CN215903555U

CN215903555U - Foam cutting device

Info

Publication number: CN215903555U
Application number: CN202120639348.0U
Authority: CN
Inventors: 李文; 蒋烜; 马彪; 张海欧
Original assignee: Wuxi Autowell Technology Co Ltd
Current assignee: Wuxi Autowell Technology Co Ltd
Priority date: 2021-03-30
Filing date: 2021-03-30
Publication date: 2022-02-25
Anticipated expiration: 2031-03-30

Abstract

The utility model provides a foam cutting device which comprises a feeding mechanism, a flow dividing mechanism, a cutting and bearing mechanism, a traction mechanism, a release film winding roller and a foam cutting mechanism, wherein the foam cutting mechanism comprises: the feeding mechanism is configured to supply the foam with the release film to the shunting mechanism; the shunting mechanism is configured to shunt the foam with the release film into the release film and the foam; the cutting bearing mechanism is positioned at the rear of the flow dividing mechanism and close to the flow dividing mechanism; the drawing mechanism is configured to draw the release film shunted out from the shunting mechanism, so that the release film moves towards the release film winding roller and is wound on the release film winding roller, and the foam shunted out from the shunting mechanism moves to the cutting and bearing mechanism; the foam cutting mechanism is configured to cut foam on the cutting and bearing mechanism. The automatic cutting machine can realize automatic cutting of foam, and can remove the release film on the foam, so that the feeding efficiency of the foam is improved.

Description

Foam cutting device

Technical Field

The utility model relates to the field of battery production, in particular to a foam cutting device.

Background

In the production process of the lithium battery module, because the lugs of the battery cells of certain models are softer, the insulating foam cotton with preset length is required to be placed between the adjacent lugs to support the lugs, and the phenomenon that the lugs collapse under the action of self gravity in the subsequent treatment process is avoided.

The traditional foam feeding method comprises the steps of firstly cutting coiled foam with a release film into a preset length by a cutter, then manually tearing the release film on the foam, and finally conveying the foam to a feeding station of the battery cell production equipment by a conveying device. The traditional foam feeding method has the obvious defect of low efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a foam cutting device, which has the following specific technical scheme:

the utility model provides a cotton cutting device of bubble, includes feeding mechanism, reposition of redundant personnel mechanism, cuts and bears mechanism, traction mechanism, from type membrane wind-up roll and bubble cotton cutting mechanism, wherein:

the feeding mechanism is configured to supply the foam with the release film to the shunting mechanism;

the shunting mechanism is configured to shunt the foam with the release film into the release film and the foam;

the cutting bearing mechanism is positioned at the rear of the flow dividing mechanism and close to the flow dividing mechanism;

the drawing mechanism is configured to draw the release film shunted out from the shunting mechanism, so that the release film moves towards the release film winding roller and is wound on the release film winding roller, and the foam shunted out from the shunting mechanism moves to the cutting and bearing mechanism;

the foam cutting mechanism is configured to cut foam on the cutting and bearing mechanism.

The foam cutting device disclosed by the utility model not only can realize automatic cutting of foam, but also can remove the release film on the foam, so that the feeding efficiency of the foam is improved.

In some embodiments, the feeding mechanism comprises an emptying roller and a guiding mechanism, wherein: the discharging roller is configured to wind and store foam with a release film; the material guiding mechanism is configured to guide the foam with the release film wound on the discharging roller to the shunting mechanism.

Through the cooperation of blowing roller and guide mechanism, feed mechanism can supply the cotton smoothly of taking the bubble from the type membrane to reposition of redundant personnel mechanism department.

In some embodiments, the flow distribution mechanism is a flow distribution plate, and a gap for the release film to pass through is kept between the flow distribution plate and the cutting and bearing mechanism; the foam cotton with the release film, which is discharged from the feeding mechanism, clings to the flow distribution plate along a first horizontal direction to move towards the cutting bearing mechanism and is distributed into the release film and the foam cotton at the gap, wherein the release film deviates from the first horizontal direction, turns, penetrates through the gap and then is wound onto the release film winding roller, and the foam cotton continues to move to the cutting bearing mechanism along the first horizontal direction.

The utility model provides a simple structure's reposition of redundant personnel mechanism has realized the reposition of redundant personnel of bubble cotton and release film.

