CN206703093U - A kind of high-precision film cutting apparatus of film production - Google Patents

Abstract

The utility model discloses a kind of film production with high-precision film cutting apparatus, including cutting mechanism, buffer gear and blank body, by using cutting mechanism when up and down reciprocatingly being cut to film, buffer gear is driven to carry out pushing the breeze way for forming it into one section to film by cutting mechanism, and when cutting mechanism is cut to film, buffer gear can rise rapidly with the decline of cutting mechanism, its weight is carried without film, blank body can push down two sides of film and it is fixed simultaneously, cutting mechanism is set quickly and accurately to be cut to film, film is solved during cutting because being pullled the technical problem of deformation by stamping press and pulling force, realize film damper and cut the function being automatically positioned.

Description

A kind of high-precision film cutting apparatus of film production

Machine technical field

Film slitting technical field is the utility model is related to, the high-precision film cutting apparatus of specially a kind of film production.

Background technology

Film is cut after sizing is wound, it is necessary to which the film after winding is re-started, and obtains that desired size is used in combination Film, film be in cutting-off process with the twitch of identical frequency, discontinuity on shear, it is sectional to cut into Finished film, and during cutting, due to film plasticity is strong, if film is in tight state, when cutting, pole Yi Yin cut during stamping press and pulling force, pull film, local deformation, influence the use of later stage film.

In Patent No. CN105966962A Chinese patent, disclose a kind of film slitting machine, by deflector roll it Between a buffer unit is set, film is formed one end during processing of cutting and buffer, prevent that to cross senior general thin because of moment pulling force Film is pullled deformation or broken, but it is due to being to enter row buffering, and the device to film by the gravity of buffer unit itself Gravity carried by film, easily cause deformation of thin membrane.

Utility model content

For problem above, the utility model provides a kind of high-precision film cutting apparatus of film production, by using sanction Mechanism is cut when up and down reciprocatingly being cut to film, film, which push, by cutting mechanism drive buffer gear makes its shape Into one section of breeze way, and when cutting mechanism is cut to film, buffer gear can be rapid with the decline of cutting mechanism Rise, its weight is carried without film, while blank body can push down two sides of film and it is fixed, and make cutting mechanism Quickly and accurately film can be cut, solve film during cutting because being pullled the skill of deformation by stamping press and pulling force Art problem, realize film damper and cut the function being automatically positioned.

To achieve the above object, the utility model provides following technical scheme：

A kind of film production high-precision film cutting apparatus, including frame, in addition to：

Membrane cut mechanism, the membrane cut mechanism are arranged at the middle part of frame, and it is used to cut film；

Buffer gear, the buffer gear are fixedly installed in frame, and it is symmetricly set in the both sides of the membrane cut mechanism, And it is connected with the upper end of the membrane cut mechanism, the buffer gear includes Buffer Unit and connection component；

Blank body, the blank body are symmetricly set between the buffer gear and the membrane cut mechanism, and it is rotated The front and rear edge of frame is arranged at, the blank body is used to compress two sides of film, and the blank body includes Flanging component and shifting component；

Conveying mechanism, the conveying mechanism are arranged in frame, and it is another from one end spread configuration of frame to frame End, the conveying mechanism is used to convey film, and the conveying mechanism includes defeated membrane module and guided membrane component.

As an improvement, the membrane cut mechanism includes：

Cutting film cylinder, the cutting film cylinder are fixedly installed on the top of frame；

Cutting membrane knife seat, the cutting membrane knife seat are located at the lower section of the cutting film cylinder, its upper end and the cylinder of the cutting film cylinder Push rod is fixedly connected；

Cutting membrane knife, the cutting membrane knife are located at the lower end of the cutting membrane knife seat, and its upper end is fixedly connected with the cutting membrane knife seat.

As an improvement, the opening position that the upper surface of the frame corresponds to the cutting membrane knife is provided with and keeps away cutter groove.

As an improvement, the Buffer Unit is arranged at the side of the membrane cut mechanism, it be arranged in parallel with the cutting membrane knife, And the upper surface of itself and the frame is vertically arranged, the Buffer Unit includes：

Bumper bracket, the bumper bracket and the upper surface of the frame are vertically arranged, and it be arranged in parallel with the cutting membrane knife, should The both sides of bumper bracket are provided with the chute being vertically arranged；

Buffing pad, the both ends of the buffing pad are slideably positioned in the chute, its along the bumper bracket vertical sliding, and its It is be arranged in parallel with the cutting membrane knife；

Buffer roll, the both ends of the buffer roll, which rotate, to be arranged on the buffing pad, and it be arranged in parallel with the cutting membrane knife.

