CN-224234088-U - Battery piece alignment mechanism

CN224234088UCN 224234088 UCN224234088 UCN 224234088UCN-224234088-U

Abstract

The utility model discloses a battery piece positioning mechanism, and belongs to the technical field of series welding machines. The battery piece alignment mechanism comprises a fixing component and an alignment component, wherein the alignment component is arranged at the top of the fixing component, the alignment component comprises an alignment wheel set, a transmission component and a driving component, the output end of the driving component is connected with the input end of the transmission component in an installation mode, the alignment wheel set comprises a first alignment wheel set and a second alignment wheel set, the first alignment wheel set and the second alignment wheel set are arranged at intervals and are opposite to each other, the output end of the transmission component is respectively connected with the input ends of the first alignment wheel set and the second alignment wheel set in an installation mode, and the driving component controls the first alignment wheel set and the second alignment wheel set to perform opposite or opposite reciprocating operation through the transmission component.

Inventors

SHI SIJIE
Lian Xueqin
JIN GAOSONG
HUANG RENTAO
KANG LE

Assignees

杭州康奋威科技股份有限公司

Dates

Publication Date: 20260512
Application Date: 20250611

Claims (10)

1. The battery piece alignment mechanism is characterized by comprising a fixed component (1) and an alignment component, wherein the alignment component is arranged at the top of the fixed component (1); The aligning assembly comprises an aligning wheel set, a transmission assembly and a driving assembly (70), wherein the output end of the driving assembly (70) is connected with the input end of the transmission assembly in a mounting mode, the aligning wheel set comprises a first aligning wheel set (40) and a second aligning wheel set (50), the first aligning wheel set (40) and the second aligning wheel set (50) are arranged at intervals and are opposite to each other, the output end of the transmission assembly is connected with the input ends of the first aligning wheel set (40) and the second aligning wheel set (50) respectively in a mounting mode, and the driving assembly (70) controls the first aligning wheel set (40) and the second aligning wheel set (50) to perform opposite or opposite reciprocating operation through the transmission assembly.
2. The battery piece aligning mechanism according to claim 1, wherein the first aligning wheel set (40) comprises a first sliding block connecting plate (60) and a first roller assembly, the first roller assembly is installed on the side wall of one side of the first sliding block connecting plate (60), the second aligning wheel set (50) comprises a second sliding block connecting plate (75) and a second roller assembly, and the second roller assembly is installed on the side wall of one side of the second sliding block connecting plate (75).
3. The battery piece alignment mechanism according to claim 2, wherein the transmission assembly comprises an alignment mounting plate (72), a guide rail (77) is fixedly arranged on the side wall of one side of the alignment mounting plate (72), more than two sliding blocks (78) are slidably arranged on one side of the guide rail (77) away from the alignment mounting plate (72), and the first roller assembly and the second roller assembly are respectively fixedly arranged on one side of the corresponding sliding blocks (78) away from the guide rail (77).
4. The battery piece aligning mechanism according to claim 2, wherein the first roller assembly comprises a mounting rod (84), a plurality of fasteners (80), a plurality of adjusting blocks (81), a plurality of aligning roller shafts (82), a plurality of rollers (83), a fixing plate (58) and an aligning block connecting plate (79), wherein the adjusting blocks (81) are respectively arranged on the mounting rod (84) at intervals, the adjusting blocks (81) are detachably connected with the mounting rod (84), the upper end parts of the aligning roller shafts (82) penetrate through the corresponding adjusting blocks (81) to be detachably connected with the fasteners (80), the rollers (83) are sleeved on the periphery of the lower end parts of the aligning roller shafts (82) and are rotationally connected with the aligning roller shafts (82), the aligning block connecting plate (79) is fixedly connected with one end of the mounting rod (84), the fixing plate (58) arranged on the first roller assembly is detachably connected with the first sliding block (60), and the fixing plate (58) arranged on the second roller assembly is detachably connected with the second sliding block (75); the second roller assembly and the first roller assembly have the same structure.
