CN205467785U - Full -automatic film laminating machine - Google Patents

Abstract

The utility model is suitable for a lens film covering technology field provides a full -automatic film laminating machine, include the lens handling system, send membrane system, tectorial membrane system, cut membrane system and control system. The lens system of moving includes that the lens places the seat, and the lens is placed and is seted up the storage tank of placing the lens on the seat. The tectorial membrane system includes that film pressing machine constructs and evacuation mechanism, and the film pressing machine structure includes the sealed compact heap of going into the film pressure in storage tank and sealed storage tank notch, offers the venthole that is used for taking out the inside air of storage tank on storage tank or the sealed compact heap, and the venthole feeds through with evacuation mechanism. The air of evacuation mechanism in with the storage tank is taken out from the venthole, makes storage tank vacuum production state. Cut the membrane system including the cutter that is used for cutting the membrane, the shape of cutter and the outline shape phase -match at lens tectorial membrane position. The utility model discloses a send membrane, tectorial membrane and cut the full automatization of flows such as membrane, improved production efficiency to the product standardization degree is high, product stable quality.

Description

Full-automatic laminating machine

Technical field

This utility model belongs to eyeglass film coating technique field, particularly relates to a kind of full-automatic laminating machine.

Background technology

At present, eyeglass overlay film substantially uses hand adaptation press mold evacuation fixture to carry out operation, need by hand eyeglass to be put in fixture bearing, artificial membrane is bonded at fixture bearing mouth, then uses quick clip pressurizing block, pushes down film, pass through vacuum generator, air in bearing being extracted out, thus utilizes atmospheric pressure that film is overlayed on eyeglass, last craft cutter cuts down the eyeglass having covered film from film strips.Except evacuation, other actions substantially rely on people's manual operations to complete, and production efficiency is low, and manual operation is difficult to unified, and quality is unstable.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of full-automatic laminating machine, it is intended to solve the problem that employing hand adaptation press mold evacuation fixture of the prior art is low as the production efficiency existing for film coating operation and quality is unstable.

This utility model is realized in, a kind of full-automatic laminating machine, including eyeglass being delivered to the eyeglass handling system of overlay film position, the film feeding system of transport membrane to overlay film position, being used for the overlay film system of overlay film operation, cut membranous system and control described handling system, film feeding system, overlay film system, cut membranous system and start or out-of-work control system；The described eyeglass system of moving includes eyeglass placement rack, the storage tank for placing eyeglass is offered on described eyeglass placement rack, described overlay film system includes squeeze-film mechanism and vacuum device, described squeeze-film mechanism includes mould entering described storage tank and sealing the sealing compact heap of storage tank notch, the venthole for extracting storage tank inner air out is offered on described storage tank or sealing compact heap, described venthole connects with described vacuum device, air in described storage tank is extracted out by described vacuum device from described venthole, described storage tank is made to form vacuum state；Described membranous system of cutting includes the cutting knife for cutting film, and the shape of described cutting knife matches with the outer contour shape at eyeglass overlay film position.

Further, the described eyeglass system of moving includes for capturing or unclamp the material grasping device of eyeglass, material grasping device horizontal mobile mechanism, the vertically movable mechanism of material grasping device, described material grasping device is installed in the described vertically movable mechanism of material grasping device, and the described vertically movable mechanism of material grasping device is installed on described material grasping device horizontal mobile mechanism.

Further, described eyeglass is moved system and is also included that lens orientation mechanism, described lens orientation mechanism include clamping device, the vertical location apparatus driving described eyeglass placement rack to move up and down and the horizontal positioning device driving described eyeglass placement rack to move horizontally；Described clamping device includes that described clamping cylinder, described clamping cylinder are provided with the gas pawl for clamping or unclamp eyeglass, and described gas pawl is positioned at described storage tank.

