CN215070014U - Film strip cutting device - Google Patents

Abstract

The utility model provides a film tape cutting device, draw the roller set, cut and bear the weight of mechanism and cut the mechanism including the film tape, wherein: the film belt traction roller set is arranged in the front of the cutting bearing mechanism and is configured to draw the film belt to be cut to the cutting bearing mechanism along a first horizontal direction; the cutting mechanism is arranged above the cutting bearing mechanism and is configured to cut the film belt borne on the cutting bearing mechanism along a second horizontal direction perpendicular to the first horizontal direction. Draw the roller set, cut the cooperation that bears the weight of the mechanism and cut the mechanism through the membrane area, the utility model discloses can will treat that the membrane area that cuts is automatic to draw and cut the station and accomplish the automation to the membrane area and cut to the cutting efficiency in membrane area has been promoted.

Description

Film strip cutting device

Technical Field

The utility model belongs to the technical field of battery production and specifically relates to a membrane area cutting device.

Background

The battery pieces are welded into a string by the welding strips, and then are subjected to a series of post-treatment processes, and finally are laminated to form the battery assembly. In the process, the overlapping position of each adjacent battery piece in the battery string is easy to crack and damage due to overlarge rigid extrusion force. In order to relieve the rigid pressing force between the adjacent battery pieces, it is necessary to insert a cut film strip having a predetermined width at the overlapping position of the adjacent battery pieces and then heat the battery string after the film insertion to achieve melt-solidification of the film strip. The traditional film tape cutting is generally finished manually, and the manual cutting has the obvious defect of low efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an aspect provides a film strip cutting device, its concrete technical scheme as follows:

the utility model provides a membrane area cutting device, includes membrane area traction roller set, cuts and bears the weight of the mechanism and cut the mechanism, wherein:

the film belt traction roller set is arranged in the front of the cutting bearing mechanism and is configured to draw the film belt to be cut to the cutting bearing mechanism along a first horizontal direction;

the cutting mechanism is arranged above the cutting bearing mechanism and is configured to cut the film belt borne on the cutting bearing mechanism along a second horizontal direction perpendicular to the first horizontal direction.

Draw the roller set, cut the cooperation that bears the weight of the mechanism and cut the mechanism through the membrane area, the utility model discloses can will treat that the membrane area that cuts is automatic to draw and cut the station and accomplish the automation to the membrane area and cut to the cutting efficiency in membrane area has been promoted.

In some embodiments, the film strip pull roll set comprises a first pull roll, a second pull roll, and a pull roll drive; the first traction roller and the second traction roller extend along a second horizontal direction, and a traction gap for a film belt to pass through is arranged between the first traction roller and the second traction roller; the pull roll drive is configured to drive rotation of the first pull roll and/or the second pull roll to drive the film strip into and through the pull gap.

Through the cooperation of first carry over pinch rolls, second carry over pinch rolls and carry over pinch rolls drive arrangement, the stable centre gripping and the drawing of membrane area have been realized to membrane area carry over pinch rolls group.

In some embodiments, the cutting mechanism comprises a first guide rail, a cutter mounting plate, a first drive motor, a rotary cutter, a second drive motor, wherein: the first guide rail is arranged above the cutting bearing mechanism and extends along a second horizontal direction; the cutter mounting plate is connected to the first guide rail in a sliding mode and is in transmission connection with the driving end of the first driving motor, and the rotary cutter is connected to the lower end of the cutter mounting plate and is in transmission connection with the driving end of the second driving motor; the first driving motor is used for driving the cutter mounting plate to translate along the first guide rail so as to drive the rotary cutter to translate from the first end of the cutting bearing mechanism to the second end of the cutting bearing mechanism, and the second driving motor is used for driving the rotary cutter to rotate so as to cut a film belt borne on the cutting bearing mechanism.

The utility model provides a simple structure's mechanism that cuts, through first driving motor and second driving motor's joint drive, rotary cutter from the first end translation of cutting the bearing mechanism to cutting the second end that bears the mechanism to the realization is cut the automation of bearing in the membrane area that cuts bearing mechanism.