In some embodiments, the cutting bearing mechanism comprises a horizontally arranged cutting support plate and a first lifting driving mechanism, wherein a cutting channel which penetrates through the cutting support plate and extends along a second horizontal direction perpendicular to the first horizontal direction is formed on the cutting support plate; the foam cutting mechanism is positioned below the cutting support plate and comprises a cutter moving mechanism and a vibrating cutter, the vibrating cutter is connected to the cutter moving mechanism, and the cutter moving mechanism is used for driving the vibrating cutter to move horizontally; the cutter moving mechanism is configured to drive the vibrating cutter to translate along a first horizontal direction so that a cutter head of the vibrating cutter is aligned with the cutting channel, the first lifting driving mechanism is configured to drive the cutting support plate to descend so that the cutter head of the vibrating cutter upwards penetrates through the cutting channel to be in contact with foam loaded on the cutting support plate, and the cutter moving mechanism is further configured to drive the vibrating cutter to translate along a second horizontal direction so as to cut the foam loaded on the cutting support plate.

Through setting up cutting bearing mechanism and the cotton mechanism that cuts of bubble, realized cutting bearing in the cotton of bubble that cuts in the backup pad. Particularly, the vibration cutter is used as a cutting part, so that the flatness of the foam cut part can be guaranteed.

In some embodiments, at least two limiting blocks are arranged on the cutting supporting plate along the second horizontal direction, and a foam limiting area with the width matched with that of the foam is formed between every two adjacent limiting blocks; the cutting support plate is also provided with a stop block positioned in the foam limiting area; the foam moves to the foam limiting area along the first horizontal direction until the free end of the foam abuts against the stop block.

Through set up the cotton spacing district of width and the cotton width assorted bubble of bubble in the backup pad that cuts, realized the spacing regular to the bubble cotton. And through set up the stop block in the cotton spacing district of bubble, then prevent that excessive bubble from getting into in the cotton spacing district of bubble, lead to the bubble cotton overlength that cuts down.

In some embodiments, the cutter movement mechanism comprises a first horizontal drive mechanism and a second horizontal drive mechanism, wherein: the second horizontal driving mechanism is connected to the driving end of the first horizontal driving mechanism, the vibration cutter is connected to the driving end of the second horizontal driving mechanism, the first horizontal driving mechanism drives the vibration cutter to move along the first horizontal direction, and the second horizontal driving mechanism drives the vibration cutter to move horizontally along the second horizontal direction.

Through the cooperation drive of first horizontal drive mechanism and second horizontal drive mechanism, realized shaking the removal of cutter on the horizontal direction, finally realized shaking the cutter and to the cotton cutting of the bubble of target position department.

In some embodiments, the pulling mechanism is located below the shunting mechanism, the pulling mechanism comprises a first mounting plate, a second lifting driving mechanism, a fixed clamping plate, a movable clamping plate and a movable clamping plate driving mechanism, wherein: the first mounting plate is connected with a driving mechanism of the second lifting driving mechanism, and the second lifting driving mechanism is used for driving the first mounting plate to lift; the fixed clamping plate is connected to the first mounting plate and is positioned on the outer side of the mounting plate; the movable clamping plate driving mechanism is arranged on the first mounting plate, the movable clamping plate is connected to the driving end of the movable clamping plate driving mechanism, and the movable clamping plate driving mechanism is used for driving the movable clamping plate to move towards or away from the fixed clamping plate; the release film which is divided from the flow dividing mechanism passes through the fixed clamping plate and the movable clamping plate, the second lifting driving mechanism drives the first mounting plate to move upwards to a high position, the movable clamping plate is driven by the movable clamping plate to move towards the fixed clamping plate so as to clamp the release film, and the second lifting driving mechanism drives the first mounting plate to move downwards to a low position so as to realize traction of the release film.

The drawing mechanism is simple in structure, the release film is clamped and drawn through the fixed clamping plate and the movable clamping plate, and therefore synchronous driving of the release film and foam is achieved.

In some embodiments, the foam cutting device further comprises a pressing mechanism arranged above the flow dividing mechanism and the cutting and bearing mechanism, the pressing mechanism comprises a second mounting plate, a mounting plate driving mechanism, a first pressing piece and a second pressing piece, wherein: the second mounting plate is connected to the mounting plate driving mechanism, and the mounting plate driving mechanism drives the second mounting plate to move between a pressing position and an avoiding position; the first pressing piece and the second pressing piece are connected to the second mounting plate; the second mounting panel removes to when compressing tightly the position, first compressing tightly the top that is located the reposition of redundant personnel mechanism in order to implement the cotton compressing tightly of the bubble of the type membrane of taking on being located the reposition of redundant personnel mechanism, the second compresses tightly the top that is located the bearing mechanism of cutting in order to implement the cotton compressing tightly of the bubble of treating cutting on being located the bearing mechanism of cutting.

