CN104191850A - Transfer printing process for ultra-large specification glass and laminating machine for transfer printing process - Google Patents

Abstract

The invention discloses a transfer printing process for ultra-large specification glass and a laminating machine for the transfer printing process. The process comprises the following steps: cleaning and drying glass, sequentially spraying anti-aging ink, ultraviolet-resistant ink and an adhesive to the glass and baking; feeding the glass into a laminating machine, conveying the glass to laminating positions under the action of a conveying system, mounting a transfer membrane on the membrane assembling system, tightening the transfer membrane by using a membrane tightening system, conveying pattern parts of the transfer membrane to the upper side of the glass under the action of a membrane carrying system, and transferring the patterns to the glass under the action of a laminating system; and separating the glass from the transfer membrane through a membrane stripper, sequentially spraying anti-aging ink, white inorganic salt ink and polypropylene ink on the glass, baking, and finally adhering to a glass silk screen. According to the process provided by the invention, the transferred patterns on the glass can be clear, attractive in appearance and long-lasting and are suitable for outdoor decorations. According to the laminating machine used by the invention, the damage rate of glass in the laminating process can be reduced, and a double-image phenomenon of the transferred patterns on the glass is avoided.

Description

A kind of transfering printing process of super large-scale glass and for the laminating machine of this technique

Technical field

The invention belongs to glass transfer printing field, be specifically related to a kind of transfering printing process of super large-scale glass and the laminating machine for this technique.

Background technology

Transfering printing technology is applied to the field such as clothes, toy at present more, for a lot of colors have been added in people's life.

But existing transfering printing technology is not mature enough, the problem such as that the picture and text that print off easily occur is unintelligible, fade, adhesion-tight degree is not high, this makes the transfering printing technology cannot be in the use on glass of super large-scale.What current interior decoration and exterior wall finishing adopted is with figuratum glass, mostly make by techniques such as etching, spray carving, air brushing, serigraphys, but colored type and the color of the pattern that above technique is made are more dull, and dull image, more seriously it can cause larger pollution to environment.

Carrying out in the process of glass transfer printing, at present conventional laminating machine supports the use by pressure roller and backing roll, completes overlay film.Carrying out, in the process of overlay film, often occurring the phenomenon of bubble and pattern distortions, affect product quality, and very easily occur the crushed situation of glass, cause the waste of material, improve production cost.

Along with the raising that consumer requires product quality, produce that clear patterns, adhesive force are high can be applicable to outdoor glass not easy to fade and become the developing direction of glass transfer printing simultaneously.

Summary of the invention

The present invention aims to provide the transfering printing process of a kind of laminating machine and super large-scale glass, can make clear patterns of printing off on glass, avoid occurring that decorative pattern folds unclear phenomenon, increase the degree of adhering to of pattern on glass simultaneously, make the glass after transfer printing be applicable to exterior decoration use.

For solving the problems of the technologies described above, the invention provides following technical scheme: a kind of transfering printing process of super large-scale glass, described technical process is as follows:

(1), clean, glass is cleaned with glass cleaning machine, and after cleaning, glass is dried;

(2), spray anti-aging ink, glass surface sprays anti-aging ink, sends into baking section constant temperature baking 15-45 minute at temperature 160-200 DEG C;

(3), spraying uvioresistant ink, on anti-aging ink, spray uvioresistant ink, send into baking section constant temperature baking 10-30 minute at temperature 100-120 DEG C;

(4), adhesive for spraying, adhesive for spraying on uvioresistant ink, sends into baking section constant temperature baking 10-20 minute at temperature 100-120 DEG C, makes adhesive in leather hard;

(5), overlay film, laminating machine is attached to transfer membrane on adhesive and stops 10-15 second;

(6), stripping, stripping machine separates transfer membrane with glass;

(7), spray anti-aging ink, in printed side, spray anti-aging ink, send into baking section and toast 20-40 minute at temperature 160-200 DEG C;

(8), spray white inorganic salts ink, by below glass cools to 50 DEG C, in printed side, spray white inorganic salts ink, send into baking section and toast 15-25 minute at temperature 160-200 DEG C;

(9), spray coating polypropylene ink, spray coating polypropylene ink on white inorganic salts ink, sends into baking section and toast 15-25 minute at temperature 160-200 DEG C;

(10), adhesive glass silk screen, adhesive glass silk screen on polypropylene ink.