In some embodiments, the cutting and bearing mechanism comprises a plurality of film strip adsorption plates which are arranged side by side and extend along the second horizontal direction, and the width of each film strip adsorption plate is matched with the width of the film strip to be cut; the rotary cutter comprises a rotary cutter shaft extending along a first horizontal direction and a plurality of rotary blades which are arranged on the rotary cutter shaft side by side and correspond to the film tape adsorption plates one by one; the film belt drawn out from the film belt traction roller set is adsorbed on each film belt adsorption plate, and after the film belt is cut by the rotary cutter, each film belt adsorption plate correspondingly adsorbs one cut film belt.

Through setting up cutting bearing mechanism and rotary cutter, the utility model discloses carry out once and cut the action and can acquire many membrane areas that have predetermined width to further promote cutting efficiency.

In some embodiments, the film strip cutting device further comprises an adsorption plate opening mechanism for opening each film strip adsorption plate so as to separate the cut film strips adsorbed on each film strip adsorption plate from each other.

The separation of the cut film strips adsorbed on the film strip adsorption plates is realized by arranging the adsorption plate opening mechanism, so that the subsequent film strip blanking operation is facilitated.

In some embodiments, the first end and/or the second end of the film tape adsorption plate is/are formed with a cutter avoiding groove, and when the rotary cutter translates to the cutter avoiding groove, the rotary cutter is separated from the film tape adsorption plate.

It can be seen that the cutter avoiding groove is formed in the end part of the film strip adsorption plate, the rotary cutter can be separated from the film strip adsorption plate when moving to the position above the cutter avoiding groove, and at the moment, the rotary cutter does not need to be lifted upwards, and the opening operation of each adsorption plate can be implemented.

In some embodiments, the film strip adsorption plate includes a first adsorption plate, a second adsorption plate and at least one third adsorption plate, the adsorption plate opening mechanism includes a second guide rail, an adsorption plate driving mechanism, and a pulling belt, wherein: the second guide rail is arranged along the first horizontal direction; the first adsorption plate is fixedly connected to the second guide rail; the second adsorption plate is connected to the second guide rail in a sliding mode and is connected with the driving end of the adsorption plate driving mechanism; the third adsorption plate is connected to the second guide rail in a sliding mode and is positioned between the first adsorption plate and the second adsorption plate; the traction belt is sequentially connected with the first adsorption plate, the second adsorption plate and the third adsorption plate; when adsorption plate actuating mechanism drive second adsorption plate slides to cutting position towards first adsorption plate, second adsorption plate and third adsorption plate fold, and when adsorption plate actuating mechanism drive second adsorption plate kept away from first adsorption plate and slides to opening the position, first adsorption plate, second adsorption plate and third adsorption plate opened.

The film strip adsorption plate and the adsorption plate opening mechanism are adaptively arranged, so that the opening operation of the adsorption plate opening mechanism on the film strip adsorption plate is realized.

In some embodiments, the adsorption plate driving mechanism includes a belt disposed along the first horizontal direction, the second adsorption plate is connected to a belt body of the belt, and the belt drives the second adsorption plate to translate along the second guide rail.

The utility model provides a simple adsorption plate actuating mechanism, its transport through the belt drives the second adsorption plate and stabilizes the translation along the second guide rail.

In some embodiments, the film strip cutting device further comprises a film strip flattening roller set arranged in the front of the film strip traction roller set, and the film strip flattening roller set comprises a first flattening roller and a second flattening roller; the first flattening roller and the second flattening roller extend along a second horizontal direction, and a flattening gap for the film belt to pass through is formed between the first flattening roller and the second flattening roller; and the film belt to be cut passes through the flattening gap and then enters the film belt traction roller set.

Through setting up the membrane area and flattening the roller set, realized flattening, the plastic to the membrane area.

In some embodiments, the film strip cutting apparatus further comprises a mounting frame and a lift mounting plate, wherein: a third guide rail extending along the vertical direction is arranged on the mounting rack; the lifting mounting plate is connected to the mounting rack in a sliding manner through a third guide rail; the film belt traction roller set, the cutting bearing mechanism and the cutting mechanism are all arranged on the lifting mounting plate.

Through drawing the roller set with the membrane area, cut and bear the weight of the mechanism and cut the mechanism setting on the lift mounting panel that can go up and down, realized drawing the roller set with the membrane area, cut and bear the weight of the mechanism and cut the synchronous lift of mechanism.

In some embodiments, the film strip cutting device further comprises a film strip feeding mechanism arranged in front of the film strip drawing roller group, and the film strip feeding mechanism is configured to fix the film strip roll and rotate the film strip roll to feed the film strip.