As an improvement, the bottom in the chute is provided with buffer spring, the buffer spring is located under the buffing pad Side.

As an improvement, one end of the connection component is connected with the Buffer Unit, its other end and the cutting membrane knife seat It is fixedly connected, the connection component includes：

Pulley yoke, the pulley yoke are fixedly connected with the frame, and it is located at one end of the cutting film cylinder；

First pulley, the first pulley symmetrically rotate the both sides for being arranged at the pulley yoke；

Second pulley, the second pulley are symmetrically rotated and are arranged on the crossbeam of the bumper bracket；It is slided with described first Wheel corresponds；

Connecting rope, the connecting rope are symmetricly set in the both sides of the cutting membrane knife seat, and its one end is fixed with the cutting membrane knife seat Connection, its other end sequentially pass through first pulley and second pulley and are fixedly connected with the buffing pad.

As an improvement, the flanging component symmetrically rotates the front and rear edge for being arranged at the frame, it is positioned at described slow Rush between frame and cutting membrane knife, the flanging component includes：

Flanging seat, the flanging seat are Z-shaped setting, and its middle part, which rotates, to be arranged on the upper surface edge of the frame；

Edge roller, the both ends of the edge roller, which rotate, to be arranged on the flanging seat, and it is located at the upper end of the flanging seat；

Guide rod, one end of the guide rod pass through the flanging seat, and its other end is suspended from the outside of the flanging seat, and it is located at The lower end of the flanging seat；

Back-moving spring, one end of the back-moving spring are connected with the frame, and its other end is connected with the guide rod.

As an improvement, the shifting component is arranged at the side that the flanging component corresponds to the Buffer Unit, this is stirred Component includes：

Hook is stirred, the vertical guide rod for stirring hook slides setting and in the frame, its lower end is horizontal with vertical guide rod For vertically disposed bent hook part in the lower section of the guide rod, this stirs hook vertical sliding up and down synchronous with the buffing pad；

Connection ring, be fixedly connected at the top of the vertical guide rod that hook is stirred with described in one end of the connection ring, its other end with Chute in the bumper bracket side wall is fixedly connected with the end of the buffing pad.

As an improvement, the defeated membrane module is arranged at one end of the frame, the defeated membrane module includes：

Defeated deflector roll, the both ends of the defeated deflector roll, which rotate, to be arranged in the frame, and it be arranged in parallel with the cutting membrane knife, and It is located at the bumper bracket backwards to the side of cutting membrane knife；

Carry-over pinch rolls, the both ends of the carry-over pinch rolls, which rotate, to be arranged in the frame, and it be arranged in parallel with the defeated deflector roll, and It is above the defeated deflector roll；

Traction electric machine, the traction electric machine are arranged at the side of the frame, its by way of belt transmission with it is described Carry-over pinch rolls connect.

As an improvement, the guided membrane component is symmetricly set in the both ends of the membrane cut mechanism, the guided membrane component includes：

First film guiding roller, the both ends of first film guiding roller, which rotate, to be arranged in the frame, and it is symmetricly set in described The both ends of cutting membrane knife, and it is respectively positioned between the bumper bracket and cutting membrane knife, first film guiding roller is parallel with the cutting membrane knife to be set Put；

Second film guiding roller, the both ends of second film guiding roller, which rotate, to be arranged in the frame, and it is symmetricly set in described The both ends of cutting membrane knife, and it is respectively positioned on the opposite side that the bumper bracket corresponds to first film guiding roller, second film guiding roller and institute The first film guiding roller is stated to be arranged in parallel；

Guided membrane motor, the guided membrane motor are arranged at the side of the frame, and it drives institute by way of belt transmission State the first film guiding roller and the second film guiding roller synchronous axial system.

