CN114986582A

CN114986582A - Industrial automatic film cutting machine

Info

Publication number: CN114986582A
Application number: CN202210441741.8A
Authority: CN
Inventors: 肖大强; 唐金平; 郭郑航; 欧春亨
Original assignee: Shenzhen Second Intelligent Equipment Co Ltd
Current assignee: Shenzhen Second Intelligent Equipment Co Ltd
Priority date: 2022-04-25
Filing date: 2022-04-25
Publication date: 2022-09-02

Abstract

The invention discloses an industrial automatic film cutting machine which comprises an upper frame, a lower frame, a cutter sliding table, a cutter assembly, two jacking assemblies and a jacking device, wherein the cutter sliding table, the cutter assembly and the two jacking assemblies are arranged on the surface of the lower frame, the jacking device is arranged in the lower frame, the cutter sliding table is arranged on the lower frame, the cutter assembly is arranged on the cutter sliding table, the two jacking assemblies are arranged on the front side of the cutter sliding table, and the jacking device is arranged between the two jacking assemblies. According to the industrial automatic film cutting machine, the cutter sliding table, the cutter assembly, the jacking assembly and the jacking device are matched with each other, so that the RO film can be automatically cut off by the film cutting machine, the automatic film cutting of the film cutting machine is realized, and the high film cutting efficiency and the high precision are ensured.

Description

Industrial automatic film cutting machine

Technical Field

The invention relates to the technical field of industrial automation equipment, in particular to an industrial automatic film cutting machine.

Background

The membrane cutting machine is a device for cutting membrane products, while the industrial membrane cutting machine is a device for cutting RO membranes in general, and in the production and processing of RO membranes, when the RO membranes need to be cut, the membrane cutting machine is used for cutting membranes. Most of the existing film cutting machines have low automation degree, so that the film cutting efficiency is low, the effect is poor, the precision of the cut film is poor, and the output of an RO film is influenced; therefore, a new automatic film cutting machine is needed to solve the above problems.

Disclosure of Invention

The invention mainly aims to provide an industrial automatic film cutting machine and aims to solve the technical problem that the existing film cutting machine is low in efficiency.

In order to achieve the purpose, the invention provides an industrial automatic film cutting machine, which comprises an upper frame, a lower frame, a cutter sliding table arranged on the surface of the lower frame, a cutter assembly, two jacking assemblies and a jacking device arranged in the lower frame, wherein the cutter sliding table is arranged on the lower frame, the cutter assembly is arranged on the cutter sliding table, the two jacking assemblies are arranged on the front side of the cutter sliding table, and the jacking device is arranged between the two jacking assemblies.

Preferably, the cutter slip table includes left cutter slip table and right cutter slip table that the symmetry set up, cutter unit is including left cutter unit and the right cutter unit that the symmetry set up, two the tight subassembly in left top and the tight subassembly in right top that the top set up including the symmetry, left side cutter slip table and right cutter slip table structure are the same, left side cutter unit and right cutter unit structure are the same, left side cutter unit installs on left cutter slip table, right cutter unit installs on right cutter slip table, one side of left side cutter slip table is located to the tight subassembly in left side top, one side of right cutter slip table is located to the tight subassembly in right side top.

Preferably, the left tightening assembly comprises a driving assembly arranged in the lower rack, a tightening device arranged at the upper part of the lower rack and a transmission assembly for connecting the driving assembly and the tightening device, and a left protective cover is further arranged on the tightening device;

the driving assembly comprises a driving motor, a driving motor fixing plate, a jacking cylinder and a cylinder connecting seat, the driving motor is mounted below the lower frame through the driving motor fixing plate, the jacking cylinder is arranged on the opposite side of the driving motor, a piston rod of the jacking cylinder is connected with the cylinder connecting seat, and the cylinder connecting seat is connected with the jacking device;

the jacking device comprises a left rail, a moving bottom plate, bearing seats, a left jacking shaft, a tensioning pull rod, a left jacking head, a tensioning air cylinder seat and an air cylinder rotating shaft, wherein the left rail is arranged on the surface of the lower rack, the bottom surface of the left rail is connected with an air cylinder connecting seat, the bearing seats are vertically arranged on two sides of the surface of the moving bottom plate, the left jacking shaft is arranged between the two bearing seats in a penetrating manner, one end of the left jacking head is arranged on one end of the left jacking shaft, the other end of the left jacking shaft is connected with the tensioning air cylinder through the tensioning pull rod, the tensioning air cylinder is arranged on one side of the bearing seats through the tensioning air cylinder seat, the tensioning pull rod is arranged in the left jacking shaft, and one end of the tensioning pull rod is connected with a rotating shaft of the tensioning air cylinder through the air cylinder rotating shaft;

the transmission assembly comprises a top tight driving wheel, a top tight driven wheel and a top tight conveying belt, the top tight driving wheel is installed on a rotating shaft of the driving motor, the top tight driven wheel is installed on a left top shaft, and the top tight driving wheel and the top tight driven wheel are connected through the top tight conveying belt.