Through setting up membrane area feed mechanism, realized treating the automatic feed who cuts the membrane area.

Drawings

FIG. 1 is a schematic structural view of a film strip cutting device according to the present invention at a viewing angle;

FIG. 2 is a schematic structural view of the film strip cutting device of the present invention at two viewing angles;

FIG. 3 is a schematic structural view of a film strip adsorption plate;

fig. 1 to 3 include:

the film belt cutting device comprises a film belt traction roller set 10, a cutting bearing mechanism 20, a cutting mechanism 30, an adsorption plate opening mechanism 40, a film belt flattening roller set 50, an installation rack 60 and a lifting installation plate 70;

a first adsorption plate 21, a second adsorption plate 22, and a third adsorption plate 23;

a first guide rail 31, a cutter mounting plate 32, a first driving motor 33, a rotary cutter 34 and a second driving motor 35;

a second guide rail 41, a suction plate driving mechanism 42, and a pulling belt 43.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

The battery pieces are welded into a string by the welding strips, and then are subjected to a series of post-treatment processes, and finally are laminated to form the battery assembly. In the process, the overlapping position of each adjacent battery piece in the battery string is easy to crack and damage due to overlarge rigid extrusion force. In order to relieve the rigid pressing force between the adjacent battery pieces, it is necessary to insert a cut film strip having a predetermined width at the overlapping position of the adjacent battery pieces and then heat the battery string after the film insertion to achieve melt-solidification of the film strip. The traditional film tape cutting is generally finished manually, and the manual cutting has the obvious defect of low efficiency.

In view of this, the utility model provides a film area cutting device, it can be with the automatic film area that treats to cut draw to cutting the station and accomplish the automatic cutting to the film area.

As shown in fig. 1, the embodiment of the present invention provides a film strip cutting device, which comprises a film strip traction roller set 10, a cutting bearing mechanism 20 and a cutting mechanism 30, wherein:

a film tape drawing roller group 10 is provided in front of the cutting support mechanism 20, and the film tape drawing roller group 10 is configured to draw the film tape to be cut onto the cutting support mechanism 20 in a first horizontal direction (X-axis direction in the drawing).

The cutting mechanism 30 is disposed above the cutting support mechanism 20, and the cutting mechanism 30 is configured to cut the film tape supported on the cutting support mechanism 20 in a second horizontal direction (e.g., a Y-axis direction in the drawing) perpendicular to the first horizontal direction.

It is thus clear that draw roller set 10, cut the cooperation that bears mechanism 20 and cut mechanism 30 through the membrane area, the utility model discloses a membrane area cutting device can draw the membrane area that waits to cut automatically to cutting the station to accomplish the automation to the membrane area and cut, its is showing and is promoting membrane area cutting efficiency.

Optionally, the film strip drawing roller group 10 includes a first drawing roller, a second drawing roller and a drawing roller driving device. Wherein, first carry over pinch rolls and second carry over pinch rolls extend along the second horizontal direction, are equipped with the traction clearance that supplies the membrane area to pass through between first carry over pinch rolls and the second carry over pinch rolls. The drawing roller driving device is configured to drive the first drawing roller and the second drawing roller to rotate so as to drive the film strip to enter and pass through the drawing gap. It can be seen that the first and second pull rolls cooperate to grip the film web and draw it onto the cutting support 20 under the drive of the pull roll drive.

Optionally, as shown in fig. 1, the cutting mechanism 30 includes a first guide rail 31, a cutter mounting plate 32, a first driving motor 33, a rotary cutter 34, and a second driving motor 35, wherein: the first guide rail 31 is disposed above the cutting support mechanism 20 and extends in the second horizontal direction. The cutter mounting plate 32 is slidably connected to the first guide rail 31 and is in transmission connection with the driving end of the first driving motor 33, and the rotary cutter 34 is connected to the lower end of the cutter mounting plate 32 and is in transmission connection with the driving end of the second driving motor 35. The first driving motor 33 is used for driving the cutter mounting plate 32 to translate along the first guide rail 31 so as to drive the rotary cutter 34 to translate from the first end of the cutting bearing mechanism 20 to the second end of the cutting bearing mechanism 20, and the second driving motor 35 is used for driving the rotary cutter 34 to rotate so as to cut the film belt borne on the cutting bearing mechanism 20.