Through setting up hold-down mechanism to pressing down mechanism further sets to including first pressing down piece and second and compresses tightly the piece, realized pressing down in step that the bubble cotton of type membrane is left from the type in the area that lies in reposition of redundant personnel mechanism and lie in the bubble cotton that treats that cuts on cutting the bearing mechanism, thereby the reposition of redundant personnel of assurance and the smooth implementation of bubble cotton cutting process.

In some embodiments, the foam cutting apparatus further comprises a foam handling mechanism; and when the second mounting plate moves to the avoiding position, the foam carrying mechanism carries the cut foam carried on the cutting and carrying mechanism to a next station.

By arranging the foam carrying mechanism, the cut foam is automatically fed to the next station, and the foam feeding efficiency is further improved.

In some embodiments, the foam cutting device further comprises a flattening mechanism arranged between the feeding mechanism and the dividing mechanism, and a release film guiding mechanism arranged between the dividing mechanism and the release film winding roller, wherein the flattening mechanism comprises a pressing bearing plate and a pressing plate located above the pressing bearing plate, a flattening gap for allowing foam with a release film to pass through is formed between the pressing bearing plate and the pressing plate, and the release film guiding mechanism is used for guiding the release film branched out from the dividing mechanism to the release film winding roller.

Through setting up the mechanism that flattens, realized flattening to the bubble cotton. The guiding of the release film is realized by the release film guiding mechanism, so that the release film can be smoothly transmitted to the release film to be guided to the release film winding roller.

Drawings

FIG. 1 is a schematic structural diagram of a foam cutting device according to the present invention;

FIG. 2 is a schematic view of the foam cutting apparatus of the present invention shown from a perspective with some components omitted;

FIG. 3 is a schematic view of the foam cutting apparatus of the present invention shown from another perspective with some components omitted;

FIG. 4 is an assembly view of the pressing mechanism, the flow dividing mechanism, the cutting and carrying mechanism and the foam cutting mechanism of the present invention in one embodiment;

FIG. 5 is an assembly view of the cutting and carrying mechanism and the foam cutting mechanism of the present invention at a viewing angle;

FIG. 6 is an assembly view of the cutting and carrying mechanism and the foam cutting mechanism of the present invention at another viewing angle;

FIG. 7 is a schematic view of the cutting support mechanism of the present invention from a single perspective;

FIG. 8 is a schematic view of the cutting support mechanism of the present invention from another perspective;

fig. 9 is a schematic structural view of a cutting mechanism in the present invention;

FIG. 10 is a schematic view of the pulling mechanism of the present invention;

FIG. 11 is a schematic view of the pressing mechanism of the present invention;

fig. 1 to 11 include:

a feeding mechanism 10, a discharging roller 11 and a material guiding mechanism 12;

the flattening mechanism 20 is used for pressing the bearing plate 21 and the pressing plate 22;

the pressing mechanism 30, the second mounting plate 31, the mounting plate driving mechanism 32, the first pressing member 33 and the second pressing member 34;

a flow dividing mechanism 40;

a cutting bearing mechanism 50, a cutting support plate 51, a first lifting drive mechanism 52, a cutting channel 511, a limiting block 512 and a stopping block 513;

a drawing mechanism 60, a first mounting plate 61, a second lifting driving mechanism 62, a fixed clamp plate 63, a movable clamp plate 64 and a movable clamp plate driving mechanism 65;

a release film guide mechanism 70, a first guide roller 71, a tension roller 72, and a second guide roller 73;

a release film take-up roll 80;

a foam cutting mechanism 90, a vibration cutter 91, a first horizontal driving mechanism 92 and a second horizontal driving mechanism 93;

a locking mechanism 100;

and (5) foam 200.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

In view of this, the utility model provides a foam cutting device, which not only can realize automatic cutting of foam, but also can remove a release film on the foam, so that the foam feeding efficiency is improved.

