CN116101567A

CN116101567A - Centrifugal paper recycling and receiving structure and method for unreeling and feeding belt of rubber coating machine

Info

Publication number: CN116101567A
Application number: CN202310107832.2A
Authority: CN
Inventors: 林巨广; 周殷捷; 汪波; 汪周; 姚红海; 付昀森
Original assignee: Anhui Juyi Technology Co Ltd
Current assignee: Anhui Juyi Technology Co Ltd
Priority date: 2023-01-30
Filing date: 2023-01-30
Publication date: 2023-05-12

Abstract

The invention provides a centrifugal paper recycling and receiving structure and method for an unreeling and feeding belt of an encapsulation machine, and belongs to the technical field of automatic battery cell equipment. The tape splicing structure includes: the first blue film unreeling mechanism and the second blue film unreeling mechanism are used for executing blue film unreeling operation; the first centrifugal paper winding mechanism is arranged at the output end of the first blue film unreeling mechanism and is used for recovering the centrifugal paper generated by the first blue film unreeling mechanism; the second centrifugal paper winding mechanism is arranged at the output end of the second blue film unreeling mechanism, and is arranged below the first centrifugal paper winding mechanism and used for recycling the centrifugal paper generated by the second blue film unreeling mechanism; a first tape splicing mechanism; the second tape connecting mechanism is arranged opposite to the first tape connecting mechanism, and the first tape connecting mechanism and the second tape connecting mechanism are used for being matched with each other so as to enable the blue film discharged by the first blue film unreeling mechanism or the second blue film unreeling mechanism to be connected to a blue film discharging end. The tape receiving structure and the tape receiving method can improve the unreeling and feeding efficiency of the rubber coating machine.

Description

Centrifugal paper recycling and receiving structure and method for unreeling and feeding belt of rubber coating machine

Technical Field

The invention relates to the technical field of automatic battery cell equipment, in particular to a centrifugal paper recycling and receiving structure and method for an unreeling and feeding belt of an encapsulation machine.

Background

Along with the improvement of the yield of the new energy automobile, the yield of the battery cell is synchronously improved. Higher requirements are also put forward to electric core automation equipment, and in the rubber coating machine rubber coating blue membrane feeding process, current blue membrane adopts the feed of double unreeling, but does not take automatic blue membrane mechanism, can't realize not shutting down the reload. In the use of blue film, the blue film without centrifugal paper has no good adhesion on the cell aluminum shell, and the existing feeding lacks the function.

Disclosure of Invention

The invention aims to provide a centrifugal paper recycling and receiving structure and method for an unreeling and feeding belt of an encapsulation machine, and the receiving structure and method can improve unreeling and feeding efficiency of the encapsulation machine.

In order to achieve the above object, the present invention provides a centrifugal paper recycling and receiving structure and method for an unreeling and feeding belt of an encapsulation machine, comprising:

the first blue film unreeling mechanism and the second blue film unreeling mechanism are used for executing blue film unreeling operation;

the first centrifugal paper winding mechanism is arranged at the output end of the first blue film unreeling mechanism and is used for recovering the centrifugal paper generated by the first blue film unreeling mechanism;

the second centrifugal paper winding mechanism is arranged at the output end of the second blue film unreeling mechanism, and is arranged below the first centrifugal paper winding mechanism and used for recycling the centrifugal paper generated by the second blue film unreeling mechanism;

the first tape receiving mechanism is arranged at one side of the first centrifugal paper winding mechanism, which is far away from the first blue film unreeling mechanism;

the second tape connecting mechanism is arranged on one side, far away from the second blue film unreeling mechanism, of the second centrifugal paper winding mechanism, is arranged opposite to the first tape connecting mechanism, and is used for being matched with the first tape connecting mechanism so as to connect the blue film unreeled by the first blue film unreeling mechanism or the second blue film unreeled by the second blue film unreeling mechanism to a blue film unreeling end;

and the cutting knife is arranged on one side, far away from the blue film discharging end, of the first tape connecting mechanism and the second tape connecting mechanism and is used for cutting the blue film.