Preferably, the tight subassembly in right side top includes the tight bottom plate in right side track, the tight supporting seat in right side top, the tight main shaft mount pad in right side top, top and right guard shield, right side rail mount is on lower rack surface, the tight bottom plate mounting in right side track in right side top, the tight supporting seat in right side top is installed perpendicularly on the tight bottom plate in right side top, the tight main shaft in right side top is installed its upper portion through the tight main shaft mount pad in right side top, the top is installed at the tight main shaft front end in right side top, the tight bottom plate surface in right side top is installed to right guard shield.

Preferably, left side cutter slip table is including installing the X axle slip table on lower frame surface and installing the Y axle slip table on X axle slip table, X axle slip table passes through the mounting panel and installs on the surface of lower frame, cutter unit mount is on Y axle slip table.

Preferably, left side cutter unit spare includes cutter bottom plate, cutter motor, cutter action wheel, cutter from driving wheel, conveyer belt, cutter main shaft, cutter supporting seat, synchronizing wheel guard shield and cutter guard shield, the cutter bottom plate is installed on Y axle slip table, the cutter motor is installed on the cutter bottom plate, the cutter action wheel is located in the pivot of cutter motor, the cutter passes through the conveyer belt from the driving wheel and is connected with the cutter action wheel, the cutter is passed from the driving wheel to the one end of cutter main shaft to install on the cutter bottom plate through main shaft mount pad and cutter supporting seat, the other end passes through cutter retaining member installation cutter, synchronizing wheel guard shield cover is established at cutter action wheel and cutter from the driving wheel, the cutter guard shield is installed in the synchronizing wheel guard shield outside to the one side at the cutter is established to the cover.

Preferably, the jacking device includes jacking cylinder, jacking bottom plate, jacking V type piece bottom plate, jacking guide pillar, V type spare and material loading board, the jacking cylinder passes through the jacking mounting panel and installs in the lower frame, jacking cylinder upper end is located to the jacking bottom plate, jacking V type piece bottom plate is connected with the piston rod of jacking cylinder to locate the top of jacking bottom plate, the bottom surface of jacking V type piece bottom plate is located to the jacking guide pillar to wear to establish on the jacking bottom plate, the surface of jacking V type piece bottom plate is located to the V type spare, the surface of V type spare is located to the material loading board.

Preferably, the V-shaped parts are provided with a plurality of parts, every two of the parts are oppositely arranged in a group, two of the feeding plates are arranged, and a V-shaped feeding groove is formed between the two feeding plates.

Preferably, the front side of the upper rack is provided with an automatic door and a control panel, and safety gratings are arranged on two sides of the automatic door.

The technical scheme of the invention has the beneficial effects that:

the invention provides an industrial automatic film cutting machine which mainly comprises an upper rack, a lower rack, a cutter sliding table, a cutter assembly, a jacking assembly and a jacking device, wherein the cutter sliding table is used for conveying the cutter assembly to a specified position and cutting off an RO (reverse osmosis) film; the cutter assembly is used for cutting off the RO membrane; the two tightly-pushing components are used for tightly pushing the RO roll film; the jacking device is used for conveying the RO roll film to a position between the two jacking assemblies; through mutually supporting of cutter slip table, cutter unit spare, the tight subassembly in top and jacking device, make the membrane cutting machine can cut off the RO membrane automatically, realize the automatic membrane of cutting the membrane machine, guarantee to cut membrane efficiently, the precision is high.

Drawings

FIG. 1 is a schematic perspective view of an industrial automatic film cutting machine according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of an industrial automatic film cutting machine with an upper frame removed according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a left tightening assembly of an embodiment of an industrial automatic film cutting machine according to the present invention;

FIG. 4 is a schematic structural diagram of a right tightening assembly of an embodiment of an industrial automatic film cutting machine according to the present invention;

FIG. 5 is a schematic structural view of a left cutter sliding table according to an embodiment of the industrial automatic film cutting machine of the present invention;

FIG. 6 is a schematic view of a left cutter assembly of an embodiment of an industrial automatic film cutting machine according to the present invention;

fig. 7 is a schematic structural diagram of a jacking device of an industrial automatic film cutting machine according to an embodiment of the invention.

