battery can be sorted after the tests, and in the prior art, the problems of unsmooth operation and congestion of some conveying sorting equipment exist, so that the connection of the front working procedure and the rear working procedure is discontinuous, and the production efficiency is reduced.

Disclosure of Invention

This patent aim at provides a sorting device is carried in battery automation, realizes automatic material loading, transportation, letter sorting, the unloading of battery, and smooth operation, no jam exist among the solution prior art that the operation is not smooth, jam, lead to the front and back process to link up discontinuously, problem that production efficiency reduces.

The technical scheme that this patent adopted is: the automatic battery conveying and sorting device comprises a conveying mechanism, and a feeding mechanism and a discharging mechanism which are respectively arranged at two ends of the conveying mechanism; at least one sorting mechanism is arranged on the vertical direction of the conveying mechanism, at least one guide mechanism corresponding to the sorting mechanism is arranged on the side face of the conveying mechanism, and the sorting mechanism is used for sorting and discharging the batteries conveyed on the conveying mechanism to the guide mechanism.

Specifically, the sorting mechanism comprises a sorting mechanism bracket, a sorting mechanism frame body and a sorting driving motor; the sorting mechanism support is arranged on the side face of the conveying mechanism; the sorting machine framework body is arranged on the sorting machine support and is perpendicular to the conveying direction of the conveying mechanism; the sorting machine comprises a sorting machine frame body, a sorting driving shaft and a sorting driven shaft are respectively arranged at two ends of the sorting machine frame body, a first sorting synchronous pulley is arranged on the sorting driving shaft, a second sorting synchronous pulley is arranged on the sorting driven shaft, sorting synchronous belts are sleeved on the first sorting synchronous pulley and the second sorting synchronous pulley, and at least one sorting deflector rod is arranged on the sorting synchronous belts and corresponds to the conveying mechanism and the guiding mechanism; the sorting driving motor is arranged on a motor mounting plate arranged on the side face of the sorting machine framework body, the sorting driving motor is connected with a first driving synchronous pulley in a driving mode, a second driving synchronous pulley is arranged on the sorting driving shaft, and driving synchronous belts are sleeved on the first driving synchronous pulley and the second driving synchronous pulley; the sorting driving motor drives the driving synchronous belt to rotate, so that the sorting synchronous belt is driven to rotate, and then the sorting deflector rod on the sorting synchronous belt is driven to move, and the battery conveyed on the conveying mechanism is sorted and discharged to the guiding mechanism.

Further, at least one photoelectric sensor is arranged on the sorting machine frame body and used for detecting the movement condition of the sorting deflector rod.

Further, the guide mechanism includes: a guide mechanism bracket, a guide mechanism slideway plate; the guide mechanism slide way plate is arranged on the side face of the conveying mechanism through a guide mechanism support, the upper end of the guide mechanism slide way plate corresponds to the sorting mechanism, guide mechanism slide way baffles are arranged on the two sides of the guide mechanism slide way plate, a guide mechanism connecting block is arranged between the guide mechanism slide way baffles, a guide mechanism buffer piece is arranged at the lower end of the guide mechanism slide way baffle, the guide mechanism buffer piece is L-shaped, and a guide mechanism discharge hole is formed at the lower ends of the guide mechanism buffer piece, the guide mechanism slide way plate and the guide mechanism slide way baffle.

Further, feed mechanism includes: the feeding mechanism comprises a feeding mechanism support and a feeding mechanism slideway plate, wherein the feeding mechanism slideway plate is arranged at one end of the conveying mechanism through the feeding mechanism support, the feeding mechanism slideway plate is inclined upwards relative to the horizontal plane of the conveying direction of the conveying mechanism, two sides of the feeding mechanism slideway plate are provided with feeding mechanism flanges, the feeding mechanism flanges are provided with feeding mechanism cover plates, one end of each feeding mechanism flange is provided with a feeding mechanism baffle, the feeding mechanism baffle is L-shaped, and a feeding opening formed on the feeding mechanism slideway plate at the lower side of the feeding mechanism baffle corresponds to the conveying mechanism; the opening on the feeding mechanism cover plate is provided with a feeding mechanism proximity switch for detecting the feeding condition of the battery.

