CN208156412U - A kind of UV nano impression full-automatic assembly line equipment - Google Patents

Abstract

The utility model discloses a kind of UV nano impression full-automatic assembly line equipment, it from left to right successively include nanometer coating system, it is automatic to know start-stop identifying system, the automatic impression system of nanometer, UV photocuring system, automatic film covering cuts membranous system and automatic material receiving system, the nanometer coating system, it is automatic to know start-stop identifying system, the automatic impression system of nanometer, UV photocuring system, automatic film covering cuts membranous system and automatic material receiving system and is equipped with fixed rotating shaft between same level setting and adjacent two systems, it replaces traditional manual operations by full automatic process equipment, this spline structure is simply easy for installation, reduce a large amount of labour, whether the weight that can also detect stock simultaneously is up to specification, consequently facilitating rejecting underproof stock, the qualification rate with product is improved work efficiency in turn.

Description

A kind of UV nano impression full-automatic assembly line equipment

Technical field

The utility model relates to technical field of nano-processing, automatically flow more specifically to a kind of UV nano impression Waterline equipment.

Background technique

Nanometer embossing is an important technology in micro-nano device making technics, nanometer embossing earliest by StephenYChou teaches and takes the lead in proposing in nineteen ninety-five, this is a kind of completely new pattern transfer skill different from conventional lithographic techniques Art.The definition of nanometer embossing is：Perhaps irradiated without using light make the photosensitive molding of photoetching but directly in silicon substrate or Constructing nanometer-scale pattern nanometer embossing using the mechanism of physics on other substrates is in micro-nano device making technics An important technology, nanometer embossing taught by StephenYChou in nineteen ninety-five take the lead in proposing earliest, this be it is a kind of not It is same as the completely new pattern transfer technology of conventional lithographic techniques.The definition of nanometer embossing is：Make without using light or irradiation The photosensitive molding of photoetching, but nanometer-scale pattern is constructed using the mechanism of physics directly on silicon substrate or other substrates.

When nano impression makes at present, tablet is mainly carried by the way of artificial, large labor intensity, working efficiency is low, It is easy to influence later period coining effect, meanwhile, the difficult point of nanometer embossing is to provide nanoscale pressuring flat device, and most reasonable Driving method and operability can only carry out a kind of form currently, the generally existing pressure of traditional nano marking press is unevenly distributed Solidified forming, the shortcomings that bad adaptability, at the same the product that it can not be manufactured in nanoimprinting process it is whether qualified into Row detection.

Utility model content

The problem to be solved by the utility model is to provide a kind of UV nano impression full-automatic assembly line equipment, by complete Automatic process equipment replaces traditional manual operations, this spline structure is simply easy for installation, reduces a large amount of labour, together When can also detect stock weight it is whether up to specification, consequently facilitating rejecting underproof stock, and then improve work The qualification rate of efficiency and product.

In order to achieve the above objectives, the utility model, which solves technical solution used by above-mentioned technical problem, is：A kind of UV receives Rice coining full-automatic assembly line equipment, successively include from left to right nanometer coating system, it is automatic know start-stop identifying system, nanometer from Dynamic impression system, UV photocuring system, automatic film covering cut membranous system and automatic material receiving system, the nanometer coating system, automatic Knowledge start-stop identifying system, the automatic impression system of nanometer, UV photocuring system, automatic film covering cuts membranous system and automatic material receiving system is in Fixed rotating shaft is equipped between same level setting and adjacent two systems.

Further, the nanometer coating system includes gluing mounting base, is located at the gluing mounting base and is equipped with painting mucilage binding The gluing conveyer belt set and be arranged in gluing mounting base, the surface of gluing conveyer belt is arranged in the glue stations, described Glue stations includes mounting rack, and glue storing containers, spin coating iron rod, spin coating rubber roller and transmitting are provided on the mounting rack Rubber roller, the spin coating iron rod are located between transmitting rubber roller and spin coating rubber roller.

Further, the automatic knowledge start-stop identifying system includes start-stop identification mounting base, is located at start-stop identification installation Seat is equipped with start-stop and identifies conveyer belt, and the lower section of the start-stop identification conveyer belt is equipped with start-stop and identifies weight of object inductor.

Further, the automatic impression system of the nanometer includes coining mounting base, is located at the coining mounting base and is equipped with pressure Conveyer belt, pressing roll mechanism and cure lamp are printed, the imprinting conveyor is located above coining mounting base, the pressing roll mechanism and solidification The surface of imprinting conveyor is arranged in lamp, and the cure lamp is located at the side of pressing roll mechanism.

