CN217667246U - Be applied to battery tab laser cutting's oblique shape mouth and receive waste material device - Google Patents

Abstract

The utility model relates to the technical field of battery tab laser cutting, in particular to an oblique port waste collecting device applied to battery tab laser cutting, which comprises a roller module, a laser cutting module, a dust removing module and an oblique port waste collecting module; the roller passing module comprises a feeding roller, a discharging roller I and a discharging roller II, the dust removal module comprises a dust suction roller, the dust suction roller is positioned between the feeding roller and the discharging roller I, the laser cutting module is positioned between the feeding roller and the dust suction roller, and the oblique-opening waste collecting module is positioned between the discharging roller I and the discharging roller II; the utility model discloses a set up the ejection of compact and cross roller one and the ejection of compact and cross roller two, have the guide effect and can smooth out the utmost point ear after the cutting with the waste material limit to the utmost point piece, effectively improve the laser cutting quality, cooperate the oblique shape mouth to receive the waste material module simultaneously, effectively solve the difficult problem that the waste material limit can not in time be got rid of.

Description

Be applied to battery tab laser cutting's oblique shape mouth and receive waste material device

Technical Field

The utility model relates to a battery tab laser cutting technical field especially relates to a be applied to battery tab laser cutting's oblique shape mouth and receive waste material device.

Background

With the development of microelectronic technology, the number of miniaturized devices is increasing, high requirements are put on power supplies, and lithium batteries enter a large-scale use stage. The lithium battery has the advantages of high storage energy density, high-low temperature adaptability, high power bearing capacity, low self-discharge rate and the like, and is widely applied to mobile phones, notebook computers, electric tools and small household appliances.

In the lithium battery, the tab is an important component of the lithium battery and is the core of the lithium battery, and the shape, size and the like of the tab directly influence the quality of the lithium battery. Along with the high-speed development of the laser cutting technology, the application range of the laser cutting equipment is wider and wider, and at present, most of tabs of lithium batteries are cut by the laser cutting equipment.

But discovery in practical application, laser cutting equipment among the prior art is when cutting utmost point ear, and no tension behind the pole piece cutting produces the shake problem easily, leads to laser beam's focus to drift on the pole piece, can't carry out accurate cutting, and simultaneously at laser cutting utmost point ear in-process, its speed is very fast, leads to the waste material limit that high-speed cutting produced in time to get rid of, lacks the management and control to the waste material.

SUMMERY OF THE UTILITY MODEL

The problem of shake can't accurate cutting and can't in time get rid of the waste material limit appear in the utmost point ear cutting process to the aforesaid existence, the utility model provides a be applied to battery tab laser cutting's oblique shape mouth and receive waste material device crosses roller one and the ejection of compact and crosses roller two through setting up the ejection of compact, has the guide effect and can smooth out the utmost point ear after the cutting with the waste material limit to the utmost point piece, effectively improves the laser cutting quality, cooperates the oblique shape mouth simultaneously and receives the waste material module, effectively solves the difficult problem that the waste material limit can not in time get rid of.

In order to solve the technical problem, the utility model provides a concrete scheme as follows:

a waste collecting device with an inclined opening for laser cutting of a battery tab comprises a roller passing module, a laser cutting module, a dust removal module and a waste collecting module with an inclined opening;

the roller passing module comprises a feeding roller passing module, a discharging roller passing module and a discharging roller passing module, the dust removal module comprises a dust suction roller, the dust suction roller is positioned between the feeding roller passing module and the discharging roller passing module, the laser cutting module is positioned between the feeding roller passing module and the dust suction roller, and the oblique-shaped-opening waste collecting module is positioned between the discharging roller passing module and the discharging roller passing module.

Optionally, the oblique-shaped-opening waste collecting module comprises an installation bottom plate and a waste collecting pipeline, a material receiving port of the waste collecting pipeline is an oblique opening, and the material receiving port is located between the first discharging roller and the second discharging roller;

the waste material collecting device is characterized in that a pipeline supporting and adjusting assembly used for adjusting the position of the waste material collecting pipeline and a material port supporting and adjusting assembly used for adjusting the position of the material port are arranged on the mounting bottom plate, the pipeline supporting and adjusting assembly and the material port supporting and adjusting assembly are arranged, the waste material collecting pipeline and the material port can be correspondingly adjusted according to the actual cutting position, and the waste material edge can be timely removed.