Further, the unloading mechanism includes: a blanking mechanism bracket and a blanking mechanism slideway plate; the blanking mechanism slideway plate is arranged at the other end of the conveying mechanism through the blanking mechanism support, the blanking mechanism slideway plate is inclined downwards relative to the conveying direction horizontal surface of the conveying mechanism, blanking mechanism flanges are arranged on two sides of the blanking mechanism slideway plate, a blanking mechanism cover plate is arranged on each blanking mechanism flange, a blanking mechanism baffle is arranged at one end of each blanking mechanism flange, each blanking mechanism baffle is L-shaped, and a blanking opening is formed on each blanking mechanism slideway plate on the lower side of each blanking mechanism baffle.

Further, the discharging mechanism further comprises a discharging mechanism proximity switch, and the discharging mechanism proximity switch is arranged on an opening on the discharging mechanism cover plate and used for detecting discharging conditions of the battery.

Further, the conveying mechanism includes: a conveying mechanism bracket, a conveying mechanism frame body, a conveying driving motor and a conveying synchronous belt; the conveyor framework is arranged on the conveyor framework support, conveying guide pieces are arranged on two sides of the conveyor framework, the conveying guide pieces are provided with a plurality of openings, two ends of the conveyor framework are respectively provided with a conveying driving shaft and a conveying driven shaft corresponding to the guide mechanisms and the sorting mechanisms, and the conveying driving shafts and the conveying driven shafts are sleeved with conveying synchronous pulleys and are connected through conveying synchronous belts; the conveying driving motor is in driving connection with the conveying driving shaft sequentially through a speed reducer and a coupler; the conveying synchronous belt is driven by the conveying driving motor to move to convey the battery.

Further, a plurality of conveying fixed blocks are arranged on the conveying synchronous belt, batteries are carried one by one between the two conveying fixed blocks, conveying positioning blocks are arranged at two ends between the conveying fixed blocks, and the conveying positioning blocks are provided with grooves.

Further, a conveying proximity switch is arranged on the conveying guide piece and used for detecting the conveying condition of the battery.

This patent automatic sorting device that carries of battery, beneficial effect is: through the mutual coordination of the structures of the feeding mechanism, the conveying mechanism, the sorting mechanism, the guiding mechanism and the discharging mechanism, the automatic feeding, conveying, sorting and discharging of the batteries one by one is realized, the operation is smooth, no congestion exists, the continuous automatic sorting and discharging is carried out to the next process, and the production efficiency is remarkably improved; solves the problems of discontinuous connection of the previous and subsequent working procedures and reduced production efficiency caused by unsmooth operation and congestion in the prior art; meanwhile, when the sorting mechanism sorts and feeds the batteries conveyed on the conveying mechanism to the guiding mechanism, the reversing of the batteries is realized, and the guiding mechanism can be directly abutted to a conveying line parallel or perpendicular to the axis direction of the batteries, so that the operation of subsequent procedures is facilitated.

Drawings

For a clearer description of the technical solutions of the present patent, the drawings that are needed for the embodiments will be presented below, it being obvious that the drawings in the following description are only some embodiments of the present patent, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an overall assembly view of an automated battery transport sorting apparatus disclosed in the embodiments of the present patent;

fig. 2 is a schematic structural view of a sorting mechanism in an automatic battery conveying and sorting device according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a feeding mechanism in an automatic battery conveying and sorting device according to an embodiment of the present disclosure;

fig. 4 is a schematic structural view of a guiding mechanism in an automatic battery conveying and sorting device according to an embodiment of the present disclosure;

the reference numerals in the figures illustrate: 1-feeding mechanism, 2-conveying mechanism, 3-guiding mechanism, 4-discharging mechanism, 5-sorting mechanism, 11-feeding mechanism support, 12-feeding mechanism slideway plate, 13-feeding mechanism flange, 14-feeding mechanism cover plate, 15-feeding mechanism baffle, 16-feeding mechanism proximity switch, 17-feeding opening, 201-conveying mechanism support, 202-conveying mechanism framework, 203-conveying driving motor, 204-speed reducer, 205-coupling, 206-conveying driving shaft, 207-conveying driven shaft, 208-conveying synchronous pulley, 209-conveying synchronous belt, 210-conveying fixed block, 211-conveying guide piece, 212-conveying positioning block, 213-conveying proximity switch, 31-guiding mechanism support, 32-guiding mechanism slideway plates, 33-guiding mechanism slideway baffles, 34-guiding mechanism connecting blocks, 35-guiding mechanism buffer pieces, 36-guiding mechanism discharge holes, 41-blanking mechanism brackets, 42-blanking mechanism slideway plates, 43-blanking mechanism flanges, 44-blanking mechanism cover plates, 45-blanking mechanism baffles, 46-blanking mechanism proximity switches, 47-blanking openings, 51-sorting mechanism brackets, 52-sorting mechanism framework, 53-sorting driving motors, 54-motor mounting plates, 55-first driving synchronous pulleys, 56-second driving synchronous pulleys, 57-driving synchronous belts, 58-sorting driving shafts, 59-sorting driven shafts and 60-first sorting synchronous pulleys, 61-second sorting synchronous pulleys, 62-sorting synchronous belts, 63-sorting deflector rods and 64-photoelectric sensors.