The beneficial effects of the utility model are：

(1) to drive cutting knife to cut film same flexible by the cylinder that cuts of cutting mechanism for the utility model When, synchronous drive buffer gear is vertically movable up and down, and the buffering of batch (-type) is carried out to film, film is had one section when cutting Breeze way, effectively avoid film because the stamping press and the pulling force of traction that cut pull deformation, while by cutting cylinder Flexible drive buffer gear, solve cutting mechanism self gravitation on pullling influence caused by film；

(2) the utility model is when setting buffer gear, and when the cutting knife of cutting mechanism rises recovery, buffer gear declines Carry out certain buffering to film, and cutting knife declines when cutting, buffer gear synchronously rises, and cutting knife is cut, buffer gear Self gravitation film is not had an impact, while when buffer gear enters row buffering to film, the bottom of buffer gear is set Buffer spring.The gravity of itself of buffer gear is necessarily offset using buffer spring, makes its remaining gravity just Film is pushed, will not be had a negative impact to film；

(3) the utility model is also provided with blank body, and when being cut due to cutting mechanism, buffer gear rises, and film loses Go to position, risen using buffer gear, drive blank body upset, two sides of film are compressed, when film cutting When there is blank body to carry out compression positioning to its side, when cutting cutting mechanism, deviation will not occur；

In summary, the utility model has the advantages of easy to operate, rational in infrastructure, effectively to prevent deformation of thin membrane, especially Suitable for film ablation technique field.

Brief description of the drawings

Fig. 1 is the utility model forward sight structural representation；

Fig. 2 is the utility model longitudinal direction cross section structure diagram；

Fig. 3 is the utility model buffer gear cross section structure diagram；

Fig. 4 is the utility model blank body structural representation；

Fig. 5 is the utility model flanging seat and edge roller structural representation；

Fig. 6 is the utility model shifting component structural representation；

Fig. 7 is the structural representation of the present embodiment two.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", The orientation or position relationship of the instructions such as " clockwise ", " counterclockwise " be based on orientation shown in the drawings or position relationship, be only for Be easy to describe the utility model and simplify to describe, rather than instruction or imply signified equipment or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than, unless otherwise specifically defined.

Embodiment 1：

A kind of high-precision film cutting apparatus of film production as shown in Figure 1, including frame 1, in addition to：

Membrane cut mechanism 2, the membrane cut mechanism 2 are arranged at the middle part of frame 1, and it is used to cut film；

Buffer gear 3, the buffer gear 3 are fixedly installed in frame 1, and it is symmetricly set in the membrane cut mechanism 2 Both sides, and it is connected with the upper end of the membrane cut mechanism 2, the buffer gear 3 includes Buffer Unit 31 and connection component 32；

Blank body 4, the blank body 4 are symmetricly set between the buffer gear 3 and the membrane cut mechanism 2, its The front and rear edge for being arranged at frame 1 is rotated, the blank body 4 is used to compress two sides of film, and the edging machine Structure 4 includes flanging component 41 and shifting component 42；

Conveying mechanism 5, the conveying mechanism 5 are arranged in frame 1, and it is from one end spread configuration of frame 1 to frame 1 The other end, the conveying mechanism 5 is used to convey film, and the conveying mechanism 5 includes defeated membrane module 51 and guided membrane component 52.

It should be noted that when the membrane cut mechanism 2 rises, buffer gear 3, which declines that film push, makes film curved It is curved that when the membrane cut mechanism 2 is cut to film, the buffer gear 3 rises into buffer part, the blank body 4 by Buffer gear 3 drives upset to push down two sides of film, is easy to cutting mechanism 2 to carry out positioning compression to film.

As shown in Fig. 2 as a preferred embodiment, the membrane cut mechanism 2 includes：

Cutting film cylinder 21, the cutting film cylinder 21 are fixedly installed on the top of frame 1；

Cutting membrane knife seat 22, the cutting membrane knife seat 22 are located at the lower section of the cutting film cylinder 21, its upper end and the cutting film cylinder 21 cylinder push-rod is fixedly connected；

Cutting membrane knife 23, the cutting membrane knife 23 are located at the lower end of the cutting membrane knife seat 22, and its upper end is solid with the cutting membrane knife seat 22 Fixed connection.

Further, the upper surface of the frame 1 corresponds to the opening position of the cutting membrane knife 23 and is provided with and keeps away cutter groove 11.

It should be noted that the cutting membrane knife 23 is equipped with the cutter groove 11 of keeping away, cutting membrane knife 23 passes through and keeps away cutter groove 11 Film is cut.