Optionally, a negative pressure generator for generating negative pressure to pump air is arranged in the waste collecting pipeline, and the negative pressure generator is arranged to form a certain negative pressure in the waste collecting pipeline and timely remove the waste.

Optionally, the pipeline supports adjusting part is including locating the first mounting panel on the mounting plate, be provided with first X axle axial regulating part, first Y axle axial regulating part and first Z axle axial regulating part on the first mounting panel, slidable mounting has the pipeline supporting shoe that is used for installing receipts waste pipeline on the first Z axle axial regulating part, through first X axle axial regulating part, first Y axle axial regulating part and first Z axle axial regulating part, adjusts the position of pipeline supporting shoe, makes its cooperation actual cutting position, installs the support to receiving waste pipeline.

Optionally, the material port supports adjusting part is including locating the second mounting panel on the mounting plate, be provided with second X axle axial regulating part, second Y axle axial regulating part and second Z axle axial regulating part on the second mounting panel, install the axial adjustment seat that connects the material angle that is used for docking the material port and adjust on the second Z axle axial regulating part, adjust the position of axial adjustment seat through second X axle axial regulating part, second Y axle axial regulating part and second Z axle axial regulating part, make its cooperation actual cutting position, and then adjust the seat through rotation axial, connect the material angle of material port and adjust.

Optionally, still be provided with air knife assembly on the mounting plate, air knife assembly is located the upper end that connects the material mouth and is located the ejection of compact and crosses between roller one and the ejection of compact and cross roller two, and air knife assembly produces the malleation to the waste material limit and blows, makes the waste material limit quick fall into and connects the material mouth.

Optionally, the air knife assembly comprises a third mounting plate arranged on the mounting base plate, an air knife mounting and adjusting rod is arranged on the third mounting plate, an air knife is arranged on the air knife mounting and adjusting rod, the air knife mounting and adjusting rod is arranged, the air blowing direction of the air knife can be adjusted according to actual use conditions, and the auxiliary waste material is fallen into the material receiving port.

Optionally, the dust collection roller comprises a dust collection pipe shaft and a dust collection wrapping roller, a dust collection opening is formed in the dust collection pipe shaft, a dust collection hole is formed in the dust collection wrapping roller, the dust collection wrapping roller is arranged on the outer surface of the dust collection pipe shaft, and the dust collection pipe shaft and the dust collection wrapping roller are rotatably mounted;

a fan-shaped dust collection waist hole is formed in the dust collection tubular shaft and used for adjusting the position of the dust collection hole according to the wrap angle of the pole piece on the dust collection roller;

the dust suction roller can adsorb pole pieces and waste materials after cutting is completed on the roller surface, restrain the waste materials, prevent the waste materials from falling, and meanwhile can clear away dust on the contact surface of the pole pieces.

Optionally, the dust removal module is still including being used for carrying out the outsourcing roller dust removal brush that removes dust to the outsourcing roller surface of dust absorption, outsourcing roller dust removal brush is located the relative one side through dust absorption outsourcing roller contact surface with the pole piece, avoids droplet and dust to cause the jam to the dust absorption hole on the outsourcing roller of dust absorption, ensures the dust absorption effect of dust absorption roller.

Optionally, the dust suction roller further comprises a bearing end cover used for locking and connecting the dust suction pipe shaft and the dust suction outer wrapping roller, and a positioning adjusting ring used for adjusting and positioning the bearing end cover, and the position of the dust suction roller is fixed, so that the stability of dust suction operation is improved.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model provides a be applied to battery tab laser cutting's oblique shape mouth and receive waste material device crosses roller one and the ejection of compact through setting up the ejection of compact and crosses roller two, has the guide effect and can smooth out the utmost point ear after the cutting with the waste material limit to utmost point piece, effectively improves the laser cutting quality, cooperates oblique shape mouth simultaneously and receives the waste material module, effectively solves the difficult problem that the waste material limit can not in time be got rid of.