Further, on described transfer membrane, be covered with anti-aging and uvioresistant ink.

Further, described anti-aging ink is the Nitrogen trifluoride that adds 3%-8% in ink, and described uvioresistant ink is the light stabilizer that adds 3%-8% in ink, and described adhesive is UV adhesive.

Further, the overlay film process described in step 5 is: laminating machine successively taking hardness as 35-50 Rockwell hardness and the pressure roller of 50-60 Rockwell hardness apply the pressure of 4-5 kilogram to transfer membrane, make transfer membrane on adhesive, stop 10-15 second.

Further, described in step 8 be cooled to manually air-cooled.

For the laminating machine of above-mentioned super large-scale glass transfering printing process, comprise several gripper shoes that frame, upper rack arrange, transportation system, overlay film system, dress film system, winder system, film carrier system and be located at the power distribution cabinet of frame inside,

Further, the initial end of described transportation system is positioned at frame front end, transportation system comprises the several identical material carrying roller being rotationally connected with frame, described material carrying roller arranges along interval on frame length direction, the upper edge of described several material carrying rollers is positioned on a horizontal plane, and this horizontal plane is parallel with frame upper surface; The material carrying roller that is positioned at transportation system initial end is connected with material driving motor;

Further, described overlay film system comprises two identical pressure bowls that are rotationally connected with frame, two pressure bowls are connected with same drum drive motor, two pressure bowls arrange along interval on frame length direction, between two pressure bowls, be provided with several material carrying rollers, the upper edge of described pressure bowl upper edge and material carrying roller is positioned on a horizontal plane, two pressure bowl tops respectively correspondence are provided with soft pressure roller and rigid pressure roller, the moving lever of described soft pressure roller and the equal connecting fluid air cylinder of rigid pressure roller;

Further, described dress film system, film carrier system and winder system are all positioned at transportation system top, comprise the film carrier system that is positioned at central rack and dress film system and the winder system that lays respectively at frame both ends;

Further, described dress film system is positioned at frame rear end, comprises around film rod, is rotationally connected around film rod and gripper shoe, also connects horizontal turbine adjusting device and magnetic powder brake on film rod;

Further, described film carrier system comprises the film carrier carrying roller group that is positioned at dress film system front, described film carrier carrying roller group comprises the upper film carrier carrying roller and two the lower film carrier carrying rollers that are rotationally connected with gripper shoe, the central axis of described upper film carrier carrying roller and two lower film carrier carrying rollers is parallel and be not positioned on a horizontal plane between two, and upper film carrier carrying roller both ends connect respectively up-down adjustment device and level(l)ing device; Described film carrier system also comprises the middle part film carrier carrying roller that is positioned at central rack, and middle part film carrier carrying roller and gripper shoe are rotationally connected.

Further, described winder system comprises the end winder carrying roller of frame front end, and the lower tangent plane of described end winder carrying roller and middle part film carrier carrying roller is positioned on same horizontal plane; Described winder system also comprises the tensioning winder holder rod that is positioned at winder carrying roller rear, end, and described tensioning winder holder rod is connected with tensioning winder driving motor, also connecting electronic tensioner of described tensioning winder holder rod;

Further, described frame rear end is also provided with travel switch, and described travel switch is crossing with material carrying roller upper edge.

Further, be describedly equipped with Position Scale around film rod two ends, the described Position Scale around film rod one end outside is provided with air valve, is provided with around film rod middle part the pore being in communication with the outside, and described air valve is communicated with pore.

Further, described level(l)ing device and up-down adjustment device include the screw rod through screwed hole, described screwed hole is positioned in gripper shoe, screw rod end part interval arranges two catch, slotted hole is stretched out in described upper film carrier carrying roller end, described slotted hole is positioned in gripper shoe, and the face at slotted hole place is vertical with the face at screwed hole place, and upper film carrier carrying roller is fixed between two catch; The screwed hole of level(l)ing device is arranged on gripper shoe side, and the setting of slotted hole horizontal direction is positioned at support plate upper surface; The screwed hole of up-down adjustment device is arranged at support plate upper surface, short transverse setting slotted hole be positioned at gripper shoe side.

Further, described material carrying roller, pressure bowl, soft pressure roller, rigid pressure roller, upper film carrier carrying roller, lower film carrier carrying roller, middle part film carrier carrying roller, end winder carrying roller and tensioning winder carrying roller are glue surface drum, pressure bowl is identical with the end face radius of rigid pressure roller and soft pressure roller, and is greater than the end face radius of material carrying roller.