Further, the UV photocuring system includes UV photocuring mounting base, is set in the UV photocuring mounting base There are UV photocuring conveyer belt and cure lamp component, the cure lamp component includes fixed bracket and UV photofixation lamp, the UV light Fixed light setting is located at the surface of UV photocuring conveyer belt on fixed bracket.

Further, it includes overlay film mounting base that the automatic film covering, which cuts membranous system, is equipped with and covers positioned at the overlay film mounting base Film conveyer belt, film covering device, film cutting apparatus and press-roller device, the overlay film conveyer belt is arranged above overlay film mounting base, described Film cutting apparatus and press-roller device are arranged above overlay film conveyer belt, and the film covering device is arranged in overlay film mounting base, described to cover Film device includes the first film-covering mechanism, the second film-covering mechanism and third film-covering mechanism, first film-covering mechanism and the second overlay film Mechanism is arranged above overlay film conveyer belt, and the third film-covering mechanism is arranged in overlay film mounting base and is located under overlay film conveyer belt Side, first film-covering mechanism include the first overlay film rubber roller, the first guide roller and the first protective film, the second film-covering mechanism packet Include the second overlay film rubber roller, the second guide roller and the second protective film, the third film-covering mechanism includes that third overlay film rubber roller, third are led To roller and third protective film.

Further, the automatic material receiving system includes rewinding mounting base, is located at the rewinding mounting base and is equipped with object weight Amount sensing device and weight induction apparatus for automatically lifting, the weight of object sensing device and weight induction apparatus for automatically lifting are set It sets in rewinding mounting base upper end, and the weight induction apparatus for automatically lifting is located at the lower section of weight of object sensing device.

It further, further include fibre optical sensor, the fibre optical sensor is separately positioned on gluing mounting base, start-stop identification peace It fills in seat, UV photocuring mounting base, overlay film mounting base and rewinding mounting base.

Further, the glue storing containers are equipped with glue flow controller, and the glue flow controller is located at glue The outlet end of water storing containers.

Further, the pressing roll mechanism includes pressure regulator and rubber roller, and the rubber roller is arranged below pressure regulator, The cure lamp is arranged in pressure regulator side.

Gluing conveyer belt, start-stop identification conveyer belt, imprinting conveyor, UV photocuring conveyer belt and overlay film transmission among the above Band is weight of object induction conveyer belt.

Compared with prior art, the technical solution of the utility model has the following advantages that：

1. a kind of UV nano impression full-automatic assembly line equipment provided by the utility model, passes through full automatic processing Equipment replaces traditional manual operations, this spline structure is simply easy for installation, reduce a large amount of labour, while can also detect Whether the weight of stock is up to specification, consequently facilitating reject underproof stock, and then improves work efficiency and product Qualification rate.

2. glue effectively can be applied to stock by the setting of spin coating iron rod, spin coating rubber roller and transmitting rubber roller On, it is convenient for the operation of subsequent handling in this way, and then improve the qualification rate of product.

3. passing through the setting of body weight inductor, weight detecting can be carried out to the stock after the completion of gluing, to come Determine whether stock is qualified, and then to improve the qualification rate of product and working efficiency.

4. the setting of imprinting conveyor, pressing roll mechanism and cure lamp, stock is conveyed by conveyer belt, pressing roll mechanism pair Stock is imprinted, and carries out primary solidification to its stock finally by cure lamp, in this way raising working efficiency, while also subtracting Lack a large amount of manpower, realizes automatic nano impression.

The setting of 5.UV photocuring conveyer belt and cure lamp component can be such that stock carries out repeatedly and accurately solidify, To improve work efficiency.

6. overlay film conveyer belt, film covering device, film cutting apparatus and press-roller device are arranged in same installation equipment, it is real in this way Show overlay film and cut both films function and be integrated, to improve work efficiency, reduces production cost.

7. pass through the mutual cooperation of weight of object sensing device and Fibre Optical Sensor group, it can be in working condition and halted state Freely switched, while the final weight of stock can be detected, to promote the qualification rate of product.

8. in gluing mounting base, start-stop identification mounting base, UV photocuring mounting base, overlay film mounting base and rewinding mounting base Equipped with fibre optical sensor, it is convenient for making accurately location determination to the specific location of stock in this way.