5. The battery piece aligning mechanism according to claim 2, wherein the outer side walls of the first sliding block connecting plate (60) and the second sliding block connecting plate (75) are fixedly provided with a third tensioning block (59); The first adjusting rod penetrates through a third tensioning block (59) on the first sliding block connecting plate (60) and is connected with a fixed plate (58) arranged on the first roller assembly in a mounting way; The second setting wheel set (50) further comprises a second adjusting rod, and the second adjusting rod penetrates through a third tensioning block (59) on a second sliding block connecting plate (75) and is connected with a fixing plate (58) arranged on the second roller assembly in a mounting mode.
6. The battery piece alignment mechanism according to claim 3, wherein the transmission assembly further comprises a belt (76), a driving wheel (74) and a driven wheel (71), the driving wheel (74) is arranged at the output end of the driving assembly (70), the driven wheel (71) is in transmission connection with the driving wheel (74) through the belt (76), and the driving wheel (74) and the driven wheel (71) are arranged on the side wall of one side, provided with the guide rail (77), of the alignment mounting plate (72) and are located above the guide rail (77).
7. The battery piece positioning mechanism according to claim 6 is characterized in that the transmission assembly further comprises a third adjusting rod, a second tensioning block (62) is arranged on one side, far away from the guide rail (77), of the positioning mounting plate (72), a sliding groove is formed in a penetrating mode at one end of the positioning mounting plate (72), the second tensioning block (62) is arranged on the sliding groove in a covering mode, a driven wheel (71) is arranged on the other side of the sliding groove in a covering mode, a rotating shaft arranged on the driven wheel (71) penetrates through the sliding groove and the second tensioning block (62) in sequence and is connected with the second tensioning block (62) in a mounting mode, a first tensioning block (61) is fixedly arranged on the outer side wall of the positioning mounting plate (72), the third adjusting rod penetrates through the first tensioning block (61) and the second tensioning block (62) in sequence and is connected with the second tensioning block (62) in a mounting mode, and the distance between the driven wheel (71) and the driving wheel (74) is adjusted through adjusting the distance between the first tensioning block (61) and the second tensioning block (62), and tightness of the adjusting belt (76) is achieved.
8. The battery piece aligning mechanism is characterized in that a first toothed plate pressing plate (63) is fixedly arranged at the upper end portion of a first sliding block connecting plate (60), a second toothed plate pressing plate (73) is fixedly arranged at the upper end portion of a second sliding block connecting plate (75), the first toothed plate pressing plate (63) and the second toothed plate pressing plate (73) are arranged on a belt (76) between a driving wheel (74) and a driven wheel (71), the first toothed plate pressing plate (63) is connected with the belt (76) located above, and the second toothed plate pressing plate (73) is connected with the belt (76) located below.
9. The battery piece alignment mechanism according to claim 1 is characterized in that the fixing assembly (1) comprises an alignment support adapter plate (11), an adjusting screw seat (14) and an adjusting bolt (15), an alignment base plate (12) is arranged on the top of the alignment support adapter plate (11), the adjusting screw seat (14) is arranged on the outer side wall of the alignment support adapter plate (11), and the adjusting bolt (15) penetrates through the adjusting screw seat (14) and is connected with the alignment base plate (12) in a rotating mode.
10. The battery piece alignment mechanism according to claim 9 is characterized in that an alignment base plate (65) is fixedly arranged at the bottom of an alignment mounting plate (72), the alignment base plate (65) is arranged at the top of an alignment base plate (12), the alignment assembly further comprises a plurality of fixing columns, a rotary extension rod (66), an angle adjusting block (67), a fourth adjusting rod, an adjusting top block (69) and a fifth adjusting rod, a plurality of arc-shaped guide grooves are formed in the alignment base plate (65) in a penetrating mode, fixing holes corresponding to the arc-shaped guide grooves are formed in the alignment base plate (12), the fixing columns sequentially penetrate through the arc-shaped guide grooves and the fixing holes, and the alignment base plate (65) and the alignment base plate (12) are connected in a mounting mode; One end of the rotary extension rod (66) is fixedly connected with the positioning base plate (65), one end of the angle adjusting block (67) is fixedly connected with the positioning base plate (12), and the fourth adjusting rod sequentially penetrates through the angle adjusting block (67) and the rotary extension rod (66); The adjusting top block (69) is fixedly connected with the adjusting base plate (12), the fifth adjusting rod penetrates through the adjusting top block (69) and is arranged in a butt joint mode with the side wall of the adjusting base plate (12), and the fifth adjusting rod is in threaded connection with the adjusting top block (69).