Detailed Description

In the following, the embodiments of the present invention will be described in detail with reference to the drawings in the following, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters below refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it is to be understood that the terms "upper" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, or orientations or positional relationships that are conventionally placed when the products of the present invention are used, or orientations or positional relationships that are conventionally understood by those skilled in the art, and are used for convenience of description and simplification of the description, but do not indicate or imply that the equipment or elements that are referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first" and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

The invention provides an industrial automatic film cutting machine, which comprises an upper frame 1, a lower frame 2, a cutter sliding table 3 arranged on the surface of the lower frame, a cutter assembly 4, two jacking assemblies 5 and a jacking device 6 arranged in the lower frame, wherein the cutter sliding table 3 is arranged on the lower frame, the cutter assembly 4 is arranged on the cutter sliding table 3, the two jacking assemblies 5 are arranged on the front sides of the cutter sliding table 3, and the jacking device 6 is arranged between the two jacking assemblies 5.

The invention relates to an industrial automatic film cutting machine, which mainly comprises an upper frame 1, a lower frame 2, a cutter sliding table 3, a cutter assembly 4, a jacking assembly 5 and a jacking device 6, wherein the upper frame 1 is arranged on the lower frame 2, and the cutter sliding table 3 is used for conveying the cutter assembly 4 to a specified position to cut off an RO film; the cutter assembly 4 is used for cutting off the RO membrane; the two tightly-pushing assemblies 5 are used for tightly pushing the RO rolling film 7; the jacking device 6 is used for conveying the RO roll film to a position between the two jacking assemblies 5; through mutually supporting of cutter slip table 3, cutter unit spare 4, the tight subassembly 5 in top and jacking device 6, make the membrane cutting machine can cut off the RO membrane automatically, realize the automatic membrane of cutting of membrane machine, guarantee to cut the membrane efficient, the precision is high.

In a preferred embodiment, referring to fig. 2, the cutter sliding table 3 of the film cutting machine includes a left cutter sliding table 31 and a right cutter sliding table 32 which are symmetrically arranged, the cutter assembly 4 includes a left cutter assembly 41 and a right cutter assembly 42 which are symmetrically arranged, the two puller assemblies 5 include a left puller assembly 51 and a right puller assembly 52 which are symmetrically arranged, the left cutter sliding table 31 and the right cutter sliding table 32 are structurally identical, the left cutter assembly 41 and the right cutter assembly 42 are structurally identical, the left cutter assembly 41 is installed on the left cutter sliding table 31, the right cutter assembly 42 is installed on the right cutter sliding table 32, the left puller assembly 51 is installed on one side of the left cutter sliding table 31, and the right puller assembly 52 is installed on one side of the right cutter sliding table 32. Specifically, the left tightening assembly 51 and the right tightening assembly 52 are arranged on the front sides of the left cutter sliding table 31 and the right cutter sliding table 32, the left cutter assembly 41 and the right cutter assembly 42 are respectively mounted on the left cutter sliding table 31 and the right cutter sliding table 32, the left cutter assembly 41 moves on the left cutter sliding table 31 to cut off the left side of the RO membrane, and the right cutter assembly 42 moves on the right cutter sliding table 32 to cut off the right side of the RO membrane.

In a preferred embodiment, referring to fig. 3, the left tightening assembly 51 of the film cutting machine comprises a driving assembly 511 disposed inside the lower frame, a tightening device 512 disposed on the upper portion of the lower frame, and a transmission assembly 513 connecting the driving assembly and the tightening device, and the tightening device is further provided with a left shield 514. The driving assembly 511 is used for driving the tightening device 512 thereon to reciprocate; the jacking device 512 is used for jacking the RO roll film and then performing cutting operation; the transmission assembly 513 is used for connecting the driving assembly 511 with the tightening device 512.

The driving assembly 511 comprises a driving motor 5111, a driving motor fixing plate 5112, a jacking cylinder 5113 and a cylinder connecting seat 5114, the driving motor 5111 is installed below the lower frame 2 through the driving motor fixing plate 5112, the jacking cylinder 5113 is arranged on the opposite side of the driving motor 5111, a piston rod of the jacking cylinder 5113 is connected with the cylinder connecting seat 5114, and the cylinder connecting seat 5114 is connected with the jacking device 512.