Optionally, the tape splicing structure further comprises:

the first rolling shaft is arranged between the first blue film unreeling mechanism and the first centrifugal paper reeling mechanism and is used for pulling out a blue film material roll of the first blue film unreeling mechanism;

the third rolling shaft is arranged between the first rolling shaft and the first centrifugal paper winding mechanism and is used for connecting the centrifugal paper in the blue film material roll pulled out by the first rolling shaft;

and the fifth rolling shaft is arranged below the first rolling shaft and is used for connecting the blue film roll pulled out by the first rolling shaft and separated from the centrifugal paper.

Optionally, the tape splicing structure further comprises:

the first centrifugal paper buffer mechanism is arranged between the third roller and the first centrifugal paper winding mechanism and is used for buffering the centrifugal paper pulled out by the third roller;

and the seventh rolling shaft is arranged between the first centrifugal paper buffer mechanism and the first centrifugal paper winding mechanism and is used for connecting the centrifugal paper buffered by the first centrifugal paper buffer mechanism to the first centrifugal paper winding mechanism.

Optionally, the tape splicing structure further comprises:

and the ninth rolling shaft is arranged between the first centrifugal paper winding mechanism and the first tape receiving mechanism and is used for straightening a blue film material roll which is connected with the fifth rolling shaft and separated from the centrifugal paper.

Optionally, the tape splicing structure further comprises:

the second rolling shaft is arranged between the second blue film unreeling mechanism and the second centrifugal paper reeling mechanism and is used for pulling out a blue film material roll of the second blue film unreeling mechanism;

the fourth rolling shaft is arranged between the second rolling shaft and the second centrifugal paper winding mechanism and is used for connecting the centrifugal paper in the blue film material roll pulled out by the second rolling shaft;

and the sixth rolling shaft is arranged below the second rolling shaft and is used for connecting the blue film roll pulled out by the second rolling shaft and separated from the centrifugal paper.

Optionally, the tape splicing structure further comprises:

the second centrifugal paper buffer mechanism is arranged between the fourth roller and the second centrifugal paper winding mechanism and is used for buffering the centrifugal paper pulled out by the fourth roller;

and the eighth rolling shaft is arranged between the second centrifugal paper buffer mechanism and the second centrifugal paper winding mechanism and is used for connecting the centrifugal paper buffered by the second centrifugal paper buffer mechanism to the second centrifugal paper winding mechanism.

Optionally, the tape splicing structure further comprises:

and the tenth rolling shaft is arranged between the second centrifugal paper winding mechanism and the second tape receiving mechanism and is used for straightening a blue film material roll which is connected with the sixth rolling shaft and separated from the centrifugal paper.

Optionally, the tape splicing structure further comprises:

and the eleventh rolling shaft is arranged at the output ends of the first and second tape connecting mechanisms and is used for connecting the blue film pulled out by the ninth rolling shaft or the tenth rolling shaft.

In another aspect, the present invention also provides a method for recovering and splicing centrifugal paper from an unreeling and feeding belt of an encapsulation machine, the method for controlling the splicing structure according to any one of the above claims, the method comprising:

determining the unreeling state of the current first blue film unreeling mechanism and the current second blue film unreeling mechanism;

controlling the first tape receiving mechanism and the second tape receiving mechanism to press together under the condition that the blue film material roll of one of the first blue film unreeling mechanism and the second blue film unreeling mechanism is used up so as to connect the blue film at the blue film unreeling end to the other one of the first blue film unreeling mechanism and the second blue film unreeling mechanism;

and controlling a cutter to cut the blue film roll output by the cutter.

According to the technical scheme, the centrifugal paper recycling and receiving structure and method for the unreeling and feeding belt of the rubber coating machine provided by the invention, the first blue film unreeling mechanism and the second blue film unreeling mechanism are used for executing blue film unreeling operation; the first centrifugal paper winding mechanism and the second centrifugal paper winding mechanism are used for recycling centrifugal paper generated by the first blue film unreeling mechanism and the second blue film unreeling mechanism; the first tape connecting mechanism and the second tape connecting mechanism are oppositely arranged and matched with each other. Under the condition that the blue film material roll of one of the first blue film unreeling mechanism and the second blue film unreeling mechanism is used up, the first tape receiving mechanism and the second tape receiving mechanism are controlled to be pressed together so as to connect the blue film at the blue film unreeling end to the other one of the first blue film unreeling mechanism and the second blue film unreeling mechanism, and the cutter is controlled to cut the blue film material roll output by the one, so that the unreeling and feeding tape of the encapsulation machine can be produced without stopping tape receiving, and centrifugal paper is automatically recovered, and the unreeling and feeding efficiency of the encapsulation machine is improved.