The cutting process of the film tape by the cutting mechanism 30 is as follows:

first, the first driving motor 33 drives the rotary cutter 34 to translate to the first end of the cutting support mechanism 20, and waits for the film tape drawing roller group 10 to draw the film tape to the cutting support mechanism 20.

After the film tape traction roller group 10 draws the film tape to the cutting bearing mechanism 20, the first driving motor 33 drives the rotary cutter 34 to translate from the first end of the cutting bearing mechanism 20 to the second end of the cutting bearing mechanism 20, and synchronously, the second driving motor 35 drives the rotary cutter 34 to rotate at a high speed. Thus, the film tape carried on the cutting support mechanism 20 is cut by the rotary cutter 34.

Optionally, the cutting and carrying mechanism 20 includes a plurality of film strip absorption plates arranged side by side and extending along the second horizontal direction, and the width of each film strip absorption plate is matched with the width of the film strip to be cut. Correspondingly, the rotary cutter 34 includes a rotary cutter shaft extending along the first horizontal direction and a plurality of rows of rotary blades arranged on the rotary cutter shaft and corresponding to the plurality of film tape adsorption plates. In the embodiment shown in fig. 2, the suction plate of the film tape is provided with four suction plates, and correspondingly, the rotary cutter 34 includes four rotary blades. And a rotary blade is correspondingly arranged between the adjacent film strip adsorption plates and at the side close to the film strip adsorption plate of the film strip traction roller group 10.

After the film belt traction roller group 10 draws the film belt to the cutting bearing mechanism 20, the film belt is tightly sucked by each film belt adsorption plate. Next, the rotary cutter 34 performs a cutting operation of the film tape by the cooperative driving of the first driving motor 33 and the second driving motor 35. After the cutting operation is finished, each film tape adsorption plate correspondingly adsorbs a cut film tape, and the width of the cut film tape is the same as that of the film tape adsorption plate.

It can be seen that, through setting up cutting bearing mechanism 20 and rotary cutter 34, the utility model discloses a membrane device is inserted to battery cluster carries out once and cuts the action and can acquire many membrane areas to further promoted cutting efficiency. In the embodiment shown in fig. 2, the battery string film inserting device can obtain four film strips after executing cutting action once.

Optionally, the utility model discloses a film tape cutting device still includes adsorption plate opening mechanism 40, and adsorption plate opening mechanism 40 is used for opening each film tape adsorption plate to make the film tape alternate segregation that is downcut that adsorbs on each film tape adsorption plate. That is, after the rotary cutter 34 finishes cutting the film strips, the adsorption plate opening mechanism 40 drives the adsorption plates of the film strips to separate from each other, so that the film strips adsorbed on the adsorption plates of the film strips are completely separated, and the film strips can be picked up and fed by the feeding mechanism conveniently.

As shown in fig. 2, the film strip adsorption plates may alternatively include a first adsorption plate 21, a second adsorption plate 22, and two third adsorption plates 23. The suction plate opening mechanism 40 includes a second guide rail 41, a suction plate driving mechanism 42, and a pulling belt 43. Wherein: the second guide rail 41 is provided along the first horizontal direction, and the first adsorption plate 21 is fixedly connected to the second guide rail 41. The second suction plate 22 is slidably coupled to the second guide rail 41 and is coupled to a driving end of the suction plate driving mechanism 42. The two third suction plates 23 are slidably connected to the second guide rail 41 and located between the first suction plate 21 and the second suction plate 22. The pulling belt 43 is connected to the first adsorption plate 21, the two third adsorption plates 23, and the second adsorption plate 22 in this order.

When the suction plate driving mechanism 42 drives the second suction plate 62 to slide toward the first suction plate 61 to the cutting position, the first suction plate 21, the second suction plate 22, and the two third suction plates 23 are completely closed together to form a cutting support surface, and at this time, the cutting operation can be performed. After cutting, the adsorption plate driving mechanism 42 drives the second adsorption plate 22 to slide towards the opening position far away from the first adsorption plate 21, and in the process, the pulling belt 43 is tensioned to drive the two third adsorption plates 23 to slide far away from the first adsorption plate 21, so that the first adsorption plate 21, the second adsorption plate 22 and the two third adsorption plates 23 are completely opened.