Further, the spacing between described two adjacent material carrying rollers is 15-30 centimetre.

Beneficial effect of the present invention is: 1, shift between pattern and glass and spray anti-aging ink and uvioresistant ink, prevent that ultraviolet ray from entering transfer pattern through glass, thereby it is more lasting to make to shift pattern; 2, select the transfer membrane with anti-aging coating and uvioresistant coating, strengthened the anti-ultraviolet property that shifts pattern, further extended its service life; 3, successively transfer membrane and glass are exerted pressure by soft pressure roller and rigid pressure roller, the bubble between transfer membrane and glass is extruded, prevent the phenomenon that shifts pattern ghost image simultaneously; 4, after the complete one deck thing of every spraying, all send into baking section and toast, make itself and the better combination of glass, prevent lamination; 5, spray anti-aging ink on transfer membrane top, further extended the durability that shifts pattern; 6, the white inorganic salts ink of spraying makes glass and shifts pattern, has strengthened resistance to acids and bases and the scratch resistance of glass and transfer pattern; 7, the glass cross of bonding, the phenomenon that while having avoided glass breaking, people has been occurred to scratch occurs, and makes glass more easily be bonded in the position needing simultaneously; 8, the laminating machine compact conformation that this technique is used, coordinates technique of the present invention can make to shift pattern more clear, has reduced the breakage rate of glass in overlay film process simultaneously.

Brief description of the drawings

Fig. 1 is the flow chart of the transfering printing process of super large-scale glass in the embodiment of the present invention;

Fig. 2 is the structural representation of laminating machine in the embodiment of the present invention;

Fig. 3 is the structural representation around film rod in the embodiment of the present invention;

Fig. 4 is the structural representation of up-down adjustment device in the embodiment of the present invention;

Fig. 5 is the structural representation of level(l)ing device in the embodiment of the present invention.

Detailed description of the invention

The transfering printing process of super large-scale glass of the present invention, it is outdoor for glass is applicable to, at twice anti-aging ink of spraying on glass and uvioresistant ink, in the present invention for fear of device procedures, select the transfer membrane with anti-aging ink and uvioresistant ink; The temperature of selecting in this technical process can make transfer membrane on glass more firm, the simultaneously assurance of overlay film process, and the design of laminating machine can make transfer printing on glass more clear, be not prone to folding phenomenon.

Embodiment 1, the embodiment of the present invention 1 provides a kind of transfering printing process of super large-scale glass, and as shown in Figure 1, this technique comprises the following steps:

(1), clean, glass is cleaned with glass cleaning machine, and after cleaning, glass is dried, because the glass of selecting in this patent is super large-scale glass, be super large-scale glass cleaning machine for improving the cleaning machine that cleaning efficiency selects;

(2), spray anti-aging ink, glass surface sprays anti-aging ink, sends into the constant temperature baking 30 minutes at 160 DEG C of temperature of baking section; Described anti-aging ink is in ink, to add 3% Nitrogen trifluoride, thereby extends service life;

(3), spraying uvioresistant ink, on anti-aging ink, spray uvioresistant ink, send into baking section 100 times constant temperature bakings of temperature 20 minutes; Described uvioresistant ink is in ink, to add 3% light stabilizer, thereby prevents that ultraviolet ray from impacting shifting pattern through glass;

(4), adhesive for spraying, adhesive for spraying on uvioresistant ink, sends into the constant temperature baking 15 minutes at 100 DEG C of temperature of baking section, makes adhesive in leather hard, described adhesive is UV adhesive;

(5), overlay film, laminating machine is attached to transfer membrane on adhesive and stops 10 to 15 seconds; Described overlay film process is: laminating machine successively taking hardness as 45 Rockwell hardness and the pressure roller of 55 Rockwell hardness apply the pressure of 4-5 kilogram to transfer membrane, make transfer membrane on adhesive, stop 10-15 second, thereby make the film that is covered with more clear, and there is no ghost phenomena, on described transfer membrane, be covered with anti-aging and uvioresistant ink, strengthen the anti-ultraviolet property that shifts pattern, further extended its service life;

(6), stripping, transfer membrane is separated with glass with stripping machine; The transfer membrane using is provided with anti-aging ink and uvioresistant ink;

(7), spray anti-aging ink, on glass prints figuratum, spray anti-aging ink, send into baking section and toast 30 minutes at 160 DEG C of temperature; Thereby make pattern more durable;