Drawings

The accompanying drawings are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain, without limitation, the embodiments of the invention. In the drawings:

FIG. 1 is a front view of an exemplary embodiment of an unwind supply belt centrifugal paper recovery take-up structure of an encapsulation machine according to the present invention;

fig. 2 is a side view of an unwind supply belt centrifugal paper recovery take-up structure of an encapsulation machine according to one embodiment of the present invention.

Description of the reference numerals

1. First blue film unreeling mechanism 2 and second blue film unreeling mechanism

3. First centrifugal paper winding mechanism 4 and second centrifugal paper winding mechanism

5. First and second

tape splicing mechanisms

6 and 6

7. First roller 8, second roller

9. Third roller 10, fourth roller

11. Fifth roller 12, sixth roller

13. Seventh roller 14, eighth roller

15. Ninth roller 16, tenth roller

17. Eleventh roller 18 and first centrifugal paper buffer mechanism

19. Second centrifugal paper buffer storage mechanism

Detailed Description

The following describes the detailed implementation of the embodiments of the present invention with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the invention, are not intended to limit the invention.

In the embodiments of the present invention, unless otherwise indicated, terms of orientation such as "upper, lower, top, bottom" are used generally with respect to the orientation shown in the drawings or with respect to the positional relationship of the various components with respect to one another in the vertical, vertical or gravitational directions.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

FIG. 1 is a front view of an exemplary embodiment of an unwind and feed belt centrifugal paper recovery take-up configuration of an encapsulation machine according to the present invention; fig. 2 is a side view of an exemplary unwind supply belt centrifugal paper recovery take-up structure of an encapsulation machine according to an embodiment of the present invention. As shown in fig. 1 and 2, the tape splicing structure may include a first blue film unreeling mechanism 1, a second blue film unreeling mechanism 2, a first centrifugal paper reeling mechanism 3, a second centrifugal paper reeling mechanism 4, a first tape splicing mechanism 5, a second tape splicing mechanism 6, and a cutter (not shown in the drawings). The first blue film unreeling mechanism 1 and the second blue film unreeling mechanism 2 are used for executing blue film unreeling operation; the first centrifugal paper winding mechanism 3 is arranged at the output end of the first blue film unreeling mechanism 1 and is used for recycling centrifugal paper generated by the first blue film unreeling mechanism 1; the second centrifugal paper winding mechanism 4 is arranged at the output end of the second blue film unreeling mechanism 2, and is arranged below the first centrifugal paper winding mechanism 3 and used for recycling the centrifugal paper generated by the second blue film unreeling mechanism 2; the first tape connecting mechanism 5 is arranged on one side of the first centrifugal paper winding mechanism 3, which is far away from the first blue film unreeling mechanism 1, the second tape connecting mechanism 6 is arranged on one side of the second centrifugal paper winding mechanism 4, which is far away from the second blue film unreeling mechanism 2, and is opposite to the first tape connecting mechanism 5, and the first tape connecting mechanism 5 and the second tape connecting mechanism 6 are used for being mutually matched so as to connect the blue film unreeled by the first blue film unreeling mechanism 1 or the second blue film unreeling mechanism 2 to a blue film unreeling end; the cutting knife is arranged on one side of the first tape connecting mechanism 5 and the second tape connecting mechanism 6, which is far away from the blue film discharging end, and is used for cutting the blue film.