Driving motor 5111 is installed in the below of lower frame through driving motor fixed plate 5112, and the tight cylinder 5113 in top is installed in the below of lower frame through the cylinder fixing base, and the piston rod of the tight cylinder 5113 in top can pass driving motor fixed plate 5112 and be connected with cylinder connecting seat 5114 of the tight device downside in top, then the tight device 512 in top makes reciprocating motion under the drive of the piston rod of the tight cylinder 5113 in top.

The jacking device 512 comprises a left rail 5121, a moving bottom plate 5122, a bearing seat 5123, a left jacking shaft 5124, a tensioning pull rod 5125, a left jacking head 5126, a tensioning cylinder 5127, a tensioning cylinder seat 5128 and a cylinder rotating shaft 5129, wherein the left rail 5121 is arranged on the surface of the lower frame 2, the bottom surface of the left rail 5121 is connected with a cylinder connecting seat 5114, the bearing seat 5123 is vertically arranged on two sides of the surface of the moving bottom plate 5122, the left jacking shaft 5124 is arranged between the two bearing seats 5123 in a penetrating manner, one end of the left jacking head 5126 is arranged, the other end of the left jacking shaft 5124 is connected with the tensioning cylinder 5127 through the tensioning pull rod 5125, the tensioning cylinder 5127 is arranged on one side of the bearing seat 5123 through the tensioning cylinder seat 5128, the tensioning pull rod 5125 is arranged in the left jacking shaft 5124, and one end of the tensioning pull rod 5125 is connected with the rotating shaft of the tensioning cylinder 5127 through the cylinder rotating shaft 5129. The tightening device 512 tightens the RO film roll 7 by the left plug 5126.

The transmission assembly 513 comprises a jacking driving wheel 5131, a jacking driven wheel 5132 and a jacking conveying belt 5133, the jacking driving wheel 5131 is installed on a rotating shaft of the driving motor 5111, the jacking driven wheel 5132 is installed on the left jacking shaft 5124, and the jacking driving wheel 5131 and the jacking driven wheel 5132 are connected through the jacking conveying belt 5133. The transmission assembly 513 is connected with a driving motor 5111 and a left top shaft 5124, the driving motor 5111 drives the left top shaft 5124 to rotate, and meanwhile, the tensioning cylinder 5127 is connected with a tensioning pull rod 5125 in the left top shaft through a cylinder rotating shaft 5129, so that the left top head 5126 is connected with the RO roll membrane more tightly.

In a preferred embodiment, referring to fig. 4, the right tightening assembly 52 of the film cutting machine comprises a right rail 521, a right tightening bottom plate 522, a right tightening support base 523, a right tightening main shaft 524, a right tightening main shaft mounting base 525, a tightening head 526 and a right shield 527, wherein the right rail 521 is mounted on the surface of the lower frame 2, the right tightening bottom plate 522 is mounted on the right rail 521, the right tightening support base 523 is vertically mounted on the right tightening bottom plate 522, the right tightening main shaft 524 is mounted at the upper part thereof through the right tightening main shaft mounting base 525, the tightening head 526 is mounted at the front end of the right tightening main shaft 524, and the right shield 527 is mounted on the surface of the right tightening bottom plate 522. The right tightening assembly 52 also moves in the X-axis direction, and the left tightening assembly 51 and the right tightening assembly 52 are used in cooperation with each other to tighten the RO roll membrane.

In a preferred embodiment, referring to fig. 5, the left cutter sliding table 31 of the film cutting machine comprises an X-axis sliding table 311 mounted on the surface of the lower frame and a Y-axis sliding table 312 mounted on the X-axis sliding table, wherein the X-axis sliding table 311 is mounted on the surface of the lower frame 2 through a mounting plate 313, and the cutter assembly 41 is mounted on the Y-axis sliding table 312. The left cutter sliding table 31 includes an X-axis sliding table 311 and a Y-axis sliding table 312 on which the cutter unit 41 moves in the X-axis direction and the Y-axis direction.