9. glue storing containers are equipped with glue flow controller, it is sprinkled upon on transmitting rubber roller convenient for glue is quantitative in this way, And then be uniformly applied on spin coating iron rod and spin coating rubber roller convenient for the glue on transmitting rubber roller, to enable glue on the substrate Uniform gluing.

Detailed description of the invention

Fig. 1 is a kind of overall structure signal of UV nano impression full-automatic assembly line equipment of the utility model embodiment Figure；

Fig. 2 is a kind of nanometer coating system knot of UV nano impression full-automatic assembly line equipment of the utility model embodiment Structure schematic diagram；

Fig. 3 is a kind of automatic knowledge start-stop identification of UV nano impression full-automatic assembly line equipment of the utility model embodiment System structure diagram；

Fig. 4 is imprinted automatically for a kind of nanometer of UV nano impression full-automatic assembly line equipment of the utility model embodiment System structural schematic diagram；

Fig. 5 is a kind of UV photocuring system of UV nano impression full-automatic assembly line equipment of the utility model embodiment Structural schematic diagram；

Fig. 6 is that a kind of automatic film covering of receiving of UV nano impression full-automatic assembly line equipment of the utility model embodiment cuts film System system structural schematic diagram；

Fig. 7 is a kind of automatic material receiving system knot of UV nano impression full-automatic assembly line equipment of the utility model embodiment Structure schematic diagram；

In figure：Nanometer coating system 1, automatic knowledge start-stop identifying system 2, the automatic impression system 3 of nanometer, UV photocuring system 4, automatic film covering cut membranous system 5, automatic material receiving system 6, gluing mounting base 7, glue stations 8, gluing conveyer belt 9, mounting rack 10, Glue storing containers 11, spin coating iron rod 12, spin coating rubber roller 13, transmitting rubber roller 14, start-stop identification mounting base 15, start-stop identification pass Send band 16, start-stop identification weight of object inductor 17, coining mounting base 18, imprinting conveyor 19, pressing roll mechanism 20, cure lamp 21, UV photocuring mounting base 22, UV photocuring conveyer belt 23, cure lamp component 24, fixed bracket 25, UV photofixation lamp 26, cover Film mounting base 27, overlay film conveyer belt 28, film covering device 29, film cutting apparatus 30, press-roller device 31, weight of object sensing device 32, Weight induction apparatus for automatically lifting 33, fibre optical sensor 34, glue flow controller 35, fixed rotating shaft 36, pressure regulator 37, Rubber roller 38, the first film-covering mechanism 39, the second film-covering mechanism 40, third film-covering mechanism 41, the first overlay film rubber roller 42, the first guide roller 43, the first protective film 44, the second overlay film rubber roller 45, the second guide roller 46, the second protective film 47, third overlay film rubber roller 48, third Guide roller 49, third protective film 50, rewinding mounting base 51.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below Embodiment is not intended to limit the scope of the present invention for illustrating the utility model.

Embodiment

As shown in figs. 1-7, a kind of UV nano impression full-automatic assembly line equipment provided by the present embodiment, from left to right according to It is secondary include nanometer coating system 1, automatic know start-stop identifying system 2, the automatic impression system 3 of nanometer, UV photocuring system 4, automatic Overlay film cuts membranous system 5 and automatic material receiving system 6, and the nanometer coating system 1 automatic knows start-stop identifying system 2, nanometer from dynamic pressure Print system 3, UV photocuring system 4, automatic film covering cut membranous system 5 and automatic material receiving system 6 in same level setting and adjacent Two systems between be equipped with fixed rotating shaft 36.

The nanometer coating system 1 includes gluing mounting base 7, is located at the gluing mounting base 7 and is equipped with glue stations 8 With the gluing conveyer belt 9 being arranged in gluing mounting base 7, the surface of gluing conveyer belt 9, institute is arranged in the glue stations 8 Stating glue stations 8 includes mounting rack 10, and glue storing containers 11, spin coating iron rod 12, even are provided on the mounting rack 10 Glue rubber roller 13 and transmitting rubber roller 14, the spin coating iron rod 12 are located between transmitting rubber roller 14 and spin coating rubber roller 13；

The automatic knowledge start-stop identifying system 2 includes that start-stop identifies mounting base 15, is located at the start-stop and identifies mounting base 15 It is equipped with start-stop and identifies conveyer belt 16, the lower section of the start-stop identification conveyer belt 16 is equipped with start-stop and identifies weight of object inductor 17；