Further, described vertical location apparatus includes that jack-up cylinder, the piston rod of described jack-up cylinder stretch in described storage tank along the bottom of described eyeglass placement rack.

Further, described sealing compact heap offering perforation, the area of described perforation is more than the area at eyeglass overlay film position, and in cutting in membrane process, described cutting knife penetrates described perforation.

Further, described squeeze-film mechanism also includes lift cylinder, described sealing compact heap, cuts membranous system and is connected with the piston rod of described lift cylinder.

Further, cut membranous system described in and include that bar fixed by cutting knife actuating cylinder, cutting knife dynamic transfering rod and cutting knife；The piston rod of described cutting knife actuating cylinder is fixing with the upper end of described cutting knife dynamic transfering rod to be connected, described cutting knife fixes with described cutting knife that the bottom of bar is fixing to be connected, described cutting knife actuating cylinder drives described cutting knife dynamic transfering rod stretching motion, when the piston rod of described cutting knife actuating cylinder extends, pressing described cutting knife to fix bar under described cutting knife dynamic transfering rod, described cutting knife is fixed bar and is driven crush-cutting film under described cutting knife.

Further, described in cut membranous system and also include that seat fixed by fixing bar switching seat and cutting knife, described cutting knife is fixed the bottom of bar and is vertically fixed on described cutting knife and fixes on seat, and described cutting knife is installed on described cutting knife and fixes on seat；The upper end of bar fixed by described cutting knife can switch seat through described fixing bar up and downly, and described cutting knife is fixed and is arranged with back-moving spring on the periphery of bar upper end, and the bottom of described back-moving spring is positioned on described fixing bar switching seat.

Further, cut membranous system described in and also include that tool changing motor and rotary shaft, described tool changing motor are connected with transmission of rotary axis, described cutting knife includes at least two blade, the cross section of described at least two blade all in circular, and, the diameter of each blade differs；The quantity that seat fixed by described cutting knife is identical with knife number, described fixing bar switching seat is fixing with described rotary shaft to be connected, fix bar switching seat described in described tool changing driven by motor and rotate different angles, make the cutting knife being connected with a certain blade fix bar and align with described cutting knife dynamic transfering rod.

Further, described film feeding system includes the conveying axis that belt conveyor, driving motor and at least two are spaced apart, and described conveying axis is connected with the rotating shaft transmission of described driving motor, and described belt conveyor is wound on described at least two conveying axis；Film is covered on described belt conveyor, and described belt conveyor offers the through hole passed for described cutting knife.

This utility model is compared with prior art, have the beneficial effects that: full-automatic laminating machine of the present utility model, there is the eyeglass handling system of automatic transporting eyeglass, the film feeding system of automatic film transmitting, the overlay film system of automatic film covering and automatically cut film cut membranous system, achieve film feeding, overlay film and cut the full-automation of the flow processs such as film, improve production efficiency, and, links is all unified mechanically actuated, the eyeglass of same specification uses the cutting knife of same shape, the degree of product standardization is high, compared to manual operation, the product with stable quality that this utility model is produced.

Accompanying drawing explanation

Fig. 1 is the perspective view of a kind of full-automatic laminating machine that this utility model embodiment provides.

Fig. 2 is the material grasping device horizontal mobile mechanism in Fig. 1 and the perspective view of the vertically movable mechanism of material grasping device.

Fig. 3 is the lens orientation mechanism in Fig. 1 and the perspective view of eyeglass placement rack.

Fig. 4 is the perspective view of the eyeglass placement rack in Fig. 3.

Fig. 5 is the overlay film system in Fig. 1 and the perspective view cutting membranous system.

Fig. 6 is the longitudinal cross-sectional schematic cutting membranous system in Fig. 1.

Fig. 7 is the decomposition texture schematic diagram cutting membranous system in Fig. 1.

Fig. 8 is the film feeding system in Fig. 1, Shou Fei film mechanism and the perspective view receiving counterdie mechanism.