As shown in fig. 1 to 4, the foam cutting device provided by the present invention comprises a feeding mechanism 10, a flow dividing mechanism 40, a cutting and carrying mechanism 50, a pulling mechanism 60, a release film winding roller 80 and a foam cutting mechanism 90, wherein:

the supply mechanism 10 is configured to supply the release film-attached foam to the flow dividing mechanism 40.

The flow dividing mechanism 40 is configured to divide the foam with the release film into the release film and the foam.

The cutting support mechanism 50 is located at the rear of the flow dividing mechanism 40 and near the flow dividing mechanism 40.

The pulling mechanism 60 is configured to pull the release film branched from the branching mechanism 40 toward the release film take-up roll 80, and to make the foam branched from the branching mechanism 40 move onto the cutting and carrying mechanism 50 synchronously under the driving of the release film.

The release film take-up roller 80 is configured to take up the release film.

The foam cutting mechanism 90 is configured to cut foam located on the cutting support mechanism 50.

Therefore, the foam cutting device provided by the utility model can realize automatic demoulding and automatic cutting of foam to obtain a foam section with a preset length, and remarkably improves the foam feeding efficiency.

Optionally, the feeding mechanism includes a discharging roller 11 and a material guiding mechanism 12, wherein: the discharging roller 11 is used for winding and storing foam with a release film. The material guide mechanism 12 is configured to guide the foam with the release film wound on the discharging roller 11 to the flow dividing mechanism 40.

In the embodiment shown in fig. 1 to 3, the material guiding mechanism 12 is a material guiding plate with arc-shaped turning parts formed at two ends, and the foam with release film discharged from the discharging roller 11 moves to the shunting mechanism 40 by clinging to the material guiding plate. Of course, in other embodiments, the material guiding mechanism 12 may also adopt other structures, such as being composed of a plurality of material guiding rollers arranged in a predetermined sequence.

Optionally, the shunting mechanism 40 is a horizontally arranged shunting plate, and a gap for the release film to pass through is maintained between the shunting plate and the cutting and carrying mechanism 50. The foam with the release film discharged from the feeding mechanism 10 clings to the flow distribution plate along the first horizontal direction to move towards the cutting and carrying mechanism 50 and is distributed into the release film and the foam at the gap, wherein the release film is turned off from the first horizontal direction and passes through the gap to be wound to the release film winding roller 80, and the foam continues to move to the cutting and carrying mechanism 50 along the first horizontal direction.

Optionally, as shown in fig. 5 to 8, the foam cutting mechanism 90 is located below the cutting support mechanism 50. The cutting bearing mechanism 50 includes a horizontally disposed cutting support plate 51 and a first lifting driving mechanism 52, a cutting channel 511 which penetrates through the cutting support plate 51 and extends along a second horizontal direction perpendicular to the first horizontal direction is formed on the cutting support plate 51, and the first lifting driving mechanism 52 is used for driving the cutting support plate 51 to lift.

As shown in fig. 9, the foam cutting mechanism 90 includes a cutter moving mechanism and a vibrating cutter 91, the vibrating cutter 91 is connected to the cutter moving mechanism, and the cutter moving mechanism is used for driving the vibrating cutter 91 to move horizontally.

The foam cutting mechanism 90 cuts the foam as follows:

when the foam 100 having the predetermined length L is moved in the first horizontal direction (the direction indicated by the arrow M in fig. 8) and carried on the cutting support plate 51, the cutter moving mechanism drives the vibrating cutter 91 to translate in the first horizontal direction so that the blade head of the vibrating cutter 91 is aligned with the cutting passage 511.

Then, the first elevating driving mechanism 52 drives the cutting support plate 51 to descend so that the cutter head of the vibrating cutter 91 passes upward through the cutting passage 511 to contact the foam.

Then, the cutter moving mechanism drives the vibrating cutter 91 to translate in the second horizontal direction (the direction indicated by the arrow N in fig. 8) to cut off the foam 200 carried on the cutting support plate 51.

As shown in fig. 7 and 8, optionally, at least two limiting blocks 512 are arranged on the cutting support plate 51 along the second horizontal direction, a foam limiting area with a width matching the width of the foam 200 is formed between two adjacent limiting blocks 512, and the cutting channel 511 is located at an entrance of the foam limiting area.

The cutting support plate 51 is further provided with a stop block 513 positioned in the foam limiting area, and the distance between the stop block 513 and the cutting channel 511 is matched with the preset length L of the foam 200 to be cut.