Drawings

Fig. 1 is a front view of a bevel-shaped waste collecting device applied to laser cutting of a battery tab provided in an embodiment of the present invention;

fig. 2 is an isometric view of an oblique-mouth waste collecting device applied to laser cutting of a battery tab provided in an embodiment of the present invention;

fig. 3 is an isometric view of a dust extraction module provided in an embodiment of the present invention;

fig. 4 is a schematic view of a pipe support adjustment assembly provided in an embodiment of the present invention;

fig. 5 is a schematic view of a material port supporting and adjusting assembly provided in an embodiment of the present invention;

fig. 6 is a schematic view of a wind knife assembly provided in an embodiment of the present invention;

fig. 7 is a schematic view of a dust removal module provided in an embodiment of the present invention;

fig. 8 is a schematic view of a dust suction roller provided in an embodiment of the present invention;

fig. 9 is a cross-sectional view of a dust suction roller provided in an embodiment of the present invention;

fig. 10 is a cross-sectional view of a dust suction inlet of the dust suction roller provided in the embodiment of the present invention;

wherein, 1 is a roller passing module; 11 is feeding roller; 12 is a first discharging roller; 13 is a discharge roller II; 2, a laser cutting module; 3 is a dust removal module; 31 is a dust suction roller; 311 is a dust collecting pipe shaft; 3111 is a dust suction opening; 312 is a dust-absorbing wrapping roller; 3121 it is a dust collecting hole; 313 is a bearing end cover; 314 is a positioning adjusting ring; 32 is an outer roller dedusting brush; 4, a waste collecting module with an oblique opening; 41 is a mounting base plate; 42 is a waste collecting pipeline; 43 is a receiving port; 44 is a pipe support adjustment assembly; 441 is a first mounting plate; 442 is a first X-axis axial adjustment; 443 is a first Y-axis axial adjustment member; 444 is a first Z-axis axial adjustment; 445 is a pipeline supporting block; 45 is a material port supporting and adjusting component; 451 is a second mounting plate; 452 is a second X-axis axial adjustment; 453 is a second Y-axis axial adjustment; 454 is a second Z axis axial adjustment; 455 is an axial adjustment seat; 46 is a wind knife component; 461 is a third mounting plate; 462 an air knife installation adjusting rod; and 463 is an air knife.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention will be combined to clearly and completely describe the technical solutions of the embodiments of the present invention. The described embodiments are some, but not all embodiments of the invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

For example, the oblique-mouth waste collecting device applied to the laser cutting of the battery tab comprises a roller passing module, a laser cutting module, a dust removing module and an oblique-mouth waste collecting module; the roller passing module comprises a feeding roller, a discharging roller I and a discharging roller II, the dust removal module comprises a dust suction roller, the dust suction roller is positioned between the feeding roller and the discharging roller I, the laser cutting module is positioned between the feeding roller and the dust suction roller, and the oblique-shaped-opening waste collecting module is positioned between the discharging roller I and the discharging roller II.

The utility model provides a be applied to battery tab laser cutting's oblique shape mouth and receive waste material device, cross roller one and the ejection of compact through setting up the ejection of compact and cross roller two, have the guide effect and can smooth out the utmost point ear after the cutting with the waste material limit to the pole piece, effectively improve the laser cutting quality, cooperate the oblique shape mouth to receive the waste material module simultaneously, effectively solve the difficult problem that the waste material limit can not in time be got rid of.

The first embodiment is as follows:

as shown in fig. 1-3, the oblique-mouth waste collecting device applied to the laser cutting of the battery tab comprises a roller passing module 1, a laser cutting module 2, a dust removing module 3 and an oblique-mouth waste collecting module 4, wherein the roller passing module 1 is used for conveying a pole piece, conveying the pole piece to the laser cutting module 2 for cutting, conveying the pole piece to the dust removing module 3 for dust removal, and conveying the pole piece to the oblique-mouth waste collecting module 4 for waste edge recovery; the laser cutting module 2 is used for cutting the pole piece to enable the pole piece to present a pole lug with an adaptive shape; the dust removal module 3 is used for absorbing spray and dust generated by laser cutting; the oblique-opening waste collecting module 4 is used for recycling waste edges generated after the laser cutting module 2 cuts.

Specifically, the roller passing module 1 comprises a feeding roller 11, a first discharging roller 12 and a second discharging roller 13, and the pole pieces sequentially pass through the feeding roller 11, the first discharging roller 12 and the second discharging roller 13; dust removal module 3 includes dust absorption roller 31, dust absorption roller 31 is located the feeding and crosses between roller 11 and the ejection of compact roller 12, laser cutting module 2 is located the feeding and crosses between roller 11 and the dust absorption roller 31, the pole piece crosses roller 11 through the feeding and enters into laser cutting module 2 and carries out laser cutting promptly, utmost point ear and waste material limit after the cutting together enter into the ejection of compact after dust removal module 3 and cross roller 12, the ejection of compact crosses roller two 13, oblique shape mouth receipts waste material module 4 is located the ejection of compact and crosses between roller 12 and the ejection of compact roller two 13. When the secondary battery pack is installed and debugged for the first time, the cut pole lugs are pulled to the second discharging roller 13 manually, and the cut waste materials are pulled to the inclined opening waste material collecting module 4 for recycling.