The automatic impression system 3 of nanometer includes coining mounting base 18, is located at the coining mounting base 18 and is equipped with coining Conveyer belt 19, pressing roll mechanism 20 and cure lamp 21, the imprinting conveyor 19 are located at 18 top of coining mounting base, the roller machine The surface of imprinting conveyor 19 is arranged in structure 20 and cure lamp 21, and the cure lamp 21 is located at the side of pressing roll mechanism 20；

The UV photocuring system 4 includes UV photocuring mounting base 22, is equipped with positioned at the UV photocuring mounting base 22 UV photocuring conveyer belt 23 and cure lamp component 24, the cure lamp component 24 include fixing bracket 25 and UV photofixation lamp 26, The setting of UV photofixation lamp 26 is located at the surface of UV photocuring conveyer belt 23 on fixed bracket 25；

It includes overlay film mounting base 27 that the automatic film covering, which cuts membranous system 5, is located at the overlay film mounting base 27 and is equipped with overlay film Conveyer belt 28, film covering device 29, film cutting apparatus 30 and press-roller device 31, the overlay film conveyer belt 28 are arranged in overlay film mounting base 27 Top, the film cutting apparatus 30 and press-roller device 31 are arranged above overlay film conveyer belt 28, and the setting of film covering device 29 is being covered The film covering device 29 includes the first film-covering mechanism 39, the second film-covering mechanism 40 and third film-covering mechanism 41 in film mounting base 27, First film-covering mechanism 39 and the second film-covering mechanism 40 are arranged above overlay film conveyer belt 28, and the third film-covering mechanism 41 is set It sets in overlay film mounting base 27 and is located at below overlay film conveyer belt 28, first film-covering mechanism 39 includes the first overlay film rubber roller 42, the first guide roller 43 and the first protective film 44, second film-covering mechanism 40 include the second overlay film rubber roller 45, the second guide roller 46 and second protective film 47, the third film-covering mechanism 41 include third overlay film rubber roller 48, third guide roller 49 and third protection Film 50；

The automatic material receiving system 6 includes rewinding mounting base 51, is located at the rewinding mounting base 51 and is equipped with weight of object Sensing device 32 and weight induction apparatus for automatically lifting 33, the weight of object sensing device 32 and weight induction automatic lifting dress 33 settings are set in 51 upper end of rewinding mounting base, and the weight induction apparatus for automatically lifting 33 is located at weight of object sensing device 32 lower section.

It further include fibre optical sensor 34, the fibre optical sensor 34 is separately positioned on gluing mounting base 7, start-stop identification installation In seat 15, UV photocuring mounting base 22, overlay film mounting base 27 and rewinding mounting base 51.

The glue storing containers 11 are equipped with glue flow controller 35, and the glue flow controller 35 is located at glue The outlet end of storing containers 11.

The pressing roll mechanism 20 includes pressure regulator 37 and rubber roller 38, and the rubber roller 38 is arranged under pressure regulator 37 Side, the cure lamp 21 are arranged in 37 side of pressure regulator.

A kind of UV nano impression full-automatic assembly line equipment provided by the utility model provided by the present embodiment is led to Full automatic process equipment is crossed to replace traditional manual operations, this spline structure is simply easy for installation, reduces a large amount of labour Power, while whether the weight that can also detect stock is up to specification, consequently facilitating rejecting underproof stock, and then improves The qualification rate of working efficiency and product, can be effective by the setting of spin coating iron rod 12, spin coating rubber roller 13 and transmitting rubber roller 14 Glue is smeared on the substrate, is convenient for the operation of subsequent handling in this way, and then improves the qualification rate of product, passes through body weight The setting of inductor can carry out weight detecting to the stock after the completion of gluing, thus to determine whether stock qualified, into And to improve the qualification rate of product and working efficiency, the setting of imprinting conveyor 19, pressing roll mechanism 20 and cure lamp 21, printing Object is conveyed by conveyer belt, and pressing roll mechanism 20 imprints stock, is carried out just finally by cure lamp 21 to its stock Step solidification, in this way raising working efficiency, while a large amount of manpower is decreased, realize automatic nano impression, UV photocuring The setting of conveyer belt 23 and cure lamp component 24 can be such that stock carries out repeatedly and accurately solidify, to improve work Overlay film conveyer belt 28, film covering device 29, film cutting apparatus 30 and press-roller device 31 are arranged in same installation equipment efficiency, this Sample realizes overlay film and cuts both films function and is integrated, to improve work efficiency, reduces production cost, passes through object The mutual cooperation of weight induction device 32 and Fibre Optical Sensor group can freely be switched in working condition and halted state, The final weight of stock can be detected simultaneously, to promote the qualification rate of product, identifies mounting base in gluing mounting base 7, start-stop 15, UV photocuring mounting base 22, overlay film mounting base 27 and rewinding mounting base 51 are equipped with fibre optical sensor 34, are convenient in this way to holding The specific location of print object makes accurately location determination, and glue storing containers 11 are equipped with glue flow controller 35, so just It is transmitted on rubber roller 14 in quantitative being sprinkled upon of glue, and then is uniformly applied to spin coating iron rod 12 convenient for the glue on transmitting rubber roller 14 On spin coating rubber roller 13, to enable glue uniform gluing on the substrate.