The foam moves into the foam limiting area along the first horizontal direction until the free end of the foam abuts against the stop block 513. It is thus clear that through setting up the cotton spacing district of bubble and set up stop block 513 in the cotton spacing district of bubble, can realize on the one hand that the spacing of bubble is regular, on the other hand then prevents that excessive bubble from cotton entering into the cotton spacing district of bubble, leads to the bubble cotton overlength that downcuts.

Alternatively, as shown in fig. 9, the cutter moving mechanism includes a first horizontal driving mechanism 92 and a second horizontal driving mechanism 93, wherein: the second horizontal driving mechanism 93 is connected to the driving end of the first horizontal driving mechanism 92, the vibration cutter 91 is connected to the driving end of the second horizontal driving mechanism 93, the first horizontal driving mechanism 92 is used for driving the vibration cutter to move along the first horizontal direction, and the second horizontal driving mechanism 93 is used for driving the vibration cutter 91 to move horizontally along the second horizontal direction.

Optionally, the pulling mechanism 60 is located below the shunting mechanism 40, as shown in fig. 10, the pulling mechanism 60 includes a first mounting plate 61, a second lifting driving mechanism 62, a fixed clamping plate 63, a movable clamping plate 64, and a movable clamping plate driving mechanism 65, wherein: the first mounting plate 61 is connected to a driving mechanism of the second lifting driving mechanism 62, and the second lifting driving mechanism 62 is used for driving the first mounting plate 61 to lift. The fixed clamping plate 63 is connected to the first mounting plate 61 and is positioned on the outer side of the first mounting plate 61; the movable clamp plate driving mechanism 65 is provided on the first mounting plate 61, the movable clamp plate 64 is connected to a driving end of the movable clamp plate driving mechanism 65, and the movable clamp plate driving mechanism 65 drives the movable clamp plate 64 to move toward or away from the fixed clamp plate 63.

The release film branched from the branching mechanism 40 passes through between the fixed clamp 63 and the movable clamp 64. The drawing process of the release film by the shunting mechanism 40 is as follows:

after the second lifting driving mechanism 62 drives the first mounting plate 61 to move upward to the high position, the movable clamping plate driving mechanism 65 drives the movable clamping plate 64 to move toward the fixed clamping plate 63 to clamp the release film.

Then, the second lifting drive mechanism 62 drives the first mounting plate 61 to move downwards to a low position, so that the clamped release film is pulled downwards. The length of the downward traction of the release film is equal to the distance between the high position and the low position.

Optionally, as shown in fig. 1 to 4 and 11, the foam cutting device of the present invention further includes a pressing mechanism 30 disposed above the flow dividing mechanism 40 and the cutting and carrying mechanism 50, the pressing mechanism 30 includes a second mounting plate 31, a mounting plate driving mechanism 32, a first pressing member 33, and a second pressing member 34, wherein: the second mounting plate 31 is connected to a mounting plate driving mechanism 32, and the mounting plate driving mechanism 32 drives the second mounting plate 31 to move so as to switch the second mounting plate 31 between a pressing position and an avoiding position. The first pressing member 33 and the second pressing member 34 are attached to the second mounting plate 31.

When the second mounting plate 31 moves to the pressing position, the first pressing member 33 moves above the shunt mechanism 40 along with the second mounting plate 31 to press the foam with the release film on the shunt mechanism 40, and the second pressing member 34 moves above the cutting support mechanism 50 along with the second mounting plate 31 to press the foam to be cut on the cutting support mechanism 50. Optionally, the first pressing part 33 and the second pressing part 34 both comprise a pressing cylinder and a pressing block connected to a telescopic rod of the pressing cylinder, and the pressing cylinder drives the pressing block to press down, so that pressing of foam with a release film or foam to be cut can be achieved.

Through setting up hold-down mechanism 30 to set hold-down mechanism 30 to including first pressing member 33 and second pressing member 34, realized cutting the synchronous of the cotton of bubble that waits to cut on bearing mechanism 50 to the bubble cotton of taking from the type membrane that is located reposition of redundant personnel mechanism 40 and being located, thereby the reposition of redundant personnel of assurance and the cotton smooth implementation of cutting the process of bubble.

Optionally, the foam cutting device of the present invention further includes a foam carrying mechanism, when the second mounting plate 31 moves to the avoiding position, the second pressing member 34 moves along with the second mounting plate 31 to leave the cutting and carrying mechanism 50, and at this time, the foam carrying mechanism moves to the cutting and carrying mechanism 50 and carries the cut foam carried on the cutting and carrying mechanism 50 to a next station.