As shown in figure 3, as a preferred embodiment, the Buffer Unit 31 is arranged at the membrane cut mechanism 2 Side, it is be arranged in parallel with the cutting membrane knife 23, and the upper surface of itself and the frame 1 is vertically arranged, and the Buffer Unit 31 wraps Include：

Bumper bracket 311, the bumper bracket 311 and the upper surface of the frame 1 are vertically arranged, and it is flat with the cutting membrane knife 23 Row is set, and the both sides of the bumper bracket 311 are provided with the chute 3111 being vertically arranged；

Buffing pad 312, the both ends of the buffing pad 312 are slideably positioned in the chute 3111, and it is along the bumper bracket 311 Vertical sliding, and it be arranged in parallel with the cutting membrane knife 23；

Buffer roll 313, the both ends of the buffer roll 313 rotate and are arranged on the buffing pad 312, itself and the cutting membrane knife It is arranged in parallel.

It should be noted that the buffing pad 312 is driven by the cutting film cylinder 21, and when cutting membrane knife 23 rises, buffering Seat 312 declines, and when cutting membrane knife 23 declines, buffing pad 312 rises.

Further illustrate, when buffing pad 312 declines, drive the buffer roll 313 is synchronous to decline, buffer roll 313 is right Film, which pushes, pushes the film part in course of conveying into the dashpot 12 of the upper surface of frame 1, forms film slow Section is rushed, and when cutting membrane knife 23 is cut to film, breeze way release avoids the lower pressure of cutting membrane knife 23 from causing to draw to film Pull deformation.

Illustrating further, buffer roll 313 is set to rotate, and when buffer roll 313 pushes film, can relatively rotate, Film is avoided to damage.

As shown in figure 3, as a kind of mode preferably implemented, one end and the Buffer Unit of the connection component 32 31 connections, its other end are fixedly connected with the cutting membrane knife seat 22, and the connection component 32 includes：

Pulley yoke 321, the pulley yoke 321 are fixedly connected with the frame 1, and it is located at the one of the cutting film cylinder 21 End；

First pulley 322, the first pulley 322 symmetrically rotate the both sides for being arranged at the pulley yoke 321；

Second pulley 323, the second pulley 323 are symmetrically rotated and are arranged on the crossbeam of the bumper bracket 311；Its with institute First pulley 322 is stated to correspond；

Connecting rope 324, the connecting rope 324 are symmetricly set in the both sides of the cutting membrane knife seat 22, and its one end cuts film with this Tool rest 22 is fixedly connected, and its other end sequentially passes through first pulley 322 and second pulley 323 and fixed with the buffing pad 312 Connection.

It should be noted that first pulley 322 is used to be oriented to connecting rope 324 with second pulley 323.

As shown in figs. 4 and 5, as a preferred embodiment, the flanging component 41, which symmetrically rotates, is arranged at institute The front and rear edge of frame 1 is stated, between the bumper bracket 311 and cutting membrane knife 23, the flanging component 41 includes for it：

Flanging seat 411, the flanging seat 411 are Z-shaped setting, and its middle part rotates the upper surface side for being arranged at the frame 1 Along upper；

Edge roller 412, the both ends of the edge roller 412, which rotate, to be arranged on the flanging seat 411, and it is located at the flanging seat 411 upper end；

Guide rod 413, one end of the guide rod 413 pass through the flanging seat 411, and its other end is suspended from the flanging seat 411 Outside, and it is located at the lower end of the flanging seat 411；

Back-moving spring 414, one end of the back-moving spring 414 are connected with the frame 1, its other end and the guide rod 413 connections.

It should be noted that the flanging seat 441 can be rotated around the connecting portion of itself and frame 1, when buffer gear 3 During rising, the buffer gear 3 can drive the flanging seat 411 to rotate, and flanging seat 411 drives edge roller 412 thereon to film Compressed, and edge roller 412 now be arranged in parallel with the cutting knife 23.

Further illustrate, the edge roller 412 compresses two sides of film, and film is cut in cutting knife 23 When, with film relative slip can occur for edge roller 412.

Illustrate further, the back-moving spring 414 is in compressive state, when flanging seat 411 loosens, resets bullet Spring 414 drives the elastic reset of flanging seat 411.

As shown in Fig. 4 and Fig. 6, as a preferred embodiment, the shifting component 42 is arranged at the flanging group The side of the corresponding Buffer Unit 31 of part 41, the shifting component 42 include：

Hook 421 is stirred, the vertical guide rod for stirring hook 421 slides setting and in the frame 1, its lower end with leading vertically The bent hook part that bar horizontal vertical is set in the lower section of the guide rod 413, this stir hook 421 it is synchronous with the buffing pad 312 on Lower vertical sliding；

Connection ring 422, one end of the connection ring 422 are fixedly connected with the vertical guide rod top for stirring hook 421, its The other end is fixedly connected with the chute in the side wall of bumper bracket 311 with the end of the buffing pad 312.