Detailed Description

Examples

The technical solutions of the present patent will be clearly and completely described below with reference to the drawings in the embodiments of the present patent, and it is apparent that the described embodiments are only some embodiments of the present patent, not all embodiments. All other embodiments, based on the embodiments in this patent, which would be within the purview of one of ordinary skill in the art without the creative effort, are contemplated to be within the scope of protection of this patent.

Referring to fig. 1-4, the present embodiment provides an automatic battery conveying and sorting device, which includes: the conveying mechanism 2 is respectively arranged at the feeding mechanism 1 and the discharging mechanism 4 at two ends of the conveying mechanism 2; at least one sorting mechanism 5 is arranged on the vertical direction of the conveying mechanism 2, at least one guide mechanism 3 corresponding to the sorting mechanism 5 is arranged on the side surface of the conveying mechanism 2, and the sorting mechanism 5 is used for sorting and discharging the batteries conveyed on the conveying mechanism 2 to the guide mechanism 3.

Specifically, referring to fig. 1 and 2, the sorting mechanism 5 includes a sorting mechanism bracket 51, a sorting mechanism frame 52, and a sorting driving motor 53; the sorting mechanism bracket 51 is provided on the side surface of the conveying mechanism 2; the sorting machine frame 52 is disposed on the sorting machine frame 51 and is perpendicular to the conveying direction of the conveying mechanism 2; the two ends of the sorting machine framework 52 are respectively provided with a sorting driving shaft 58 and a sorting driven shaft 59, the sorting driving shaft 58 is provided with a first sorting synchronous pulley 60, the sorting driven shaft 59 is provided with a second sorting synchronous pulley 61, the first sorting synchronous pulley 60 and the second sorting synchronous pulley 61 are sleeved with a sorting synchronous belt 62, the sorting synchronous belt 62 is provided with at least one sorting deflector rod 63, and the sorting deflector rod 63 corresponds to the conveying mechanism 2 and the guiding mechanism 3; the sorting driving motor 53 is arranged on a motor mounting plate 54 arranged on the side surface of the sorting machine framework 52, the sorting driving motor 53 is in driving connection with a first driving synchronous pulley 55, a sorting driving shaft 58 is provided with a second driving synchronous pulley 56, and a driving synchronous belt 57 is sleeved on the first driving synchronous pulley 55 and the second driving synchronous pulley 56; therefore, the sorting driving motor 53 drives the driving synchronous belt 57 to rotate, so as to drive the sorting synchronous belt 62 to rotate, and further drive the sorting deflector 63 on the sorting synchronous belt 62 to move; by adopting the sorting mechanism structure, a plurality of sorting deflector rods 63 can be arranged as required, sorting operation is performed circularly, batteries conveyed by the conveying mechanism 2 are sorted and fed to the guide mechanism 3 one by one, meanwhile, the batteries are reversed to be sorted and fed to the guide mechanism 3 along the axis direction, continuity operation is guaranteed, operation is smooth, and congestion is avoided.

Further, referring to fig. 2, at least one photoelectric sensor 64 is disposed on the sorter frame 52 for detecting the movement of the sorting bar 63.