Of course, in the specific embodiment, other numbers of the third adsorption plates 23, such as one, three, etc., may be selected and arranged according to the number of the film tapes to be cut.

As shown in fig. 3, optionally, a cutter escape groove is formed at each of the first end and the second end of each of the film tape suction plates. Taking the first adsorption plate 21 as an example, during the cutting process, the rotary blade corresponding to the first adsorption plate 21 on the rotary cutter 34 abuts against the first adsorption plate 21, and when the rotary cutter 34 is translated to the cutter escape groove 211 at the first end or the second end of the first adsorption plate 21, the rotary blade is separated from the first adsorption plate 21.

It can be seen that the rotary cutter is separated from the film tape adsorption plates when moving to the position above the cutter avoiding groove by arranging the cutter avoiding groove at the end part of each film tape adsorption plate. Therefore, after the cutting operation is finished, the film tape adsorption plates can be opened without lifting the rotary cutter upwards.

With continued reference to fig. 2, the suction plate driving mechanism 42 may alternatively comprise a belt disposed in the first horizontal direction, and the second suction plate 22 may be connected to a belt body of the belt. The belt can drive the second absorption plate 22 to move horizontally along the second guide rail 41 during the operation process.

As shown in fig. 1, optionally, the film strip cutting device of the present invention further includes a film strip flattening roller set 50 disposed in front of the film strip traction roller set 10, and the film strip flattening roller set 50 includes a first flattening roller and a second flattening roller. First flattening roller and second flattening roller extend along the second horizontal direction, are equipped with the flattening clearance that supplies the membrane area to pass through between first flattening roller and the second flattening roller. The film belt enters the film belt traction roller set 10 only after being flattened by the first flattening roller and the second flattening roller. Namely, the utility model discloses a set up membrane area roll set 50 that flattens, realize flattening, the plastic before cutting the membrane area.

As shown in fig. 1, optionally, the film strip cutting device of the present invention further includes a mounting frame 60 and a lifting mounting plate 70, wherein: the mounting frame 60 is provided with a third guide rail extending in the vertical direction. The lifting mounting plate 70 is slidably connected to the mounting frame 60 via a third rail. The film strip traction roller group 10, the cutting bearing mechanism 20, the cutting mechanism 30 and other components are arranged on the lifting mounting plate 70.

The synchronous lifting of the film belt traction roller set 10, the cutting bearing mechanism 20 and the cutting mechanism 30 can be realized by arranging the components of the film belt traction roller set 10, the cutting bearing mechanism 20, the cutting mechanism 30 and the like on the lifting mounting plate 70 which can lift.

Optionally, the utility model discloses a membrane area cutting device is still including setting up the membrane area feed mechanism at the front of membrane area traction roller set 10, and membrane area feed mechanism is configured to fixed membrane area material and rolls up and drive the rotatory in order to realize the feed to the membrane area of membrane area material.

The invention has been described above with a certain degree of particularity and detail. It will be understood by those of ordinary skill in the art that the description of the embodiments is merely exemplary and that all changes that may be made without departing from the true spirit and scope of the present invention are intended to be within the scope of the present invention. The scope of the invention is defined by the appended claims rather than by the foregoing description of the embodiments. Moreover, the embodiments mentioned in the present application are not limited to single embodiments, but some embodiments can be combined.

Claims (11)

1. The utility model provides a film tape cutting device, its characterized in that, film tape cutting device includes that the film tape draws the roller set, cuts and bears mechanism and cut the mechanism, wherein:

the film belt traction roller set is arranged in the front of the cutting bearing mechanism and is configured to draw a film belt to be cut onto the cutting bearing mechanism along a first horizontal direction;

the cutting mechanism is arranged above the cutting bearing mechanism and is configured to cut a film belt borne on the cutting bearing mechanism along a second horizontal direction vertical to the first horizontal direction.

2. The film strip slitting device as claimed in claim 1, wherein said set of film strip draw rolls comprises a first draw roll, a second draw roll, and a draw roll drive;

the first traction roller and the second traction roller extend along the second horizontal direction, and a traction gap for a film belt to pass through is arranged between the first traction roller and the second traction roller;

the pull roll drive device is configured to drive the first pull roll and/or the second pull roll to rotate to drive the film strip into and through the pull gap.