It should be noted that the hook 421 of stirring is fixedly connected by connection ring 422 with the buffing pad 312, make to stir Hook 421 synchronously slides up and down with buffing pad 312.

Further illustrate, when the buffing pad 312 declines, stir hook 421 and decline, flanging component 41, which is in, loosens shape State, film side is not compressed.

Illustrate further, when the buffing pad 312 rises, stir hook 421 and rise, stir the hook part of hook 421 Guide rod 413 can be caught on, and drives flanging seat 411 to overturn by guide rod 413, realizes compression of the flanging component 41 to film side.

As shown in figure 1, as a preferred embodiment, the defeated membrane module 51 is arranged at one end of the frame 1, The defeated membrane module 51 includes：

Defeated deflector roll 511, the both ends of the defeated deflector roll 511, which rotate, to be arranged in the frame 1, and it is flat with the cutting membrane knife 23 Row is set, and it is located at the bumper bracket 311 backwards to the side of cutting membrane knife 23；

Carry-over pinch rolls 512, the both ends of the carry-over pinch rolls 512 rotate and are arranged in the frame 1, itself and the defeated deflector roll 511 It is arranged in parallel, and it is located at the top of defeated deflector roll 511；

Traction electric machine 513, the traction electric machine 513 are arranged at the side of the frame 1, and it is by way of belt transmission It is connected with the carry-over pinch rolls 512.

Drive defeated deflector roll 511 to rotate to export film it should be noted that traction electric machine 512 runs through carry-over pinch rolls 512.

Further illustrating, traction electric machine 512 is stepper motor, and after conveying one section of film, it can stall a period of time, Give membrane cut mechanism 2 and enter row buffering and the working time cut with buffer gear 3.

As shown in figure 1, as a preferred embodiment, the guided membrane component 52 is symmetricly set in the membrane cut mechanism 2 both ends, the guided membrane component 52 include：

First film guiding roller 521, the both ends of first film guiding roller 521, which rotate, to be arranged in the frame 1, and it is symmetrical arranged In the both ends of the cutting membrane knife 23, and it is respectively positioned between the bumper bracket 311 and cutting membrane knife 23, first film guiding roller 521 with The cutting membrane knife 23 be arranged in parallel；

Second film guiding roller 522, the both ends of second film guiding roller 522, which rotate, to be arranged in the frame 1, and it is symmetrical arranged In the both ends of the cutting membrane knife 23, and it is respectively positioned on the opposite side of corresponding first film guiding roller 521 of the bumper bracket 311, should Second film guiding roller 522 be arranged in parallel with first film guiding roller 521；

Guided membrane motor 523, the guided membrane motor 523 are arranged at the side of the frame 1, and it is by way of belt transmission Drive the synchronous axial system of 521 and second film guiding roller of the first film guiding roller 522.

Need to illustrate, the guided membrane motor 523 operates, and drives the first film guiding roller 521 and the second film guiding roller 522 are rotated, and guiding conveying is carried out to film.

Further illustrate, the guided membrane motor 523 is synchronized with the movement with traction electric machine 512, synchronous to stop.

Embodiment 2：

Fig. 7 is a kind of a kind of structural representation of the film production of the utility model with the embodiment two of high-precision film cutting apparatus Figure；As shown in fig. 6, wherein with embodiment is a kind of identical or corresponding part use with one corresponding reference of embodiment, be For the sake of simplicity, hereafter only description and the distinctive points of embodiment one.The difference of the embodiment two and the embodiment one shown in Fig. 1 It is：

As shown in fig. 7, a kind of high-precision film cutting apparatus of film production, the bottom in the chute 3111 is provided with buffering Spring 314, the buffer spring 314 are located at the lower section of the buffing pad 312.

It should be noted that Buffer Unit 31 pushes by the gravity of itself to film, film is set to form breeze way, Avoid during Buffer Unit 31 pushes, its own gravity is excessive to be damaged to film, therefore the bottom in chute 3111 is set Buffer spring 314 is put, the part gravity of Buffer Unit 31 is offset using buffer spring 314.