Further, referring to fig. 1 and 4, the guiding mechanism 3 includes: a guide mechanism bracket 31, a guide mechanism slide plate 32; the guide mechanism slide plate 32 is arranged on the side surface of the conveying mechanism 2 through a guide mechanism bracket 31, the upper end of the guide mechanism slide plate 32 corresponds to the sorting mechanism 5, guide mechanism slide baffles 33 are arranged on the two sides of the guide mechanism slide plate 32, a guide mechanism connecting block 34 is arranged between the guide mechanism slide baffles 33, a guide mechanism buffer piece 35 is arranged at the lower end of the guide mechanism slide baffles 33, the guide mechanism buffer piece 35 is L-shaped, and a guide mechanism discharge port 36 is formed at the lower ends of the guide mechanism buffer piece 35, the guide mechanism slide plate 32 and the guide mechanism slide baffles 33; the batteries after being sorted and discharged by the sorting mechanism 5 are moved out one by one along the slideway plate 32 of the guiding mechanism by the discharge hole 36 of the guiding mechanism, so that the operation is smooth, the congestion is avoided, and the automatic output of the batteries to the next procedure is realized; meanwhile, the batteries are conveyed on the conveying mechanism 2 along the direction perpendicular to the axis direction, the batteries are reversed to be moved out to the next process one by one along the axis direction through the guide mechanism 3, and the guide mechanism 3 can be directly abutted to a conveying line parallel or perpendicular to the axis direction of the batteries, so that the operation of the subsequent process is facilitated.

Further, referring to fig. 1 and 3, the feeding mechanism 1 includes: the feeding mechanism comprises a feeding mechanism support 11 and a feeding mechanism slideway plate 12, wherein the feeding mechanism slideway plate 12 is arranged at one end of the conveying mechanism 2 through the feeding mechanism support 11, the feeding mechanism slideway plate 12 is inclined upwards relative to the horizontal plane of the conveying direction of the conveying mechanism 2, two sides of the feeding mechanism slideway plate 12 are provided with feeding mechanism flanges 13, the feeding mechanism flanges 13 are provided with feeding mechanism cover plates 14, one end of each feeding mechanism flange 13 is provided with a feeding mechanism baffle 15, the feeding mechanism baffle 15 is L-shaped, and a feeding opening 17 formed on the feeding mechanism slideway plate 12 at the lower side of the feeding mechanism baffle 15 corresponds to the conveying mechanism 2; the opening in the charging mechanism cover plate 14 is provided with a charging mechanism proximity switch 16 for detecting battery charging conditions. Therefore, taking a cylindrical lithium battery as an example, the parallel batteries are sequentially fed to the conveying mechanism 2 one by one along the feeding mechanism slide plate channel 12 through the feeding opening 17, and are continuously conveyed along the direction perpendicular to the axis direction of the batteries through the conveying mechanism 2, so that the operation is smooth, the congestion is avoided, and the automatic feeding of the batteries one by one is realized.

Further, referring to fig. 1, the discharging mechanism 4 includes: a blanking mechanism bracket 41 and a blanking mechanism slideway plate 42; the blanking mechanism slideway plate 42 is arranged at the other end of the conveying mechanism 2 through a blanking mechanism bracket 41, the blanking mechanism slideway plate 42 is inclined downwards relative to the horizontal surface of the conveying direction of the conveying mechanism 2, blanking mechanism flanges 43 are arranged on two sides of the blanking mechanism slideway plate 42, a blanking mechanism cover plate 44 is arranged on each blanking mechanism flange 43, a blanking mechanism baffle 45 is arranged at one end of each blanking mechanism flange 43, the blanking mechanism baffle 45 is L-shaped, and a blanking opening 47 is formed on the blanking mechanism slideway plate 42 at the lower side of each blanking mechanism baffle 45; therefore, the batteries which are not sorted by the sorting mechanism 5 on the conveying mechanism 2 are sequentially and one by one output along the blanking mechanism sliding plate channel 42 through the blanking opening 47, the operation is smooth, the congestion is avoided, and the automatic one-by-one blanking of the batteries is realized.

Further, referring to fig. 1, the discharging mechanism 4 further includes a discharging mechanism proximity switch 46, which is disposed in an opening on the cover 44 of the discharging mechanism, and is used for detecting the discharging condition of the battery.