When carrying out battery tab laser cutting, the pole piece unreels and crosses roller 11 and enter into to laser cutting module 2 positions through the feeding, laser cutting module 2 cuts the pole piece, pole piece after the cutting and waste material limit together enter into the ejection of compact and cross roller one 12, the ejection of compact crosses roller one 12, there is the guide effect and can smooth out the pole piece after the cutting with the waste material limit, the pole piece gets into the ejection of compact and crosses roller one 12 after, continue to convey to the ejection of compact and cross roller two 13, and the waste material limit crosses roller one 12 after the ejection of compact, enter into the oblique shape mouth and receive waste material module 4 and retrieve.

The second embodiment:

referring to fig. 3, the oblique-opening waste collecting module 4 includes an installation bottom plate 41 and a waste collecting pipeline 42, a material receiving opening 43 of the waste collecting pipeline 42 is an oblique opening, the material receiving opening 43 is located between a first discharging roller 12 and a second discharging roller 13, the cut tab and the waste edge pass through the first discharging roller 12 together, the tab is continuously conveyed to the second discharging roller 13, the waste edge enters the material receiving opening 43, the waste is recovered through the waste collecting pipeline 42, the material receiving opening 43 is designed to be an oblique opening in the present example, and the recovery path of the waste edge can be adapted more.

Wherein, be provided with on mounting plate 41 and be used for carrying out the pipeline that adjusts to the position of receiving waste pipe 42 and be used for carrying out the material mouth that adjusts to the position of material mouth 43 and support adjusting part 45, set up pipeline and support adjusting part 44 and material mouth and support adjusting part 45, can carry out corresponding regulation to receiving waste pipe 42 and material mouth 43 according to actual cutting position, in time get rid of the waste material limit.

Will connect material mouth 43 to support adjusting part 45 through the material mouth and install, support and adjust, will receive waste pipe 42 simultaneously and support adjusting part 44 through the pipeline and install, support and adjust, make the position that connects material mouth 43 and receive waste pipe 42 adapt to the recovery route on waste edge, in time get rid of the waste edge.

In order to further improve the timeliness of the removal of the waste, in this example, a negative pressure generator for generating negative pressure to exhaust air is arranged in the waste collecting pipeline 42, and a certain negative pressure is formed in the waste collecting pipeline by the arrangement of the negative pressure generator, so that the waste is sucked by the negative pressure.

Example three:

as shown in fig. 4, the pipe support adjusting assembly 44 includes a first mounting plate 441 disposed on the mounting base plate 41, the first mounting plate 441 is provided with a first X-axis axial adjusting member 442, a first Y-axis axial adjusting member 443 and a first Z-axis axial adjusting member 444, the first Z-axis axial adjusting member 444 is slidably mounted with a pipe support block 445 for mounting the waste collecting pipe 42, and the position of the pipe support block 445 is adjusted by the first X-axis axial adjusting member 442, the first Y-axis axial adjusting member 443 and the first Z-axis axial adjusting member 444 to match the actual cutting position to mount and support the waste collecting pipe 42.

Specifically, a plurality of adjusting mounting holes are formed in each of the first X-axis axial adjusting element 442 and the first Y-axis axial adjusting element 443, and are used for adjusting the X-axis direction and the Y-axis direction of the first mounting plate 441 and the first Z-axis axial adjusting element 444, a linear slide rail is arranged on each of the first Z-axis axial adjusting elements 444, a chute used for being matched with the linear slide rail is formed in each of the pipeline supporting blocks 445, so that the pipeline supporting blocks 445 can be slidably adjusted in the Z-axis direction, supporting holes are formed in each of the pipeline supporting blocks 445, and the waste collecting pipeline 42 can be mounted and supported.

As shown in fig. 5, the material port supporting and adjusting assembly 45 includes a second mounting plate 451 disposed on the mounting base plate 41, the second mounting plate 451 is provided with a second X-axis axial adjusting member 452, a second Y-axis axial adjusting member 453 and a second Z-axis axial adjusting member 454, the second Z-axis axial adjusting member 454 is provided with an axial adjusting seat 455 for adjusting the material receiving angle of the material port, and the position of the axial adjusting seat 455 is adjusted by the second X-axis axial adjusting member 452, the second Y-axis axial adjusting member 453 and the second Z-axis axial adjusting member 454, so as to match the actual cutting position, and further adjust the material receiving angle of the material port by rotating the axial adjusting seat.