The course of work is as follows：

When initial, cutting knife 23 is suspended in the air with buffer roll 313, and the defeated membrane module 51 in conveying mechanism 5 is defeated by film After going out, film is delivered to the other end by guided membrane component 52 from one end of frame 1, and conveying mechanism 5 suspends afterwards, cutting knife 23 first on Rise, buffer roll 313 declines, and one section of breeze way is extruded above and below film, and cutting knife 23 declines afterwards, and buffer roll 313 rises, slow During rushing the rising of roller 313, drive flanging component 41 before cutting knife 23 is cut by the two of film by shifting component 42 Side compressing, afterwards cutting knife 23 film is cut, buffer gear 3 rises, and its synchronous drive blank body 4, passes through pressure By the side compressing of film two, subsequent cutting knife 23 is cut to film for side mechanism 4, during cutting, breeze way release, afterwards Cutting knife rises, and conveying mechanism 5 operates, film is exported rapidly, suspends again afterwards, is pushed by buffer gear 2 and form breeze way, Cutting knife 23 declines and cut afterwards.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. a kind of high-precision film cutting apparatus of film production, including frame (1), it is characterised in that also include：

Membrane cut mechanism (2), the membrane cut mechanism (2) are arranged at the middle part of frame (1), and it is used to cut film；

Buffer gear (3), the buffer gear (3) are fixedly installed in frame (1), and it is symmetricly set in the membrane cut mechanism (2) both sides, and it is connected with the upper end of the membrane cut mechanism (2), the buffer gear (3) includes Buffer Unit (31) with being connected Component (32)；

Blank body (4), the blank body (4) be symmetricly set in the buffer gear (3) and the membrane cut mechanism (2) it Between, it rotates the front and rear edge for being arranged at frame (1), and the blank body (4) is used to compress two sides of film, and The blank body (4) includes flanging component (41) and shifting component (42)；

Conveying mechanism (5), the conveying mechanism (5) are arranged in frame (1), and it is from one end spread configuration of frame (1) to machine The other end of frame (1), the conveying mechanism (5) is used to convey film, and the conveying mechanism (5) includes defeated membrane module (51) With guided membrane component (52).

A kind of 2. high-precision film cutting apparatus of film production according to claim 1, it is characterised in that the membrane cut mechanism (2) include：

Cutting film cylinder (21), the cutting film cylinder (21) are fixedly installed on the top of frame (1)；

Cutting membrane knife seat (22), the cutting membrane knife seat (22) are located at the lower section of the cutting film cylinder (21), and film gas is cut in its upper end with this The cylinder push-rod of cylinder (21) is fixedly connected；

Cutting membrane knife (23), the cutting membrane knife (23) are located at the lower end of the cutting membrane knife seat (22), its upper end and the cutting membrane knife seat (22) it is fixedly connected.

A kind of 3. high-precision film cutting apparatus of film production according to claim 2, it is characterised in that the frame (1) Upper surface correspond to the opening position of the cutting membrane knife (23) and be provided with and keep away cutter groove (11).

4. a kind of high-precision film cutting apparatus of film production according to claim 2, the Buffer Unit (31) is arranged at The side of the membrane cut mechanism (2), it is be arranged in parallel with the cutting membrane knife (23), and the upper surface of itself and the frame (1) is hung down It is straight to set, it is characterised in that the Buffer Unit (31) includes：

Bumper bracket (311), the bumper bracket (311) and the upper surface of the frame (1) are vertically arranged, itself and the cutting membrane knife (23) it be arranged in parallel, the both sides of the bumper bracket (311) are provided with the chute (3111) being vertically arranged；

Buffing pad (312), the both ends of the buffing pad (312) are slideably positioned in the chute (3111), and it is along the bumper bracket (311) vertical sliding, and it be arranged in parallel with the cutting membrane knife (23)；

Buffer roll (313), the both ends of the buffer roll (313), which rotate, to be arranged on the buffing pad (312), and it cuts film with described Knife be arranged in parallel.

A kind of 5. high-precision film cutting apparatus of film production according to claim 4, it is characterised in that the chute (3111) bottom in is provided with buffer spring (314), and the buffer spring (314) is located at the lower section of the buffing pad (312).