Fig. 9 is that receive useless film axle, the first friction pulley and first in Fig. 8 synchronize the perspective view of wheel.

Detailed description of the invention

In order to make technical problem to be solved in the utility model, technical scheme and beneficial effect clearer, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

As shown in Figure 1, for a preferred embodiment of the present utility model, a kind of full-automatic laminating machine, including eyeglass being delivered to the eyeglass handling system 1 of overlay film position, the film feeding system 2 of transport membrane to overlay film position, being used for the overlay film system 3 of overlay film operation, cut membranous system 4, Shou Fei film mechanism 5, receive counterdie mechanism 6 and control above-mentioned each system and mechanism starts or out-of-work control system (not shown).

Specifically, referring to Fig. 2, eyeglass is moved system 1 and is included capturing or unclamping the material grasping device 11 of eyeglass, the vertically movable mechanism of material grasping device 12, material grasping device horizontal mobile mechanism 13, lens orientation mechanism 14 and eyeglass placement rack 15.The storage tank 151 for placing eyeglass is offered on eyeglass placement rack 15.

Material grasping device 11 is installed in the vertically movable mechanism of material grasping device 12, and in actual applications, material grasping device 11 can be selected for vacuum cup.The vertically movable mechanism of material grasping device 12 includes that vertically arranged material grasping device moves up and down cylinder 121, and material grasping device moves up and down that the piston rod of cylinder 121 is fixing with material grasping device 11 to be connected.Material grasping device horizontal mobile mechanism 13 includes X-axis travel mechanism and Y-axis moving mechanism, and wherein, X-axis travel mechanism includes that X-axis moves cylinder 1311, Y-axis moving mechanism mounting seat 1312 and slide rail 1313.The vertically movable mechanism of material grasping device 12 is installed in Y-axis moving mechanism mounting seat 1312.Y-axis moving mechanism includes that Y-axis moves cylinder 1321 and guide pillar 1322, Y-axis moves cylinder 1321 and guide pillar 1322 is also arranged in Y-axis moving mechanism mounting seat 1312, the vertically movable mechanism of material grasping device 12 is fastened on the periphery of guide pillar 1322, can sliding axially along guide pillar 1322.X-axis moves that the piston rod of cylinder 1311 is fixing with Y-axis moving mechanism mounting seat 1312 to be connected, Y-axis moving mechanism mounting seat 1312 is placed on slide rail 1313, X-axis moves cylinder 1311 when working, and Y-axis moving mechanism mounting seat 1312 and Y-axis moving mechanism can move back and forth along X-direction (being fore-and-aft direction relative to whole laminating machine).

Referring to Fig. 3, lens orientation mechanism 14 includes clamping device, the vertical location apparatus driving eyeglass placement rack 15 to move up and down and the horizontal positioning device driving eyeglass placement rack 15 to move horizontally.Specifically, lens orientation mechanism 14 also include one for the mounting seat 140 installing clamping device, eyeglass placement rack 15 and vertical location apparatus, mounting seat 140 top there are two groups be separated by the clamping device of setting, eyeglass placement rack 15 and vertical location apparatus；Having two pieces of cross sliding clocks 1401 bottom it, cross sliding clock 1401 holding is on guide rail 144.

Clamping device includes that clamping cylinder 141, clamping cylinder 141 are provided with the gas pawl 1411 for clamping or unclamp eyeglass, and gas pawl 1411 is positioned at storage tank 151.Vertical location apparatus includes jack-up cylinder 142, and the piston rod 1421 of jack-up cylinder 142 stretches in storage tank 151 along the bottom of eyeglass placement rack 15.Horizontal positioning device includes shifting cylinder (not shown) and guide rail 144, and the piston rod of displacement cylinder is fixing with cross sliding clock 1401 to be connected.