Optionally, as shown in fig. 1 to fig. 3, the foam cutting device of the present invention further includes a flattening mechanism 20 disposed between the feeding mechanism 10 and the flow dividing mechanism 40, and a release film guiding mechanism 70 disposed between the flow dividing mechanism 40 and the release film winding roller. Wherein:

the flattening mechanism 20 comprises a pressing bearing plate 21 and a pressing plate 22 located above the pressing bearing plate 21, and a flattening gap for allowing foam with a release film to pass through is formed between the pressing bearing plate 21 and the pressing plate 22. The foam with the release film discharged from the feeding mechanism 10 is pressed flat by the pressing mechanism 20 and then enters the flow dividing mechanism 40.

The release film guiding mechanism 70 is used for guiding the release film branched from the branching mechanism 40 to the release film take-up roll 80. Optionally, the release film guiding mechanism 70 includes a first guiding roller 71, a tensioning roller 72 and a second guiding roller 73 arranged in a predetermined manner, and the release film branched from the branching mechanism 40 is sequentially wound on the first guiding roller 71 and the second guiding roller 73 and tensioned by the tensioning roller 72. Under the driving of the drawing mechanism 60 and the release film take-up roll 80, the release film smoothly reaches the release film take-up roll 80 under the guidance of the first guide roll 71, the tension roll 72 and the second guide roll 73.

Optionally, as shown in fig. 1, the foam cutting device of the present invention further includes a locking mechanism 100, where the locking mechanism 100 is configured to lock the foam cutting device to a subsequent cell production apparatus, so as to prevent the foam cutting device from accidentally sliding during cutting, thereby improving the feeding stability of the foam cutting device, and ensuring that the cut foam is accurately conveyed to a foam feeding station of the cell production apparatus by the conveying mechanism.

The utility model has been described above with a certain degree of particularity. 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 come within the true spirit and scope of the utility model are desired to be protected. The scope of the utility model is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims

1. The utility model provides a steep cotton cutting device, its characterized in that, steep cotton cutting device includes feeding mechanism, reposition of redundant personnel mechanism, cuts and bears mechanism, traction mechanism, from type membrane wind-up roll and steep cotton cutting mechanism, wherein:

the feeding mechanism is configured to supply foam with a release film to the shunting mechanism;

the cutting bearing mechanism is positioned at the rear of the flow dividing mechanism and is close to the flow dividing mechanism;

the drawing mechanism is configured to draw the release film branched out from the flow dividing mechanism, so that the release film moves towards the release film winding roller and is wound on the release film winding roller, and the foam branched out from the flow dividing mechanism moves to the cutting and carrying mechanism;

the foam cutting mechanism is configured to cut foam positioned on the cutting and bearing mechanism.

2. The foam cutting apparatus as claimed in claim 1, wherein said feeding mechanism comprises an emptying roller and a material guiding mechanism, wherein:

the discharging roller is configured to wind and store the foam with the release film;

the material guiding mechanism is configured to guide the foam with the release film wound on the discharging roller to the shunting mechanism.

3. The foam cutting device according to claim 1, wherein the flow dividing mechanism is a flow dividing plate, and a gap for the release film to pass through is kept between the flow dividing plate and the cutting and carrying mechanism;

follow feeding mechanism emits the bubble cotton of type membrane is hugged closely along first horizontal direction the flow distribution plate orientation cut bearing mechanism and remove and in the clearance is shunted into from type membrane and bubble cotton, wherein, deviate from the type membrane first horizontal direction turn pass the clearance after the rolling to on the type membrane wind-up roll, the bubble cotton continues to follow first horizontal direction removes to cut bearing mechanism.

4. The foam cutting apparatus as claimed in claim 3, wherein:

the cutting bearing mechanism comprises a cutting support plate and a first lifting driving mechanism which are horizontally arranged, and a cutting channel which penetrates through the cutting support plate and extends along a second horizontal direction perpendicular to the first horizontal direction is formed on the cutting support plate;

the foam cutting mechanism is positioned below the cutting support plate and comprises a cutter moving mechanism and a vibrating cutter, the vibrating cutter is connected to the cutter moving mechanism, and the cutter moving mechanism is used for driving the vibrating cutter to move horizontally;

the cutter moving mechanism is configured to drive the vibrating cutter to translate along the first horizontal direction so that the cutter head of the vibrating cutter is aligned with the cutting channel, the first lifting driving mechanism is configured to drive the cutting support plate to descend so that the cutter head of the vibrating cutter upwards penetrates through the cutting channel to be in contact with foam loaded on the cutting support plate, and the cutter moving mechanism is further configured to drive the vibrating cutter to translate along the second horizontal direction so as to cut the foam loaded on the cutting support plate.