Specifically, a plurality of adjusting mounting holes are formed in each of the second X-axis axial adjusting member 452 and the second Y-axis axial adjusting member 453, and are used for adjusting the X-axis and Y-axis directions of the second mounting plate 451 and the second Z-axis axial adjusting member 454, the axial adjusting base 455 is rotatably mounted on the second Z-axis axial adjusting member 454, and an adjusting handle is provided for performing rotational adjustment and locking and achieving adjustment in the Z-axis direction by using the second Z-axis axial adjusting member 454.

Example four:

referring to fig. 3 and 6, an air knife assembly 46 is further arranged on the mounting base plate 41, the air knife assembly 46 is located at the upper end of the receiving port 43 and located between the first discharging roller 12 and the second discharging roller 13, and the air knife assembly 46 generates positive pressure air blowing on the waste edge, so that the waste edge quickly falls into the receiving port 43.

Specifically, the air knife assembly 46 includes a third mounting plate 461 disposed on the mounting base plate 41, an air knife mounting and adjusting rod 462 is disposed on the third mounting plate 461, an air knife 463 is disposed on the air knife mounting and adjusting rod 462, and by disposing the air knife mounting and adjusting rod 462, the blowing air direction of the air knife 463 can be adjusted according to actual use conditions, so that the auxiliary waste material falls into the material receiving 43 port.

Example five:

as shown in fig. 7-10, the dust suction roller 31 includes a dust suction pipe shaft 311 and a dust suction wrapping roller 312, the dust suction pipe shaft 311 is provided with a dust suction opening 3111, the dust suction wrapping roller 312 is provided with a dust suction hole 3121, the dust suction wrapping roller 312 is disposed on the outer surface of the dust suction pipe shaft 311, the dust suction pipe shaft 311 and the dust suction wrapping roller 312 are rotatably mounted, the dust suction pipe shaft 311 is provided with a sector dust suction waist hole, and the sector dust suction waist hole is used for adjusting the position of the dust suction hole according to the wrapping angle of the pole piece on the dust suction roller;

the dust suction roller 31 can adsorb pole pieces and waste materials after cutting is completed on the roller surface, restrain the waste materials, prevent the waste materials from falling, and meanwhile can clear away dust on the contact surface of the pole pieces.

The plurality of dust suction holes 3121 are uniformly formed in the dust suction wrap roller 312, and the dust suction holes 3121 are in a communicated relationship with the dust suction opening 3111, so that the dust suction function at different positions of the dust suction wrap roller 312 can be implemented by rotating the direction of the dust suction opening 3111 of the dust suction pipe shaft 311. Wherein, dust removal module 3 still includes the outsourcing roller dust removal brush 32 that is used for removing dust to the outer surface of dust absorption outsourcing roller 312, and outsourcing roller dust removal brush 32 is located and passes through the relative one side of dust absorption outsourcing roller 312 contact surface with the pole piece, avoids droplet and dust to cause the jam to the dust absorption hole 3121 on the dust absorption outsourcing roller 312, ensures the dust absorption effect of dust absorption roller.

The dust collection roller 31 provided in this example further includes a bearing end cover 313 for locking and connecting the dust collection pipe shaft 311 and the dust collection wrapping roller 312, and a positioning adjustment ring 314 for adjusting and positioning the bearing end cover 313, so that the position of the dust collection roller 31 is fixed, and the stability of dust collection operation is improved.

To sum up, the utility model provides a pair of be applied to battery tab laser cutting's oblique shape mouth and receive waste material device crosses roller one and the ejection of compact through setting up the ejection of compact and crosses roller two, has the guide effect and can smooth out the utmost point ear after the cutting with the waste material limit to the utmost point piece, effectively improves the laser cutting quality, cooperates the oblique shape mouth simultaneously and receives the waste material module, effectively solves the difficult problem that the waste material limit can not in time get rid of.

In the description of the present invention, it should be understood that the terms indicating the orientation or the positional relationship are based on the orientation or the positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Claims (10)

1. The oblique-mouth waste collecting device applied to the laser cutting of the battery tab is characterized by comprising a roller passing module (1), a laser cutting module (2), a dust removal module (3) and an oblique-mouth waste collecting module (4);

roller (11), the ejection of compact is crossed roller one (12) and the ejection of compact is crossed roller two (13) including the feeding in roller module (1), dust removal module (3) are including dust absorption roller (31), dust absorption roller (31) are located the feeding and cross between roller (11) and the ejection of compact roller one (12), laser cutting module (2) are located the feeding and cross between roller (11) and dust absorption roller (31), oblique shape mouth receipts waste material module (4) are located the ejection of compact and cross between roller one (12) and the ejection of compact roller two (13).