Further, referring to fig. 1, the conveying mechanism 2 includes: a conveying mechanism support 201, a conveying mechanism frame 202, a conveying driving motor 203 and a conveying synchronous belt 209; the conveyor frame 202 is arranged on the conveyor frame 201, two sides of the conveyor frame 202 are provided with conveying guide members 211, the conveying guide members 211 are provided with a plurality of openings, two ends of the conveyor frame 202 are respectively provided with a conveying driving shaft 206 and a conveying driven shaft 207 corresponding to the guide mechanism 3 and the sorting mechanism 5, and the conveying driving shaft 206 and the conveying driven shaft 207 are sleeved with a conveying synchronous belt pulley 208 and are connected through a conveying synchronous belt 209; the conveying driving motor 203 is in driving connection with a conveying driving shaft 206 through a speed reducer 204 and a coupler 205 in sequence; the conveying synchronous belt 209 is driven by the conveying driving motor 203 to move and convey the batteries, and after the batteries are received by the feeding mechanism 1, the batteries are conveyed to the corresponding positions of the sorting mechanism 5 and the guiding mechanism 3 along the direction perpendicular to the axis direction of the batteries, or the batteries are fed one by one along the feeding mechanism 4.

Further, referring to fig. 1, a plurality of conveying fixing blocks 210 are disposed on the conveying synchronous belt 209, and the two conveying fixing blocks 210 are used for carrying batteries one by one, so as to realize automatic conveying of the batteries, and conveying positioning blocks 212 are disposed at two ends between the conveying fixing blocks 210, wherein the conveying positioning blocks 212 are provided with grooves, so that when the sorting deflector 63 distributes the materials, the batteries are accurately discharged to the guide mechanism 3 along the axial direction from between the two conveying fixing blocks 210 along the conveying positioning blocks 212.

Further, referring to fig. 1, the conveying guide 211 is provided with a conveying proximity switch 213 for detecting the battery conveying condition.

The above description is only of the preferred embodiments of the present patent and is not intended to limit the present patent, and various modifications and variations can be made to the present patent by those skilled in the art; any modification, equivalent replacement, improvement, etc. made within the protection scope of the present patent should be included in the protection scope of the present patent.

Claims (10)

1. An automated battery transport sorting apparatus comprising: the conveying mechanism (2) is respectively arranged at the feeding mechanism (1) and the discharging mechanism (4) at two ends of the conveying mechanism (2); the battery sorting device is characterized in that at least one sorting mechanism (5) is arranged in the vertical direction of the conveying mechanism (2), at least one guide mechanism (3) corresponding to the sorting mechanism (5) is arranged on the side surface of the conveying mechanism (2), and the sorting mechanism (5) is used for sorting and discharging batteries conveyed on the conveying mechanism (2) to the guide mechanism (3);

the sorting mechanism (5) comprises: a sorting mechanism bracket (51), a sorting mechanism frame body (52) and a sorting driving motor (53); the sorting mechanism bracket (51) is arranged on the side surface of the conveying mechanism (2); the sorting machine framework (52) is arranged on the sorting machine bracket (51) and is vertical to the conveying direction of the conveying mechanism (2); a sorting driving shaft (58) and a sorting driven shaft (59) are respectively arranged at two ends of a sorting machine framework body (52), a first sorting synchronous pulley (60) is arranged on the sorting driving shaft (58), a second sorting synchronous pulley (61) is arranged on the sorting driven shaft (59), a sorting synchronous belt (62) is sleeved on the first sorting synchronous pulley (60) and the second sorting synchronous pulley (61), at least one sorting deflector rod (63) is arranged on the sorting synchronous belt (62), and the sorting deflector rod (63) corresponds to the conveying mechanism (2) and the guiding mechanism (3); the sorting driving motor (53) is arranged on a motor mounting plate (54) arranged on the side surface of the sorting machine framework body (52), the sorting driving motor (53) is in driving connection with a first driving synchronous pulley (55), a sorting driving shaft (58) is provided with a second driving synchronous pulley (56), and the first driving synchronous pulley (55) and the second driving synchronous pulley (56) are sleeved with a driving synchronous belt (57); the sorting driving motor (53) drives the driving synchronous belt (57) to rotate, so that the sorting synchronous belt (62) is driven to rotate, and the sorting deflector rod (63) on the sorting synchronous belt (62) is driven to move.

2. The automatic battery conveying and sorting device according to claim 1, wherein at least one photoelectric sensor (64) is arranged on the sorting machine frame body (52) and is used for detecting the movement condition of the sorting deflector rod (63).