In this embodiment, in order to pull out the blue film roll of the first blue film unwinding mechanism 1, a first roller 7 is provided between the first blue film unwinding mechanism 1 and the first centrifugal paper winding mechanism 3, so that the blue film roll of the first blue film unwinding mechanism 1 starts to be pulled out. The blue film material roll with the centrifugal paper has better adhesion, the unreeling mechanism uses the blue film material roll with the centrifugal paper, a third roller 9 is arranged between the first roller 7 and the first centrifugal paper reeling mechanism 3 for separating the centrifugal paper from the blue film, the centrifugal paper in the blue film material roll pulled out by the first roller 7 is connected, and a fifth roller 11 is arranged below the first roller 7 for connecting the blue film material roll pulled out by the first roller 7 and separated from the centrifugal paper. And a first centrifugal paper buffer mechanism 18 is further arranged between the third roller 9 and the first centrifugal paper winding mechanism 3 and is used for buffering the centrifugal paper pulled out by the third roller 9. In order to connect the centrifugal paper of the first centrifugal paper buffering mechanism 18 to the first centrifugal paper rolling mechanism 3, a seventh roller 13 is further provided between the first centrifugal paper buffering mechanism 18 and the first centrifugal paper rolling mechanism 3 for connecting the centrifugal paper buffered by the first centrifugal paper buffering mechanism 18 to the first centrifugal paper rolling mechanism 3. In order to connect the blue film separated from the centrifugal paper to the output end, a ninth roller 15 is provided between the first centrifugal paper take-up mechanism 3 and the first tape splicing mechanism 5. The ninth roller 15 may be connected to the blue film pulled out of the fifth roller 11 so that the blue film separated from the centrifugal paper can be connected to the output end.

In this embodiment, in order to pull out the blue film roll of the second blue film unwinding mechanism 2, a second roller 8 is provided between the second blue film unwinding mechanism 2 and the second centrifugal paper winding mechanism 4 for pulling out the blue film roll of the second blue film unwinding mechanism 2. The blue film material roll with the centrifugal paper has better adhesion, the unreeling mechanism uses the blue film material roll with the centrifugal paper, a fourth roller 10 is arranged between the second roller 8 and the second centrifugal paper reeling mechanism 4 for separating the centrifugal paper from the blue film, the blue film material roll is used for being connected with the centrifugal paper in the blue film material roll pulled out by the second roller 8, and a sixth roller 12 is arranged below the second roller 8 for being connected with the blue film material roll which is pulled out by the second roller 8 and is separated from the centrifugal paper. And a second centrifugal paper buffer mechanism 19 is further arranged between the fourth roller 10 and the second centrifugal paper winding mechanism 4 and is used for buffering the centrifugal paper pulled out by the fourth roller 10. In order to connect the centrifugal paper of the second centrifugal paper buffering mechanism 19 to the second centrifugal paper rolling mechanism 4, an eighth roller 14 is further provided between the second centrifugal paper buffering mechanism 19 and the second centrifugal paper rolling mechanism 4 for connecting the centrifugal paper buffered by the second centrifugal paper buffering mechanism 19 to the second centrifugal paper rolling mechanism 4. In order to connect the blue film separated from the centrifugal paper to the output end, a tenth roller 16 is provided between the second centrifugal paper take-up mechanism 4 and the second taping mechanism 6. The tenth roller 16 may be connected to the sixth roller 12 so that the blue film separated from the centrifugal paper can be connected to the output end. In this embodiment, the output ends of the first and second tape splicing mechanisms 6 are further provided with an eleventh roller 17 for connecting the blue film pulled out by the ninth roller 15 or the tenth roller 16.

In the working process of the tape connecting structure, the first blue film unreeling mechanism 1 and the second blue film unreeling mechanism 2 are in a standby state, after the blue film of the first blue film unreeling mechanism 1 is unreeled in a using state, the blue film material roll with centrifugal paper is connected to the first rolling shaft 7 and then separated from the blue film, the centrifugal paper is connected to the third rolling shaft 9 through the first centrifugal paper buffer mechanism 18 and then is connected to the first centrifugal paper reeling mechanism 3 through the seventh rolling shaft 13 to realize automatic recycling of the centrifugal paper, and the blue film separated from the centrifugal paper is connected to the fifth rolling shaft 11 and then is connected to the ninth rolling shaft 15, so that the adhesive surface of the blue film is connected to the output end and the eleventh rolling shaft 17. The first blue film unreeling mechanism 1 in the standby state is also used for unreeling, centrifugal paper and blue film are separated by the first roller 7, the first centrifugal paper reeling mechanism 3 is connected with and retrieves the centrifugal paper through the seventh roller 13 after the centrifugal paper passes through the third roller 9 and the first centrifugal paper caching mechanism 18, the blue film separated from the centrifugal paper is connected with the fifth roller 11 and then connected to the ninth roller 15, and the adhesive surface of the blue film is connected to the tape connecting plate of the first tape connecting mechanism 5 through the ninth roller 15.