(8), spray white inorganic salts ink, by below glass cools to 50 DEG C, in printed side, spray white inorganic salts ink, send into baking section and toast 20 minutes at 160 DEG C of temperature; The mode of glass cools is selected manually coolingly in this process, made pattern more clear, three-dimensional, true to nature by spraying white inorganic salts ink, improved aesthetics;

(9), spray coating polypropylene ink, spray coating polypropylene ink on white inorganic salts ink, sends into baking section and toasts 20 minutes at 160 DEG C of temperature; Make pattern there is resistance to acids and bases by spray coating polypropylene ink, also make its more damage resistant simultaneously;

(10), adhesive glass silk screen, adhesive glass silk screen on polypropylene ink, the glass cross of bonding makes glass more easily paste the place needing, and while simultaneously also making glass generation disrepair phenomenon, is difficult for people to damage.

In the method that embodiments of the invention provide, also can replace spraying by showering.

Embodiment 2, glass surface sprays anti-aging ink, sends into the constant temperature baking 30 minutes at 180 DEG C of temperature of baking section; Described anti-aging ink is in ink, to add 6% Nitrogen trifluoride, thereby extends service life; On anti-aging ink, spray uvioresistant ink, send into the constant temperature baking 20 minutes at 110 DEG C of temperature of baking section; Described uvioresistant ink is in ink, to add 6% light stabilizer; Adhesive for spraying, adhesive for spraying on uvioresistant ink, sends into the constant temperature baking 15 minutes at 110 DEG C of temperature of baking section, makes adhesive in leather hard, and described adhesive is UV adhesive; Print on figuratum and spray anti-aging ink at glass, send into baking section and toast 30 minutes at 180 DEG C of temperature; Thereby make pattern more durable; In printed side, spray white inorganic salts ink, send into baking section and toast 20 minutes at 180 DEG C of temperature; Spray coating polypropylene ink on white inorganic salts ink, sends into baking section and toasts 20 minutes at 180 DEG C of temperature, and other content of the present embodiment is with embodiment 1.

Embodiment 3, glass surface sprays anti-aging ink, sends into the constant temperature baking 30 minutes at 200 DEG C of temperature of baking section; Described anti-aging ink is in ink, to add 8% Nitrogen trifluoride, thereby extends service life; On anti-aging ink, spray uvioresistant ink, send into the constant temperature baking 20 minutes at 120 DEG C of temperature of baking section; Described uvioresistant ink is in ink, to add 8% light stabilizer; Adhesive for spraying on uvioresistant ink, sends into the constant temperature baking 15 minutes at 120 DEG C of temperature of baking section, makes adhesive in leather hard, and described adhesive is UV adhesive; Print on figuratum and spray anti-aging ink at glass, send into baking section and toast 30 minutes at 200 DEG C of temperature; Thereby make pattern more durable; In printed side, spray white inorganic salts ink, send into baking section and toast 20 minutes at 200 DEG C of temperature; Spray coating polypropylene ink on white inorganic salts ink, sends into baking section and toasts 20 minutes at 200 DEG C of temperature, and other content of the present embodiment is with embodiment 1.

The present invention also provides a kind of laminating machine, as shown in Figures 2 to 5, this laminating machine is for the overlay film process of the transfering printing process of above-mentioned super large-scale glass, comprise frame 1, the gripper shoe 11 being fixedly connected with frame, also comprise transportation system, overlay film system, dress, winder system and be located at the power distribution cabinet of frame inside, the normal operation that described power distribution cabinet is laminating machine provides electric energy.

Described transportation system is for transporting to glass in overlay film process the position of overlay film, its initial end is positioned at frame front end, comprise the several identical material carrying roller 21 being rotationally connected with frame 1, described material carrying roller 21 is glue surface drum, arrange along interval on frame length direction, adjacent material carrying roller, the spacing between 21 is 15-30 centimetre, the upper edge of described several material carrying rollers 21 is positioned on a horizontal plane, and this horizontal plane is parallel with frame 1 upper surface; The material carrying roller 2-1 that is positioned at transportation system initial end is connected with material driving motor 2-2, under the drive of material driving motor 22, material carrying roller 21 rotates, thereby glass is transported along transportation system, remaining material carrying roller 21 is driven, and described upper edge is and all tangent horizontal planes of several material carrying rollers 21.