3. An automated battery transportation sorting device according to claim 1, characterized in that the guiding mechanism (3) comprises: a guide mechanism bracket (31), a guide mechanism slideway plate (32); the guide mechanism slide plate (32) is arranged on the side face of the conveying mechanism (2) through the guide mechanism support (31), the upper end of the guide mechanism slide plate (32) corresponds to the sorting mechanism (5), guide mechanism slide baffles (33) are arranged on the two sides of the guide mechanism slide plate (32), guide mechanism connecting blocks (34) are arranged between the guide mechanism slide baffles (33), guide mechanism buffer pieces (35) are arranged at the lower ends of the guide mechanism slide baffles (33), the guide mechanism buffer pieces (35) are L-shaped, and guide mechanism discharge ports (36) are formed in the guide mechanism buffer pieces (35), the guide mechanism slide plate (32) and the lower ends of the guide mechanism slide baffles (33).

4. The automated battery transport sorting device according to claim 1, characterized in that the feeding mechanism (1) comprises: the feeding mechanism comprises a feeding mechanism support (11) and a feeding mechanism slideway plate (12), wherein the feeding mechanism slideway plate (12) is arranged at one end of a conveying mechanism (2) through the feeding mechanism support (11), the feeding mechanism slideway plate (12) is inclined upwards relative to the horizontal plane of the conveying direction of the conveying mechanism (2), two sides of the feeding mechanism slideway plate (12) are provided with feeding mechanism flanges (13), the feeding mechanism flanges (13) are provided with feeding mechanism cover plates (14), one end of each feeding mechanism flange (13) is provided with a feeding mechanism baffle plate (15), and a feeding opening (17) formed in the feeding mechanism slideway plate (12) at the lower side of each feeding mechanism baffle plate (15) corresponds to the conveying mechanism (2); and a charging mechanism proximity switch (16) is arranged on the opening of the charging mechanism cover plate (14) and used for detecting the charging condition of the battery.

5. The automated battery transport sorting apparatus of claim 4, wherein the blanking mechanism (4) comprises: a blanking mechanism bracket (41) and a blanking mechanism slideway plate (42); the blanking mechanism slide plate (42) is arranged at the other end of the conveying mechanism (2) through the blanking mechanism support (41), the blanking mechanism slide plate (42) is inclined downwards relative to the conveying direction horizontal surface of the conveying mechanism (2), blanking mechanism flanges (43) are arranged on two sides of the blanking mechanism slide plate (42), a blanking mechanism cover plate (44) is arranged on each blanking mechanism flange (43), a blanking mechanism baffle (45) is arranged at one end of each blanking mechanism flange (43), and a blanking opening (47) is formed in the blanking mechanism slide plate (42) at the lower side of each blanking mechanism baffle (45).

6. The automatic battery conveying and sorting device according to claim 5, wherein the feeding mechanism baffle (15) is L-shaped; the blanking mechanism baffle (45) is L-shaped.

7. The automatic battery conveying and sorting device according to claim 5, wherein the discharging mechanism (4) further comprises a discharging mechanism proximity switch (46), and an opening is formed in a cover plate (44) of the discharging mechanism and is used for detecting the discharging condition of the battery.

8. An automated battery transportation sorting apparatus according to claim 1, characterized in that the transportation mechanism (2) comprises: a conveying mechanism bracket (201), a conveying mechanism frame body (202), a conveying driving motor (203) and a conveying synchronous belt (209); the conveyor framework body (202) is arranged on the conveyor framework support (201), conveying guide pieces (211) are arranged on two sides of the conveyor framework body (202), and the conveying guide pieces (211) are provided with a plurality of openings which correspond to the guide mechanisms (3) and the sorting mechanisms (5); two ends of the conveyor framework body (202) are respectively provided with a conveying driving shaft (206) and a conveying driven shaft (207), and conveying synchronous pulleys (208) are sleeved on the conveying driving shafts (206) and the conveying driven shafts (207) and are connected through conveying synchronous belts (209); the conveying driving motor (203) is in driving connection with the conveying driving shaft (206) through a speed reducer (204) and a coupler (205) in sequence; the conveying synchronous belt (209) is driven by the conveying driving motor (203) to move and convey the battery.

9. The automatic battery conveying and sorting device according to claim 8, wherein a plurality of conveying fixed blocks (210) are arranged on the conveying synchronous belt (209), conveying positioning blocks (212) are arranged at two ends between the conveying fixed blocks (210), and the conveying positioning blocks (212) are provided with grooves.

10. An automated battery transportation sorting apparatus according to claim 8, characterized in that the transportation guide (211) is provided with a transportation proximity switch (213) for detecting battery transportation.

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