2. The bevel-shaped waste collecting device applied to the laser cutting of the battery tabs is characterized in that the bevel-shaped waste collecting module (4) comprises a mounting base plate (41) and a waste collecting pipeline (42), a material receiving opening (43) of the waste collecting pipeline (42) is a bevel-shaped opening, and the material receiving opening (43) is located between the first discharging roller (12) and the second discharging roller (13);

and the mounting bottom plate (41) is provided with a pipeline supporting and adjusting component (44) for adjusting the position of the waste collecting pipeline (42) and a material port supporting and adjusting component (45) for adjusting the position of the material port (43).

3. The bevel-shaped waste collecting device applied to the laser cutting of the battery tab as claimed in claim 2, wherein a negative pressure generator for generating negative pressure air exhaust is arranged in the waste collecting pipeline (42).

4. The bevel-mouth waste collecting device applied to the laser cutting of the battery tabs is characterized in that the pipeline supporting and adjusting assembly (44) comprises a first mounting plate (441) arranged on a mounting base plate (41), a first X-axis axial adjusting piece (442), a first Y-axis axial adjusting piece (443) and a first Z-axis axial adjusting piece (444) are arranged on the first mounting plate (441), and a pipeline supporting block (445) for mounting the waste collecting pipeline (42) is slidably mounted on the first Z-axis axial adjusting piece (444).

5. The oblique-mouth waste collecting device applied to the laser cutting of the battery tabs is characterized in that the material port supporting and adjusting assembly (45) comprises a second mounting plate (451) arranged on a mounting base plate (41), a second X-axis axial adjusting piece (452), a second Y-axis axial adjusting piece (453) and a second Z-axis axial adjusting piece (454) are arranged on the second mounting plate (451), and an axial adjusting seat (455) used for adjusting the material receiving angle of the material port (43) is arranged on the second Z-axis axial adjusting piece (454).

6. The bevel-shaped port waste collecting device applied to the laser cutting of the battery tabs is characterized in that a fan blade assembly (46) is further arranged on the mounting base plate (41), and the fan blade assembly (46) is located at the upper end of the material receiving port (43) and located between the first discharging roller (12) and the second discharging roller (13).

7. The bevel-mouth scrap collecting device applied to the laser cutting of the battery tab as claimed in claim 6, wherein the air knife assembly (46) comprises a third mounting plate (461) arranged on the mounting base plate (41), an air knife mounting and adjusting rod (462) is arranged on the third mounting plate (461), and an air knife (463) is arranged on the air knife mounting and adjusting rod (462).

8. The bevel-mouth waste collecting device applied to the laser cutting of the battery tabs as claimed in claim 1, wherein the dust suction roller (31) comprises a dust suction pipe shaft (311) and a dust suction wrapping roller (312), a dust suction opening (3111) is arranged on the dust suction pipe shaft (311), a dust suction hole (3121) is arranged on the dust suction wrapping roller (312), the dust suction wrapping roller (312) is arranged on the outer surface of the dust suction pipe shaft (311), and the dust suction pipe shaft (311) and the dust suction wrapping roller (312) are rotatably mounted;

a fan-shaped dust collection waist hole is formed in the dust collection pipe shaft (311), and the fan-shaped dust collection waist hole is used for adjusting the position of the dust collection hole (3121) according to the wrap angle of the pole piece on the dust collection roller (31).

9. The bevel-mouth waste collecting device applied to the laser cutting of the battery tab as claimed in claim 8, wherein the dust removing module (3) further comprises an outer wrapping roller dust removing brush (32) for removing dust on the outer surface of the dust removing outer wrapping roller (312), and the outer wrapping roller dust removing brush (32) is positioned on the opposite side of the contact surface of the pole piece passing through the dust removing outer wrapping roller (312).

10. The beveled edge waste collecting device applied to the laser cutting of the battery tabs according to claim 8, wherein the dust suction roller (31) further comprises a bearing end cover (313) for locking and connecting the dust suction pipe shaft (311) and the dust suction wrapping roller (312), and a positioning adjusting ring (314) for adjusting and positioning the bearing end cover (313).

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