Described overlay film system is for arriving on glass by the design transfer on transfer membrane, comprise two identical pressure bowls 34 that are rotationally connected with frame, described two pressure bowls 34 are connected with same drum drive motor 35, thereby make the rotation direction of two pressure bowls 34 identical, described two pressure bowls 34 arrange along interval on frame length direction, two 34 of pressure bowls are provided with four material carrying rollers 21, the upper edge of described pressure bowl 34 upper edges and material carrying roller 21 is positioned on a horizontal plane, two pressure bowl tops respectively correspondence are provided with soft pressure roller 32 and rigid pressure roller 33, the moving lever of described soft pressure roller 32 and rigid pressure roller 33 equal connecting fluid air cylinders 31, soft pressure roller 32 and rigid pressure roller 33 are under the drive of hydraulic cylinder 31, make transfer membrane be adjacent to the glass of below, described pressure bowl 34, soft pressure roller 32 and rigid pressure roller 33 are glue surface drum, soft pressure roller 32 is positioned at the front of rigid pressure roller 33, wherein the hardness of pressure bowl 34 is 80 Rockwell hardness, prevent that in the process of overlay film, glass is crushed.

Described dress, winder system are positioned at transportation system top, comprise the film carrier system that is positioned at frame 1 middle part and dress film system and the winder system that lays respectively at frame 1 both ends.

Described dress film system is positioned at frame 1 rear end, comprise around film rod 41, be rotationally connected around film rod 41 and frame 1, describedly connect magnetic powder brake around film rod 41, be provided with Position Scale 412 around film rod 41 two ends, can be according to the situation of transfer membrane according to Position Scale 412, it is being placed between two parties on film rod 41, outside around the Position Scale 412 of film rod one end is provided with air valve 413, air valve 413 connects with pore 414, pore 4-1-4 is in communication with the outside, can be to pore 414 places inflation by pressing lower air valve 413, when be full of transfer membrane on film rod 41 time, the gas that pore 414 places are filled can be propped up transfer membrane, thereby make transfer membrane at stretching on film rod 41, fixing, prevent transfer membrane sideslip in the process of work.

Described film carrier system comprises the film carrier carrying roller group that is positioned at dress film system rear portion, described film carrier carrying roller group is made up of the upper film carrier carrying roller 42 and two the lower film carrier carrying rollers 43 that are rotationally connected with frame, the central axis of described upper film carrier carrying roller 42 and two lower film carrier carrying rollers 43 is not positioned on a horizontal plane and is parallel between two, upper film carrier carrying roller 42 is positioned at the top of lower film carrier carrying roller 43, transfer membrane from around film rod 41 around on film carrier carrying roller 42, by upper film carrier carrying roller 42 around to two lower film carrier carrying rollers 43, thereby by transfer membrane tensioning, the both ends of described upper film carrier carrying roller 4-2 connect respectively up-down adjustment device and level(l)ing device, described level(l)ing device and up-down adjustment device lay respectively at two ends of film carrier carrying roller.

Described level(l)ing device and up-down adjustment device include the screw rod 51 through screwed hole 52, described screwed hole 52 is positioned in gripper shoe 11, screw rod 51 end part intervals arrange two catch 54, slotted hole 53 is stretched out in described upper film carrier carrying roller 42 ends, and be fixed between two catch 54, described slotted hole 53 is positioned in gripper shoe 11 vertical with screwed hole 52 place faces; The screwed hole 52 of level(l)ing device is positioned on gripper shoe 11 sides, and horizontally disposed slotted hole 53 is positioned on gripper shoe 11 end faces; The screwed hole 52 of up-down adjustment device is positioned at gripper shoe 11 upper surfaces, and the slotted hole 53 arranging in short transverse is positioned at gripper shoe 11 sides.

Regulate when height up and down at needs, regulate by up-down adjustment device, the position of the threaded rod 51 that placement is set by rotations in screwed hole 52, thus regulate the position of upper film carrier carrying roller 42 in the slotted hole 53 vertically arranging, thus regulate up and down highly.

Need to regulate horizontal level time, regulate by level(l)ing device, the threaded rod 51 that rotates horizontal positioned changes the position in screwed hole 52, thereby regulates the position of upper film carrier carrying roller 42 in horizontally disposed slotted hole 53, thereby regulates horizontal level.

Described film carrier system also comprises the middle part film carrier carrying roller 44 of being located at hydraulic cylinder 31 fronts, makes in film carrier process transfer membrane more reliable.