6. a kind of high-precision film cutting apparatus of film production according to claim 4, one end of the connection component (32) It is connected with the Buffer Unit (31), its other end is fixedly connected with the cutting membrane knife seat (22), it is characterised in that the connection group Part (32) includes：

Pulley yoke (321), the pulley yoke (321) are fixedly connected with the frame (1), and it is located at the cutting film cylinder (21) One end；

First pulley (322), the first pulley (322) symmetrically rotate the both sides for being arranged at the pulley yoke (321)；

Second pulley (323), the second pulley (323) symmetrically rotate and are arranged on the crossbeam of the bumper bracket (311)；Its with The first pulley (322) corresponds；

Connecting rope (324), the connecting rope (324) are symmetricly set in the both sides of the cutting membrane knife seat (22), and its one end is cut with this Hymenotome seat (22) is fixedly connected, and its other end sequentially passes through first pulley (322) and second pulley (323) and the buffing pad (312) it is fixedly connected.

7. a kind of high-precision film cutting apparatus of film production according to claim 4, the flanging component (41) symmetrically turns The dynamic front and rear edge for being arranged at the frame (1), it is between the bumper bracket (311) and cutting membrane knife (23), its feature It is, the flanging component (41) includes：

Flanging seat (411), the flanging seat (411) are Z-shaped setting, and its middle part rotates the upper surface for being arranged at the frame (1) On edge；

Edge roller (412), the both ends of the edge roller (412), which rotate, to be arranged on the flanging seat (411), and it is located at the flanging The upper end of seat (411)；

Guide rod (413), one end of the guide rod (413) pass through the flanging seat (411), and its other end is suspended from the flanging seat (411) outside, and it is located at the lower end of the flanging seat (411)；

Back-moving spring (414), one end of the back-moving spring (414) are connected with the frame (1), its other end and the guide rod (413) connect.

8. a kind of high-precision film cutting apparatus of film production according to claim 7, the shifting component (42) is arranged at The side of the corresponding Buffer Unit (31) of the flanging component (41), it is characterised in that the shifting component (42) includes：

Stir hook (421), the vertical guide rod for stirring hook (421) slide set with the frame (1), its lower end with it is vertical For the bent hook part that guide rod horizontal vertical is set in the lower section of the guide rod (413), this stirs hook (421) and the buffing pad (312) synchronous vertical sliding up and down；

Connection ring (422), one end of the connection ring (422) are fixedly connected with the vertical guide rod top for stirring hook (421), Its other end is fixedly connected with the chute in the bumper bracket (311) side wall with the end of the buffing pad (312).

9. a kind of high-precision film cutting apparatus of film production according to claim 4, the defeated membrane module (51) is arranged at One end of the frame (1), it is characterised in that the defeated membrane module (51) includes：

Defeated deflector roll (511), the both ends of the defeated deflector roll (511) rotate and are arranged in the frame (1), itself and the cutting membrane knife (23) it be arranged in parallel, and it is located at the bumper bracket (311) backwards to the side of cutting membrane knife (23)；

Carry-over pinch rolls (512), the both ends of the carry-over pinch rolls (512) rotate and are arranged in the frame (1), itself and the defeated deflector roll (511) it be arranged in parallel, and it is located above the defeated deflector roll (511)；

Traction electric machine (513), the traction electric machine (513) are arranged at the side of the frame (1), and it passes through the side of belt transmission Formula is connected with the carry-over pinch rolls (512).

10. a kind of high-precision film cutting apparatus of film production according to claim 9, the guided membrane component (52) symmetrically sets It is placed in the both ends of the membrane cut mechanism (2), it is characterised in that the guided membrane component (52) includes：

First film guiding roller (521), the both ends of first film guiding roller (521), which rotate, to be arranged in the frame (1), and it symmetrically sets The both ends of the cutting membrane knife (23) are placed in, and it is respectively positioned between the bumper bracket (311) and cutting membrane knife (23), first guided membrane Roller (521) be arranged in parallel with the cutting membrane knife (23)；

Second film guiding roller (522), the both ends of second film guiding roller (522), which rotate, to be arranged in the frame (1), and it symmetrically sets The both ends of the cutting membrane knife (23) are placed in, and it is respectively positioned on the another of corresponding first film guiding roller (521) of the bumper bracket (311) Side, second film guiding roller (522) be arranged in parallel with first film guiding roller (521)；

Guided membrane motor (523), the guided membrane motor (523) are arranged at the side of the frame (1), and it passes through the side of belt transmission Formula drives first film guiding roller (521) and the second film guiding roller (522) synchronous axial system.