In a preferred embodiment, referring to fig. 6, the left cutter assembly 41 of the film cutting machine comprises a cutter base plate 411, a cutter motor 412, a cutter driving wheel 413, a cutter driven wheel 414, a conveyor belt 415, a cutter main shaft 416, a cutter 417, a cutter supporting seat 418, a synchronizing wheel guard 419 and a cutter guard 4110, wherein the cutter base plate 411 is mounted on the Y-axis sliding table 312, the cutter motor 412 is mounted on the cutter base plate 411, the cutter driving wheel 413 is arranged on a rotating shaft of the cutter motor 412, the cutter driven wheel 414 is connected with the cutter driving wheel 413 through the conveyor belt 415, one end of the cutter main shaft 416 passes through the cutter driven wheel 414 and is mounted on the cutter base plate 411 through a main shaft mounting seat 4111 and the cutter supporting seat 418, the other end is mounted with the cutter 417 through a cutter locking member, the synchronizing wheel guard 419 is covered on the cutter driving wheel 413 and the cutter driven wheel 414, the cutter guard 4110 is mounted outside the synchronizing wheel guard 419, and is covered at one side of the cutter 417. Synchronizing wheel guard shield 419 and cutter guard shield 4110 both play the effect of protection, and when the cutter subassembly cut the RO membrane, cutter motor 412 drives cutter main shaft 416 to rotate through cutter action wheel 413, cutter driven wheel 414 and conveyer belt 415, and simultaneously, cutter main shaft 416 drives cutter 417 to rotate, realizes the cutting of RO membrane.

In a preferred embodiment, referring to fig. 7, the jacking device 6 of the film cutting machine comprises a jacking cylinder 61, a jacking bottom plate 62, a jacking V-shaped block bottom plate 63, a jacking guide pillar 64, a V-shaped block 65 and a feeding plate 66, wherein the jacking cylinder 61 is installed in the lower frame 2 through a jacking installation plate 67, the jacking bottom plate 62 is arranged at the upper end of the jacking cylinder 61, the jacking V-shaped block bottom plate 63 is connected with a piston rod of the jacking cylinder 61 and arranged above the jacking bottom plate 62, the jacking guide pillar 64 is arranged at the bottom surface of the jacking V-shaped block bottom plate 63 and penetrates through the jacking bottom plate 62, the V-shaped block 65 is arranged on the surface of the jacking V-shaped block bottom plate 63, and the feeding plate 66 is arranged on the surface of the V-shaped block 65. The V-shaped members 65 are arranged in pairs and are oppositely arranged, two feeding plates 66 are arranged, and a V-shaped feeding groove 68 is formed between the two feeding plates 66. During feeding, the RO roll film is placed on the V-shaped feeding groove 68, and is moved to a position between the left jacking assembly 51 and the right jacking assembly 52 under the action of the jacking cylinder 61 and then clamped; it should be noted that each jacking guide post 64 is provided with a linear bearing 69, and the linear bearing 69 is arranged on the jacking bottom plate 62, so as to ensure that the RO roll film on the V-shaped feeding chute 68 can be lifted and lowered smoothly.

In a preferred embodiment, referring to fig. 1 and 2, the upper frame 1 is provided with an automatic door 8 and a control panel 9 at the front side, and safety light barriers are provided at both sides of the automatic door 8. Automatic door 8 is opened and is closed from both sides, and 1 one side of frame is located to control panel 9 for show the operational aspect of film cutting machine, the safe grating plays the guard action to automatic door 8.

The invention relates to an industrial automatic film cutting machine, which has the working principle that:

the automatic door is opened, manual feeding is carried out, the feeding and discharging jacking device 6 is lifted, manual discharging is carried out, after workers carry out discharging, the equipment is started, the left and right jacking assemblies jack the rolled film tightly, the feeding and discharging jacking device descends, and meanwhile, the automatic door is closed; a driving motor 5111 of the left tightening assembly 51 drives the film winding to rotate, the cutters of the cutter assemblies on the two sides rotate, and move to the designated positions on the X axis and the Y axis through the cutter sliding table 3 to start film cutting, and meanwhile, a water cooling system of the film cutting machine is opened to cool the cutters; after the film cutting is completed, the water cooling system is closed, the cutters on the two sides return, the feeding and discharging jacking device 6 rises, the left jacking shaft and the right jacking shaft return, the automatic door is opened, the manual feeding is performed, and the film cutting action is completed.

The above description is only a part of or preferred embodiments of the present invention, and neither the text nor the drawings should be construed as limiting the scope of the present invention, and all equivalent structural changes, which are made by using the contents of the present specification and the drawings, or any other related technical fields, are included in the scope of the present invention.