Described winder system comprises the end winder carrying roller 61 that is positioned at frame 1 front portion, and described end winder carrying roller 61 is positioned on same horizontal plane with the lower tangent plane of middle part film carrier carrying roller 44; Described winder system also comprises the tensioning winder holder rod 62 that is positioned at winder carrying roller 61 fronts, end, described tensioning winder holder rod 62 is connected with tensioning winder driving motor 64, described tensioning winder holder rod 62 is gone back connecting electronic tensioner 63, under the effect of tensioning winder driving motor 64, tensioning winder carrying roller 62 rotates, and coordinates electronic tensile device 63 that film is tightened up.

Also be provided with travel switch 7 in described frame 1 rear end, described travel switch 7 is crossing with material carrying roller 21 upper edges, transports the glass of coming by material carrying roller 21 and can touch travel switch 7.

Material carrying roller 21 described in the present embodiment, pressure bowl 34, soft pressure roller 32, rigid pressure roller 33, upper film carrier carrying roller 42, lower film carrier carrying roller 43, middle part film carrier carrying roller 44, end winder carrying roller 61 and tensioning winder carrying roller 62 are glue surface drum, thereby prevent that glass and transfer membrane are scratched, the end face radius of wherein said pressure bowl 34 is identical with the end face radius of rigid pressure roller 33 and soft pressure roller 32, and is greater than the end face radius of material carrying roller 21.

More clear for making to shift pattern in the present embodiment, glass is selected high-quality float glass.

The super large-scale glass transfering printing process that the present invention uses, can make transfer pattern on glass more clear, attractive in appearance, and on anti-aging ink and uvioresistant ink, transfer membrane, be also provided with anti-aging coating and thereby uvioresistant coating makes pattern more lasting owing to which is provided with, be applicable to outdoor decoration.

Laminating machine for super large-scale glass transfering printing process of the present invention, can reduce the breakage rate of glass in overlay film process, and avoids transfer pattern on glass to occur ghost phenomena.

Claims (10)

1. a transfering printing process for super large-scale glass, is characterized in that: described technical process is as follows:

(1), clean, glass is cleaned with glass cleaning machine, and after cleaning, glass is dried;

(2), spray anti-aging ink, glass surface sprays anti-aging ink, sends into baking section constant temperature baking 15-45 minute at temperature 160-200 DEG C;

(3), spraying uvioresistant ink, on anti-aging ink, spray uvioresistant ink, send into baking section constant temperature baking 10-30 minute at temperature 100-120 DEG C;

(4), adhesive for spraying, adhesive for spraying on uvioresistant ink, sends into baking section constant temperature baking 10-20 minute at temperature 100-120 DEG C, makes adhesive in leather hard;

(5), overlay film, laminating machine is attached to transfer membrane on adhesive and stops 10-15 second;

(6), stripping, stripping machine separates transfer membrane with glass;

(7), spray anti-aging ink, in printed side, spray anti-aging ink, send into baking section and toast 20-40 minute at temperature 160-200 DEG C;

(8), spray white inorganic salts ink, by below glass cools to 50 DEG C, in printed side, spray white inorganic salts ink, send into baking section and toast 15-25 minute at temperature 160-200 DEG C;

(9), spray coating polypropylene ink, spray coating polypropylene ink on white inorganic salts ink, sends into baking section and toast 15-25 minute at temperature 160-200 DEG C;

(10), adhesive glass silk screen, adhesive glass silk screen on polypropylene ink.

2. the transfering printing process of super large-scale glass as claimed in claim 1, is characterized in that: on described transfer membrane, be covered with anti-aging and uvioresistant ink.

3. the transfering printing process of super large-scale glass as claimed in claim 2, it is characterized in that: described anti-aging ink is the Nitrogen trifluoride that adds 3%-8% in ink, described uvioresistant ink is the light stabilizer that adds 3%-8% in ink, and described adhesive is UV adhesive.

4. the transfering printing process of super large-scale glass as claimed in claim 3, it is characterized in that: the overlay film process described in step 5 is: laminating machine successively taking hardness as 35-50 Rockwell hardness and the pressure roller of 50-60 Rockwell hardness apply the pressure of 4-5 kilogram to transfer membrane, make transfer membrane on adhesive, stop 10-15 second.