5. The foam cutting apparatus as claimed in claim 4, wherein:

at least two limiting blocks are arranged on the cutting supporting plate along the second horizontal direction, and a foam limiting area with the width matched with that of the foam is formed between every two adjacent limiting blocks;

the cutting support plate is also provided with a stop block positioned in the foam limiting area;

the foam moves to the foam limiting area along the first horizontal direction until the free end of the foam abuts against the stop block.

6. The foam cutting apparatus as claimed in claim 4, wherein: the cutter moving mechanism comprises a first horizontal driving mechanism and a second horizontal driving mechanism, wherein:

the second horizontal driving mechanism is connected to the driving end of the first horizontal driving mechanism, the vibration cutter is connected to the driving end of the second horizontal driving mechanism, the first horizontal driving mechanism drives the vibration cutter to move in the first horizontal direction, and the second horizontal driving mechanism drives the vibration cutter to translate in the second horizontal direction.

7. The foam cutting apparatus as claimed in claim 1, wherein: the traction mechanism is located below the shunting mechanism, and comprises a first mounting plate, a second lifting driving mechanism, a fixed clamping plate, a movable clamping plate and a movable clamping plate driving mechanism, wherein:

the first mounting plate is connected with a driving mechanism of the second lifting driving mechanism, and the second lifting driving mechanism is used for driving the first mounting plate to lift;

the fixed clamping plate is connected to the first mounting plate and is positioned on the outer side of the mounting plate;

the movable clamping plate driving mechanism is arranged on the first mounting plate, the movable clamping plate is connected to the driving end of the movable clamping plate driving mechanism, and the movable clamping plate driving mechanism is used for driving the movable clamping plate to move towards or away from the fixed clamping plate;

follow what shunt mechanism shunted flows out from the membrane warp fixed splint with pass between the movable splint, second lift actuating mechanism drive when first mounting panel rebound to the high position, movable splint actuating mechanism drive movable splint orientation fixed splint remove with the clamp tightly from the membrane, second lift actuating mechanism drive first mounting panel moves down to the low level in order to realize right from the tractive of membrane.

8. The foam cutting apparatus as claimed in claim 1, wherein: bubble cotton cutting device is still including setting up reposition of redundant personnel mechanism and cut the hold-down mechanism who bears the weight of the mechanism top, hold-down mechanism includes that second mounting panel, mounting panel actuating mechanism, first compress tightly the piece and the second compresses tightly the piece, wherein:

the second mounting plate is connected to the mounting plate driving mechanism, and the mounting plate driving mechanism drives the second mounting plate to move between a pressing position and an avoiding position;

the first pressing piece and the second pressing piece are connected to the second mounting plate;

the second mounting panel removes to when compressing tightly the position, first compressing tightly the piece is located shunt mechanism's top is in order to implement to be located on shunt mechanism the area is from the cotton compressing tightly of bubble of type membrane, the second compresses tightly the piece and is located cut bearing mechanism's top is in order to implement to be located cut bearing mechanism on wait compressing tightly of the bubble cotton of cutting.

9. The foam cutting apparatus as claimed in claim 8, wherein: the foam cutting device also comprises a foam carrying mechanism;

when the second mounting plate moves to the avoiding position, the foam carrying mechanism carries the cut foam carried on the cutting and carrying mechanism to a next station.

10. The foam cutting apparatus as claimed in any one of claims 1 to 9, wherein: foam cutting device is still including setting up feeding mechanism with flattening mechanism between the reposition of redundant personnel mechanism, and set up reposition of redundant personnel mechanism with from type membrane guiding mechanism between the type membrane wind-up roll, wherein:

the flattening mechanism comprises a pressing bearing plate and a pressing plate positioned above the pressing bearing plate, and a flattening gap for allowing the foam with the release film to pass through is formed between the pressing bearing plate and the pressing plate;

the release film guiding mechanism is used for guiding the release film shunted by the shunting mechanism to the release film winding roller.