The initial position of displacement cylinder piston rod is the state of stretching out, now, eyeglass placement rack 15 is positioned at the outside of guide rail 144, and material grasping device 11, after the accurately movement of above-mentioned material grasping device horizontal mobile mechanism 13 and the vertically movable mechanism of material grasping device 12, is positioned at eyeglass and places the top at seat 15.Treating that the eyeglass of overlay film is placed in box aborning, box is immediately below automatic conveyor line or other mode automatic transport to material grasping device 11.Material grasping device moves up and down the piston rod of cylinder 121 and extends downwardly from, and material grasping device 11 moves down, and after capturing the eyeglass in box, upwards retracts, and material grasping device 11 rises；Then, Y-axis moves the piston rod elongation of cylinder 1321, and material grasping device 11 moves axially along guide pillar 1322, and meanwhile, the piston rod shifting cylinder 143 is retracted, and drives the past retraction of material grasping device 11, until moving above eyeglass placement rack 15.nullMaterial grasping device moves up and down the piston rod of cylinder 121 and again extends downwardly from，Material grasping device 11 moves down，Eyeglass thereon is put into storage tank 151，The piston rod 1421 of jack-up cylinder 142 stretches out，Eyeglass jack-up is fallen jack-up again，Ensure that eyeglass falls into storage tank 151 center substantially，The piston rod 1421 of jack-up cylinder 142 keeps jack-up state (the initial position height of eyeglass overlay film)，The gas pawl 1411 of clamping cylinder 141 closes up afterwards，Ensure that eyeglass is positioned at the center of storage tank，Displacement cylinder operation，By eyeglass placement rack 15 and eyeglass from the lateral medial movement of guide rail 144，After arriving overlay film position，Gas pawl 1411 unclamps，Return to initial position，After waiting overlay film and cutting membrane operations，Eyeglass placement rack 15 is driven back to initial position by displacement cylinder 143，Material grasping device 11 moves down，By overlay film、Cut the eyeglass after film to take out，Then，It is put back in box，Simultaneously，The piston rod 1421 of jack-up cylinder 142 is retracted initial position.

Overlay film system 3 includes squeeze-film mechanism and vacuum device, and squeeze-film mechanism includes mould entering storage tank 151 and sealing sealing compact heap 311 and the lift cylinder 312 of storage tank 151 notch.Seal compact heap 311 and cut membranous system 4 and be connected with the piston rod of lift cylinder 312.

Offering the venthole 152 for extracting storage tank 151 inner air out on storage tank 151 or sealing compact heap 311, venthole 152 connects with vacuum device.Referring to Fig. 4, in the present embodiment, venthole 152 is opened on the sidewall of storage tank 151.Lift cylinder 312 works, and makes sealing compact heap 311 decline, compress and seal storage tank 151, and the air in storage tank 151 is extracted out by vacuum device from venthole 152, storage tank 151 is made to form vacuum state, under atmospheric pressure, film is pressed down, and covers on eyeglass.Cutting membranous system 4 and include the cutting knife 40 for cutting film, the shape of cutting knife 40 matches with the outer contour shape at eyeglass overlay film position.Sealing and offer perforation on compact heap 311, the area of perforation is more than the area at eyeglass overlay film position, and in cutting in membrane process, cutting knife 40 penetrates perforation, cuts off the film of lens edge.

Refer to Fig. 5 to Fig. 7, cut that membranous system 4 includes cutting knife actuating cylinder 41, cutting knife dynamic transfering rod 42, fixing bar switching seat 43, bar 44 fixed by cutting knife and seat 45 fixed by cutting knife.The upper end of the piston rod of cutting knife actuating cylinder 41 and cutting knife dynamic transfering rod 42 is fixing to be connected, and cutting knife 40 is fixed the bottom of bar 44 and fixed and be connected with cutting knife.Cutting knife actuating cylinder 41 drives cutting knife dynamic transfering rod 42 stretching motion, and when the piston rod of cutting knife actuating cylinder 41 extends, bar 44 fixed by 42 times crush-cutting cuttves of cutting knife dynamic transfering rod, and cutting knife is fixed bar 44 and driven 40 times crush-cutting films of cutting knife.