5. the transfering printing process of super large-scale glass as claimed in claim 4, is characterized in that: being cooled to described in step 8 is manually air-cooled.

6. for the laminating machine of super large-scale glass transfering printing process described in claim 1, comprise several gripper shoes that frame, upper rack arrange, transportation system, overlay film system, dress film system, winder system, film carrier system and be located at the power distribution cabinet of frame inside, is characterized in that:

The initial end of described transportation system is positioned at frame front end, transportation system comprises the several identical material carrying roller being rotationally connected with frame, described material carrying roller arranges along interval on frame length direction, the upper edge of described several material carrying rollers is positioned on a horizontal plane, and this horizontal plane is parallel with frame upper surface; The material carrying roller that is positioned at transportation system initial end is connected with material driving motor;

Described overlay film system comprises two identical pressure bowls that are rotationally connected with frame, two pressure bowls are connected with same drum drive motor, two pressure bowls arrange along interval on frame length direction, between two pressure bowls, be provided with several material carrying rollers, the upper edge of described pressure bowl upper edge and material carrying roller is positioned on a horizontal plane, two pressure bowl tops respectively correspondence are provided with soft pressure roller and rigid pressure roller, the moving lever of described soft pressure roller and the equal connecting fluid air cylinder of rigid pressure roller;

Described dress film system, film carrier system and winder system are all positioned at transportation system top, comprise the film carrier system that is positioned at central rack and dress film system and the winder system that lays respectively at frame both ends;

Described dress film system is positioned at frame rear end, comprises around film rod, is rotationally connected around film rod and gripper shoe, also connects horizontal turbine adjusting device and magnetic powder brake on film rod;

Described film carrier system comprises the film carrier carrying roller group that is positioned at dress film system front, described film carrier carrying roller group comprises the upper film carrier carrying roller and two the lower film carrier carrying rollers that are rotationally connected with gripper shoe, the central axis of described upper film carrier carrying roller and two lower film carrier carrying rollers is parallel and be not positioned on a horizontal plane between two, and upper film carrier carrying roller both ends connect respectively up-down adjustment device and level(l)ing device; Described film carrier system also comprises the middle part film carrier carrying roller that is positioned at central rack, and middle part film carrier carrying roller and gripper shoe are rotationally connected;

Described winder system comprises the end winder carrying roller of frame front end, and the lower tangent plane of described end winder carrying roller and middle part film carrier carrying roller is positioned on same horizontal plane; Described winder system also comprises the tensioning winder holder rod that is positioned at winder carrying roller rear, end, and described tensioning winder holder rod is connected with tensioning winder driving motor, also connecting electronic tensioner of described tensioning winder holder rod;

Described frame rear end is also provided with travel switch, and described travel switch is crossing with material carrying roller upper edge.

7. the laminating machine for super large-scale glass transfering printing process as claimed in claim 6, it is characterized in that: be describedly equipped with Position Scale around film rod two ends, the described Position Scale around film rod one end outside is provided with air valve, be provided with around film rod middle part the pore being in communication with the outside, described air valve is communicated with pore.

8. the laminating machine for super large-scale glass transfering printing process as claimed in claim 7, it is characterized in that: described level(l)ing device and up-down adjustment device include the screw rod through screwed hole, described screwed hole is positioned in gripper shoe, screw rod end part interval arranges two catch, slotted hole is stretched out in described upper film carrier carrying roller end, described slotted hole is positioned in gripper shoe, and the face at slotted hole place is vertical with the face at screwed hole place, and upper film carrier carrying roller is fixed between two catch; The screwed hole of level(l)ing device is arranged on gripper shoe side, and the setting of slotted hole horizontal direction is positioned at support plate upper surface; The screwed hole of up-down adjustment device is arranged at support plate upper surface, short transverse setting slotted hole be positioned at gripper shoe side.

9. the laminating machine for super large-scale glass transfering printing process as claimed in claim 8, it is characterized in that: described material carrying roller, pressure bowl, soft pressure roller, rigid pressure roller, upper film carrier carrying roller, lower film carrier carrying roller, middle part film carrier carrying roller, end winder carrying roller and tensioning winder carrying roller are glue surface drum, pressure bowl is identical with the end face radius of rigid pressure roller and soft pressure roller, and is greater than the end face radius of material carrying roller.

10. the laminating machine for super large-scale glass transfering printing process as claimed in claim 9, is characterized in that: the spacing between described two adjacent material carrying rollers is 15-30 centimetre.