After the blue film of the second blue film unreeling mechanism 2 in the use state is discharged, the blue film material roll with the centrifugal paper is connected to the second roller 8 and then is separated from the blue film, the centrifugal paper is connected with the fourth roller 10 and then passes through the second centrifugal paper buffer mechanism 19, the centrifugal paper is connected to the second centrifugal paper reeling mechanism 4 through the eighth roller 14 to realize automatic recycling of the centrifugal paper, the blue film separated from the centrifugal paper is connected with the sixth roller 12 and then is connected to the tenth roller 16, and the non-adhesive surface of the blue film is connected to the output end and the eleventh roller 17. The second blue film unreeling mechanism 2 in the standby state is also unreeled, centrifugal paper and blue film are separated by the second rolling shaft 8, the second centrifugal paper reeling mechanism 4 is connected with and recovers the centrifugal paper through the eighth rolling shaft 14 after the centrifugal paper passes through the fourth rolling shaft 10 and the second centrifugal paper caching mechanism 19, the blue film separated from the centrifugal paper is connected with the sixth rolling shaft 12 and then connected to the tenth rolling shaft 16, and the non-adhesive surface of the blue film is contacted with the band-receiving plate of the second band-receiving mechanism 6 through the tenth rolling shaft 16, so that the band-receiving plate of the second band-receiving mechanism 6 fixes the blue film through vacuum adsorption.

In the working process of the tape splicing structure, the tape splicing structure needs to determine the unreeling state of the first blue film unreeling mechanism 1 and the second blue film unreeling mechanism 2 at present, and under the condition that the blue film material roll of one of the first blue film unreeling mechanism 1 and the second blue film unreeling mechanism 2 is used up, the first tape splicing mechanism 5 and the second tape splicing mechanism 6 are controlled to be pressed together so as to connect the blue film of the blue film unreeling end to the other one of the first blue film unreeling mechanism 1 and the second blue film unreeling mechanism 2, and the control cutter cuts the blue film material roll output by the one so that the used blue film material roll and the standby material roll are connected.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited thereto. The technical solution of the invention can be subjected to a plurality of simple variants within the scope of the technical idea of the invention. Including the combination of the specific features in any suitable manner, the invention will not be described in any way in any possible combination in order to avoid unnecessary repetition. Such simple variations and combinations are likewise to be regarded as being within the scope of the present disclosure.

Claims

1. The utility model provides a receiving area structure is retrieved to rubber coating machine unreels feed area centrifugal paper, its characterized in that, receiving area structure includes:

the first blue film unreeling mechanism (1) and the second blue film unreeling mechanism (2) are used for executing blue film unreeling operation;

the first centrifugal paper winding mechanism (3) is arranged at the output end of the first blue film unreeling mechanism (1) and is used for recycling centrifugal paper generated by the first blue film unreeling mechanism (1);

the second centrifugal paper winding mechanism (4) is arranged at the output end of the second blue film unreeling mechanism (2), and is arranged below the first centrifugal paper winding mechanism (3) and used for recycling centrifugal paper generated by the second blue film unreeling mechanism (2);

the first tape connecting mechanism (5) is arranged at one side of the first centrifugal paper winding mechanism (3) far away from the first blue film unreeling mechanism (1);

the second tape connecting mechanism (6) is arranged on one side, far away from the second blue film unreeling mechanism, of the second centrifugal paper reeling mechanism (4) and is arranged opposite to the first tape connecting mechanism (5), and the first tape connecting mechanism (5) and the second tape connecting mechanism (6) are used for being matched with each other so as to connect a blue film unreeled by the first blue film unreeling mechanism (1) or the second blue film unreeling mechanism (2) to a blue film unreeling end;

and the cutting knife is arranged on one side, far away from the blue film discharging end, of the first belt connecting mechanism (5) and the second belt connecting mechanism (6) and is used for cutting the blue film.