Description

Battery piece alignment mechanism Technical Field The utility model belongs to the technical field of series welding machines, and particularly relates to a battery piece positioning mechanism. Background The rapid development of the photovoltaic industry is benefited, the yield of the photovoltaic module is continuously increased, and the technical requirements on the series welding machine are also improved in order to improve the production efficiency of the photovoltaic module. However, the battery piece alignment mechanism of the existing stringer is low in alignment precision, so that the production efficiency is greatly influenced by inaccurate positioning of the battery piece when the manipulator grabs the battery piece, the high-speed growth of the photovoltaic module cannot be met, the battery piece alignment precision is low, the alignment efficiency is low, and the production requirement of the current high-speed growth module cannot be met. Disclosure of utility model The utility model aims to solve the technical problem of providing a battery piece positioning mechanism which can solve the offset of a battery piece. The utility model relates to a battery piece positioning mechanism, which comprises a fixing component and a positioning component, wherein the positioning component is arranged at the top of the fixing component; The aligning assembly comprises an aligning wheel set, a transmission assembly and a driving assembly, wherein the output end of the driving assembly is connected with the input end of the transmission assembly in a mounting way, the aligning wheel set comprises a first aligning wheel set and a second aligning wheel set, the first aligning wheel set and the second aligning wheel set are arranged at intervals and are opposite to each other, the output end of the transmission assembly is respectively connected with the input ends of the first aligning wheel set and the second aligning wheel set in a mounting way, and the driving assembly controls the first aligning wheel set and the second aligning wheel set to perform opposite or opposite reciprocating operation through the transmission assembly. As a further improvement of the utility model, the first setting wheel set comprises a first sliding block connecting plate and a first roller assembly, the first roller assembly is installed on the side wall of one side of the first sliding block connecting plate, the second setting wheel set comprises a second sliding block connecting plate and a second roller assembly, and the second roller assembly is installed on the side wall of one side of the second sliding block connecting plate. The transmission assembly comprises a positioning mounting plate, a guide rail is fixedly arranged on the side wall of one side of the positioning mounting plate, more than two sliding blocks are slidably arranged on one side of the guide rail away from the positioning mounting plate, and a first roller assembly and a second roller assembly are respectively and fixedly arranged on one side of the corresponding sliding blocks away from the guide rail. The first roller assembly comprises a mounting rod, a plurality of fasteners, a plurality of adjusting blocks, a plurality of setting roller shafts, a plurality of rollers, a fixing plate and a setting block connecting plate, wherein the adjusting blocks are respectively arranged on the mounting rod at intervals, the adjusting blocks are detachably connected with the mounting rod, the upper end parts of the setting roller shafts penetrate through the corresponding adjusting blocks to be detachably connected with the fasteners, the rollers are sleeved on the periphery of the lower end parts of the setting roller shafts and are rotationally connected with the setting roller shafts, the setting block connecting plate is fixedly connected with one end of the mounting rod, the mounting rod is in mounting connection with the fixing plate through the setting block connecting plate, the fixing plate arranged on the first roller assembly is detachably connected with the first slider connecting plate, and the fixing plate arranged on the second roller assembly is detachably connected with the second slider connecting plate; the second roller assembly and the first roller assembly have the same structure. As a further improvement of the utility model, the outer side walls of the first slide block connecting plate and the second slide block connecting plate are fixedly provided with a third tensioning block; The first adjusting rod penetrates through a third tensioning block on the first sliding block connecting plate and is connected with a fixed plate arranged on the first roller assembly in a mounting way; The second adjusting rod penetrates through a third tensioning block on the second sliding block connecting plate and is connected with a fixed plate arranged on the second roller assembly in a mounting mode. The utility model further improves the transmiss