Claims

1. Automatic membrane machine of cutting of industry, its characterized in that: including last frame, lower frame, locate down the cutter slip table on frame surface, cutter unit spare and two tight subassemblies in top, still including locating the jacking device in the lower frame, the cutter slip table is installed in the lower frame, cutter unit spare is installed on the cutter slip table, two the tight subassembly in top is installed in cutter slip table front side, jacking device locates between the tight subassembly in two tops.

2. The automatic film cutting machine of industry of claim 1, characterized in that, the cutter slip table includes left cutter slip table and right cutter slip table that the symmetry set up, the cutter unit includes left cutter unit spare and right cutter unit spare that the symmetry set up, two the tight subassembly in top is including the tight subassembly in left top and the tight subassembly in right top that the symmetry set up, left side cutter slip table and right cutter slip table structure are the same, left side cutter unit spare and right cutter unit spare structure are the same, left side cutter unit spare is installed on left cutter slip table, right cutter unit spare is installed on right cutter slip table, one side of left cutter slip table is located to the tight subassembly in left side top, one side of right cutter slip table is located to the tight subassembly in right side top.

3. The industrial automatic film cutting machine according to claim 2, wherein the left tightening assembly comprises a driving assembly arranged inside the lower frame, a tightening device arranged at the upper part of the lower frame and a transmission assembly connecting the driving assembly and the tightening device, and a left protective cover is further arranged on the tightening device;

4. The automatic film cutting machine of industry of claim 2, characterized in that, the tight subassembly in right top includes right track, the tight bottom plate in right top, the tight supporting seat in right top, the tight main shaft mount pad in right top, top and right guard shield, right track mounting is in rack surface down, the tight bottom plate in right top is installed on right track, the tight supporting seat in right top is installed perpendicularly on the tight bottom plate in right top, the tight main shaft in right top is installed its upper portion through the tight main shaft mount pad in right top, the top is installed at the tight main shaft front end in right top, the tight bottom plate surface in right top is installed to right guard shield.

5. The industrial automatic film cutting machine according to claim 2, wherein the left cutter sliding table comprises an X-axis sliding table arranged on the surface of the lower frame and a Y-axis sliding table arranged on the X-axis sliding table, the X-axis sliding table is arranged on the surface of the lower frame through a mounting plate, and the cutter assembly is arranged on the Y-axis sliding table.

6. The industrial automatic film cutting machine according to claim 2, wherein said left cutter assembly comprises a cutter base plate, a cutter motor, a cutter driving wheel, a cutter driven wheel, a conveyor belt, a cutter main shaft, a cutter supporting seat, a synchronizing wheel shield and a cutter shield, the cutter bottom plate is arranged on the Y-axis sliding table, the cutter motor is arranged on the cutter bottom plate, the cutter driving wheel is arranged on the rotating shaft of the cutter motor, the cutter driven wheel is connected with the cutter driving wheel through a conveyor belt, one end of the cutter main shaft penetrates through the cutter driven wheel, and is arranged on the cutter bottom plate through the main shaft mounting seat and the cutter supporting seat, the other end is provided with a cutter through a cutter locking piece, the synchronous wheel shield is covered on the cutter driving wheel and the cutter driven wheel, and the cutter shield is arranged on the outer side of the synchronous wheel shield and covered on one side of the cutter.

7. The industrial automatic film cutting machine according to claim 1, wherein the jacking device comprises a jacking cylinder, a jacking bottom plate, a jacking V-shaped block bottom plate, a jacking guide pillar, a V-shaped part and a feeding plate, the jacking cylinder is mounted in the lower frame through a jacking mounting plate, the jacking bottom plate is arranged at the upper end of the jacking cylinder, the jacking V-shaped block bottom plate is connected with a piston rod of the jacking cylinder and is arranged above the jacking bottom plate, the jacking guide pillar is arranged at the bottom surface of the jacking V-shaped block bottom plate and penetrates through the jacking bottom plate, the V-shaped part is arranged on the surface of the jacking V-shaped block bottom plate, and the feeding plate is arranged on the surface of the V-shaped part.

8. The industrial automatic film cutting machine as claimed in claim 7, wherein the V-shaped members are provided in plurality, a group of two V-shaped members are oppositely arranged, two feeding plates are provided, and a V-shaped feeding groove is formed between the two feeding plates.

9. The industrial automatic film cutting machine according to claim 1, wherein an automatic door and a control panel are arranged on the front side of the upper frame, and safety gratings are arranged on two sides of the automatic door.