Cutting knife is fixed the bottom of bar 44 and is vertically fixed on cutting knife and fixes on seat 45, and cutting knife 40 is installed on cutting knife and fixes on seat 45.The upper end of bar 44 fixed by cutting knife can switch seat 43 through fixing bar up and downly, and cutting knife is fixed and is arranged with back-moving spring 46 on the periphery of bar 44 upper end, and the bottom of back-moving spring 46 is positioned on fixing bar switching seat 43.When bar 44 fixed by 42 times crush-cutting cuttves of cutting knife dynamic transfering rod, back-moving spring 46 slowly compresses, thus serves cushioning effect, desirably prevents cutting knife 40 and contacts with the really up to the mark of eyeglass placement rack 15, prevents both from damaging.Having worked when cutting film, when the piston rod of cutting knife actuating cylinder 41 is upwards retracted, back-moving spring 46 protrudes upward, reinstatement, in the process, back-moving spring 46 pulls cutting knife to fix bar 44, seat 45 fixed by cutting knife, cutting knife 40 also returns to original state, and wait next eyeglass cuts membrane operations.

Above-mentioned membranous system 4 of cutting also includes tool changing motor 47 and rotary shaft 48.Tool changing motor 47 and rotary shaft 48 is taken turns 491 be in transmission connection with Timing Belt 492 by is Tong Bued, and cutting knife 40 includes at least two blade 401, the cross section of at least two blade 401 all in circular, and, the diameter of each blade 401 differs.The quantity that seat 45 fixed by cutting knife is identical with blade 401 quantity, fixing bar switching seat 43 is fixing with rotary shaft 48 to be connected, tool changing motor 47 drives fixing bar switching seat 43 to rotate different angles, makes the cutting knife being connected with a certain blade 401 fix bar 44 and aligns with cutting knife dynamic transfering rod 42.Now, cutting knife dynamic transfering rod presses for 42 times the cutting knife aligned to fix bar 44, i.e. can switch to fix the blade 401 that bar 44 is connected with this cutting knife.Specifically, the present embodiment is provided with about three spaced cutting knifes and fixes seat 45a, 45b, 45c, and three cutting knifes are fixed and are respectively arranged with blade 401a, 401b, 401c on seat 45a, 45b, 45c.Cutting knife is fixed seat 45a, 45b, 45c and is all set in rotary shaft 48, three spaced jump rings 481 it are provided with in rotary shaft 48, three jump rings 481 are respectively used to that a cutting knife below is fixed seat 45 and carry out spacing, in order to after seat 45 reset fixed by cutting knife, all can return to original position.

Referring to Fig. 8, film feeding system 2 includes conveying axis 23, Timing Belt 24 and the film discharging roller 25 that belt conveyor 21, driving motor 22, at least two are spaced apart.Conveying axis 23 is connected with the rotating shaft transmission driving motor 22, and belt conveyor 21 is wound on all of conveying axis 23.Film is covered on belt conveyor 21, the through hole 211 passed for cutting knife is offered on belt conveyor 21, motor 22 is driven to work, belt conveyor 21 and film thereon are under the drive of conveying axis 23, from overlay film system 3, cut and pass through below membranous system 4, overlay film system 3, cut membranous system 4 and work, complete the overlay film of eyeglass and cut membrane operations.

Shou Fei film mechanism 5 includes that above-mentioned driving motor 22, first synchronizes wheel the 51, first friction pulley 52 and receives useless film axle 53.Referring to Fig. 9, the first friction pulley 52 is fastenedly connected with receiving useless film axle 53.Driving motor 22 to be in transmission connection by above-mentioned Timing Belt 24 wheel 51 Tong Bu with first, first synchronizes wheel the 51, first friction pulley 52 film axle 53 useless with receipts coaxially couples.The most together seeing Fig. 7, the first friction pulley 52 synchronizes wheel 51 with first and contact, and first when synchronizing wheel 51 rotation, and the frictional force between the first friction pulley 52 wheel 51 Tong Bus with first drives the first friction pulley 52 and the receipts film axle 53 that gives up to rotate.