2. The ribbon structure of claim 1, further comprising:

the first rolling shaft (7) is arranged between the first blue film unreeling mechanism (1) and the first centrifugal paper reeling mechanism (3) and is used for pulling out a blue film material roll of the first blue film unreeling mechanism (1);

the third rolling shaft (9) is arranged between the first rolling shaft (7) and the first centrifugal paper winding mechanism (3) and is used for connecting the centrifugal paper in the blue film material roll pulled out by the first rolling shaft (7);

the fifth rolling shaft (11) is arranged below the first rolling shaft (7) and is used for connecting the blue film material roll which is pulled out by the first rolling shaft (7) and separated from the centrifugal paper.

3. The ribbon structure of claim 2, further comprising:

the first centrifugal paper caching mechanism (18) is arranged between the third roller (9) and the first centrifugal paper winding mechanism (3) and is used for caching the centrifugal paper pulled out by the third roller (9);

the seventh rolling shaft (13) is arranged between the first centrifugal paper buffering mechanism (18) and the first centrifugal paper rolling mechanism (3) and is used for connecting the centrifugal paper buffered by the first centrifugal paper buffering mechanism (18) to the first centrifugal paper rolling mechanism (3).

4. The ribbon coupling structure of claim 3, further comprising:

and the ninth roller (15) is arranged between the first centrifugal paper winding mechanism (3) and the first tape receiving mechanism (5) and is used for straightening a blue film roll which is connected with the fifth roller (11) and separated from the centrifugal paper.

5. The ribbon coupling structure of claim 4, further comprising:

the second rolling shaft (8) is arranged between the second blue film unreeling mechanism (2) and the second centrifugal paper reeling mechanism (4) and is used for pulling out a blue film material roll of the second blue film unreeling mechanism (2);

the fourth rolling shaft (10) is arranged between the second rolling shaft (8) and the second centrifugal paper winding mechanism (4) and is used for connecting the centrifugal paper in the blue film material roll pulled out by the second rolling shaft (8);

and the sixth rolling shaft (12) is arranged below the second rolling shaft (8) and is used for connecting the blue film material roll which is pulled out by the second rolling shaft (8) and separated from the centrifugal paper.

6. The ribbon coupling structure of claim 5, further comprising:

the second centrifugal paper caching mechanism (19) is arranged between the fourth roller (10) and the second centrifugal paper winding mechanism (4) and is used for caching the centrifugal paper pulled out by the fourth roller (10);

and the eighth rolling shaft (14) is arranged between the second centrifugal paper buffer mechanism (19) and the second centrifugal paper winding mechanism (4) and is used for connecting the centrifugal paper buffered by the second centrifugal paper buffer mechanism (19) to the second centrifugal paper winding mechanism (4).

7. The ribbon structure of claim 6, further comprising:

and a tenth rolling shaft (16) is arranged between the second centrifugal paper winding mechanism (4) and the second tape receiving mechanism (6) and is used for straightening a blue film material roll which is connected with the sixth rolling shaft (12) and separated from the centrifugal paper.

8. The ribbon structure of claim 7, further comprising:

the eleventh roller (17) is arranged at the output ends of the first tape connecting mechanism (5) and the second tape connecting mechanism (6) and is used for connecting the blue film pulled out by the ninth roller (15) or the tenth roller (16).

9. A method of recycling and splicing centrifugal paper from an unwind supply of an encapsulation machine for controlling a splicing structure according to any one of claims 1 to 8, said method comprising:

determining the unreeling state of a current first blue film unreeling mechanism (1) and a current second blue film unreeling mechanism (2);

controlling the first tape receiving mechanism (5) and the second tape receiving mechanism (6) to press together so as to connect the blue film at the blue film discharging end to the other one of the first blue film unwinding mechanism (1) and the second blue film unwinding mechanism (2) when the blue film material roll of the one of the first blue film unwinding mechanism (1) and the second blue film unwinding mechanism (2) is used up;

and controlling a cutter to cut the blue film roll output by the cutter.