3. The film strip cutting apparatus of claim 1 wherein the cutting mechanism comprises a first guide rail, a cutter mounting plate, a first drive motor, a rotary cutter, a second drive motor, wherein:

the first guide rail is arranged above the cutting bearing mechanism and extends along the second horizontal direction;

the cutter mounting plate is connected to the first guide rail in a sliding mode and is in transmission connection with the driving end of the first driving motor, and the rotary cutter is connected to the lower end of the cutter mounting plate and is in transmission connection with the driving end of the second driving motor;

the first driving motor is used for driving the cutter mounting plate to move horizontally along the first guide rail so as to drive the rotary cutter to move horizontally from the first end of the cutting bearing mechanism to the second end of the cutting bearing mechanism, and the second driving motor is used for driving the rotary cutter to rotate so as to cut a film belt borne on the cutting bearing mechanism.

4. The film strip slitting device as defined in claim 3 wherein:

the cutting and bearing mechanism comprises a plurality of film belt adsorption plates which are arranged side by side and extend along the second horizontal direction, and the width of each film belt adsorption plate is matched with the width of a film belt to be cut;

the rotary cutter comprises a rotary cutter shaft extending along the first horizontal direction and a plurality of rotary blades which are arranged on the rotary cutter shaft side by side and correspond to the film tape adsorption plates one by one;

the film belts drawn out from the film belt drawing roller group are adsorbed on the film belt adsorption plates, and after the film belts are cut by the rotary cutter, one cut film belt is correspondingly adsorbed on each film belt adsorption plate.

5. The film strip cutting apparatus as claimed in claim 4, further comprising a suction plate opening mechanism for opening each of the film strip suction plates to separate the cut film strips sucked on each of the film strip suction plates from each other.

6. The film strip cutting apparatus as claimed in claim 5, wherein the first end and/or the second end of the film strip suction plate is formed with a cutter escape groove, and when the rotary cutter is translated to the cutter escape groove, the rotary cutter is separated from the film strip suction plate.

7. The film strip slitting device as defined in claim 5 wherein:

the film tape adsorption plate comprises a first adsorption plate, a second adsorption plate and at least one third adsorption plate, the adsorption plate opening mechanism comprises a second guide rail, an adsorption plate driving mechanism and a pulling belt, wherein:

the second guide rail is arranged along the first horizontal direction;

the first adsorption plate is fixedly connected to the second guide rail;

the second adsorption plate is connected to the second guide rail in a sliding mode and is connected with the driving end of the adsorption plate driving mechanism;

the third adsorption plate is connected to the second guide rail in a sliding mode and is positioned between the first adsorption plate and the second adsorption plate;

the pulling belt is sequentially connected with the first adsorption plate, the second adsorption plate and the third adsorption plate;

when the adsorption plate driving mechanism drives the second adsorption plate to slide to a cutting position towards the first adsorption plate, the second adsorption plate and the third adsorption plate are folded, and when the adsorption plate driving mechanism drives the second adsorption plate to slide to an opening position away from the first adsorption plate, the second adsorption plate and the third adsorption plate are opened.

8. The film strip slitting device as defined in claim 7 wherein: adsorption plate actuating mechanism includes the edge the belt that first horizontal direction set up, the second adsorption plate with the area body coupling of belt, the belt drives the second adsorption plate is followed the translation of second guide rail.

9. The film strip slitting device as defined in claim 1 wherein: the film belt cutting device also comprises a film belt flattening roller set arranged in the front of the film belt traction roller set, and the film belt flattening roller set comprises a first flattening roller and a second flattening roller;

the first flattening roller and the second flattening roller extend along the second horizontal direction, and a flattening gap for a film belt to pass through is formed between the first flattening roller and the second flattening roller;

and the film belt to be cut passes through the flattening gap and then enters the film belt traction roller set.

10. The film strip slitting device as defined in claim 1 wherein: film tape cutting device still includes installation frame and lift mounting panel, wherein:

a third guide rail extending along the vertical direction is arranged on the mounting rack;

the lifting mounting plate is connected to the mounting rack in a sliding manner through the third guide rail;

the film belt traction roller set cuts and bears the weight of the mechanism and cut the mechanism and all set up on the lift mounting panel.

11. The film strip cutting apparatus of claim 1, further comprising a film strip feed mechanism disposed in front of the film strip pull roll group, the film strip feed mechanism configured to secure a film strip roll and rotate the film strip roll to effect feeding of the film strip.

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