Receiving counterdie mechanism 6 and include that above-mentioned driving motor 22, second synchronizes wheel the 61, second friction pulley 62 and receives counterdie axle 63, the first friction pulley 52 is fastenedly connected with receiving counterdie axle 53.Motor 22 is driven to be in transmission connection by above-mentioned Timing Belt 24 wheel 61 Tong Bu with second, second synchronizes wheel the 61, second friction pulley 62 coaxially couples with receiving counterdie axle 63, second friction pulley 62 synchronizes wheel 61 with second and contacts, during the second synchronization wheel 61 rotation, the frictional force between the second friction pulley 62 wheel 61 Tong Bu with second drives the second friction pulley 62 and receipts counterdie axle 63 to rotate.

In the present embodiment, film discharging roller 25 is positioned at the top position, right side of belt conveyor 21, receives counterdie axle 63 and is positioned at the lower right-hand side position of belt conveyor 21, receives counterdie axle 63 and is then positioned at the lower position on the left of belt conveyor 21.

Raw material film 200 is wound on film discharging roller 25, and raw material film 200 has two-layer, and upper layer film 201 is for eyeglass overlay film, and one end of upper layer film 201 is wound on film discharging roller 25, and the other end covers on belt conveyor 21.Lower membrane 202 (i.e. counterdie) is in order to avoid two upper layer films are inter-adhesive, and its one end is wound on film discharging roller 25, and the other end is wound on receipts counterdie axle 63.Upper layer film 201 (film after being cut) through belt conveyor 21 is being received on counterdie axle 63 around the home.Visible, above-mentioned conveying axis 23, the useless film axle 53 of receipts and receipts counterdie axle 63 are driven by same driving motor 22, and synchronous working had both reduced the quantity of power source, and saved the material cost of machine, and in turn ensure that the concordance of each action.

The full-automatic laminating machine of the present embodiment, have the eyeglass handling system 1 of automatic transporting eyeglass, the film feeding system 2 of automatic film transmitting, the overlay film system 3 of automatic film covering and automatically cut film cut membranous system 4, achieve film feeding, overlay film and cut the full-automation of the flow processs such as film, improve production efficiency, and, links is all unified mechanically actuated, the eyeglass of same specification uses the cutting knife 40 of same shape, the degree of product standardization is high, compared to manual operation, the product with stable quality that the full-automatic laminating machine in the present embodiment produces.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, within should be included in protection domain of the present utility model.

Claims (10)

1. a full-automatic laminating machine, it is characterized in that, it includes being delivered to eyeglass the eyeglass handling system of overlay film position, the film feeding system of transport membrane to overlay film position, is used for the overlay film system of overlay film operation, cuts membranous system and control described handling system, film feeding system, overlay film system, cut membranous system and start or out-of-work control system；The described eyeglass system of moving includes eyeglass placement rack, the storage tank for placing eyeglass is offered on described eyeglass placement rack, described overlay film system includes squeeze-film mechanism and vacuum device, described squeeze-film mechanism includes mould entering described storage tank and sealing the sealing compact heap of storage tank notch, the venthole for extracting storage tank inner air out is offered on described storage tank or sealing compact heap, described venthole connects with described vacuum device, air in described storage tank is extracted out by described vacuum device from described venthole, described storage tank is made to form vacuum state；Described membranous system of cutting includes the cutting knife for cutting film, and the shape of described cutting knife matches with the outer contour shape at eyeglass overlay film position.

2. full-automatic laminating machine as claimed in claim 1, it is characterized in that, the described eyeglass system of moving includes for capturing or unclamp the material grasping device of eyeglass, material grasping device horizontal mobile mechanism, the vertically movable mechanism of material grasping device, described material grasping device is installed in the described vertically movable mechanism of material grasping device, and the described vertically movable mechanism of material grasping device is installed on described material grasping device horizontal mobile mechanism.

3. full-automatic laminating machine as claimed in claim 1, it is characterized in that, described eyeglass is moved system and is also included that lens orientation mechanism, described lens orientation mechanism include clamping device, the vertical location apparatus driving described eyeglass placement rack to move up and down and the horizontal positioning device driving described eyeglass placement rack to move horizontally；Described clamping device includes that described clamping cylinder, described clamping cylinder are provided with the gas pawl for clamping or unclamp eyeglass, and described gas pawl is positioned at described storage tank.

4. full-automatic laminating machine as claimed in claim 3, it is characterised in that described vertical location apparatus includes that jack-up cylinder, the piston rod of described jack-up cylinder stretch in described storage tank along the bottom of described eyeglass placement rack.

5. full-automatic laminating machine as claimed in claim 1, it is characterised in that offering perforation on described sealing compact heap, the area of described perforation is more than the area at eyeglass overlay film position, and in cutting in membrane process, described cutting knife penetrates described perforation.

6. laminating machine as claimed in claim 1 full-automatic, it is characterised in that described squeeze-film mechanism also includes lift cylinder, described sealing compact heap, cuts membranous system and is connected with the piston rod of described lift cylinder.

7. the full-automatic laminating machine as described in claim 1 to 5 any one, it is characterised in that described in cut membranous system and include that bar fixed by cutting knife actuating cylinder, cutting knife dynamic transfering rod and cutting knife；The piston rod of described cutting knife actuating cylinder is fixing with the upper end of described cutting knife dynamic transfering rod to be connected, described cutting knife fixes with described cutting knife that the bottom of bar is fixing to be connected, described cutting knife actuating cylinder drives described cutting knife dynamic transfering rod stretching motion, when the piston rod of described cutting knife actuating cylinder extends, pressing described cutting knife to fix bar under described cutting knife dynamic transfering rod, described cutting knife is fixed bar and is driven crush-cutting film under described cutting knife.

8. full-automatic laminating machine as claimed in claim 7, it is characterized in that, described membranous system of cutting also includes that seat fixed by fixing bar switching seat and cutting knife, and described cutting knife is fixed the bottom of bar and is vertically fixed on described cutting knife and fixes on seat, and described cutting knife is installed on described cutting knife and fixes on seat；The upper end of bar fixed by described cutting knife can switch seat through described fixing bar up and downly, and described cutting knife is fixed and is arranged with back-moving spring on the periphery of bar upper end, and the bottom of described back-moving spring is positioned on described fixing bar switching seat.

9. full-automatic laminating machine as claimed in claim 8, it is characterized in that, described membranous system of cutting also includes tool changing motor and rotary shaft, described tool changing motor is connected with transmission of rotary axis, described cutting knife includes at least two blade, the cross section of described at least two blade all in circular, and, the diameter of each blade differs；The quantity that seat fixed by described cutting knife is identical with knife number, described fixing bar switching seat is fixing with described rotary shaft to be connected, fix bar switching seat described in described tool changing driven by motor and rotate different angles, make the cutting knife being connected with a certain blade fix bar and align with described cutting knife dynamic transfering rod.

10. the full-automatic laminating machine as described in claim 1 to 5 any one, it is characterized in that, described film feeding system includes the conveying axis that belt conveyor, driving motor and at least two are spaced apart, described conveying axis is connected with the rotating shaft transmission of described driving motor, and described belt conveyor is wound on described at least two conveying axis；Film is covered on described belt conveyor, and described belt conveyor offers the through hole passed for described cutting knife.