When work, stock is conveyed by gluing conveyer belt 9, is located at below gluing conveyer belt 9 and is equipped with weight of object Inductor, when the weight of stock is against regulation scope, conveyer belt stops transmission, and staff is waited to take out unqualified printing After object, conveyer belt is run again, and when the weight of stock meets specified value, gluing conveyer belt 9 is continued to move along, and is located at and is applied When the fibre optical sensor 34 of 7 front end of glue mounting base senses stock, glue stations 8 is opened, and opens glue storing containers 11 Opening is respectively coated on glue on spin coating iron rod 12 and spin coating rubber roller 13 by transmitting rubber roller 14, and subsequent stock enters glue Gluing processing is carried out when the position of roller 38, when completion is then transported in start-stop identification mounting base 15, the stock that gluing is completed Conveyer belt 16 is identified by start-stop, and in transmission, stock meeting approach start-stop identifies weight of object inductor 17, passes through start-stop Weight of object inductor 17 is identified to detect whether qualification, stock can be sent in nano impression mounting base 18 if meeting, Its nanometer of texture mold is covered on the substrate, is then incuded conveyer belt by object and is transmitted, then passes through optical fiber Sensor 34 is used to incude a nanometer position for texture mold and stock, 20 pairs of nanometer texture moulds of pressing roll mechanism in Embosser Tool and stock are imprinted, finally by the stock imprinted by the LED ultraviolet curing lamp 21 of 20 side of pressing roll mechanism into Row primary solidification is transported it into after the completion in UV photocuring mounting base 22, and UV photofixation lamp 26, which is opened, transmits UV photocuring Stock with the primary solidification on 23 carries out secondary curing, is transported in overlay film mounting base 27, holds after the completion of solidification Print object is transmitted by overlay film conveyer belt 28, and the first protective film 44 and the second protective film 47 pass through the first guide roller 43 and second Overlay film rubber roller 45 is oriented to, and then carries out upper surface to its stock by the first overlay film rubber roller 42 and the second guide roller 46 Overlay film, third protective film 50 is oriented to by third overlay film rubber roller 48, then by third guide roller 49 to its stock The overlay film of lower end surface is carried out, fibre optical sensor 34 then detects the position of stock, after the completion of stock overlay film, Induction cutter on film cutting apparatus 30 cuts the film of the stock rear end, then by pressure roller rubber roller 38 to stock On film imprinted, then the stock that cutting is completed is delivered in rewinding mounting base 51, and in rewinding mounting base 51 Fibre optical sensor 34 when detecting stock, weight induction apparatus for automatically lifting 33 is experienced with weight of object sensing device 32 It is moved down to the position of stock, when can't detect stock, weight induction apparatus for automatically lifting 33 is multiple therewith Position.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without deviating from the technical principle of the utility model, several improvements and modifications can also be made, these change It also should be regarded as the protection scope of the utility model into retouching.

Claims (10)

1. a kind of UV nano impression full-automatic assembly line equipment, which is characterized in that from left to right successively include nanometer coating system (1), knowledge start-stop identifying system (2), the automatic impression system of nanometer (3), UV photocuring system (4), automatic film covering cut membrane system automatically System (5) and automatic material receiving system (6), the nanometer coating system (1), automatic knowledge start-stop identifying system (2), nanometer imprint automatically System (3), UV photocuring system (4), automatic film covering are cut membranous system (5) and automatic material receiving system (6) and are arranged in same level And fixed rotating shaft (36) are equipped between adjacent two systems.

2. a kind of UV nano impression full-automatic assembly line equipment according to claim 1, which is characterized in that the nanometer applies Colloid system (1) includes gluing mounting base (7), is located at the gluing mounting base (7) and is equipped with glue stations (8) and is arranged in gluing Gluing conveyer belt (9) in mounting base (7), the glue stations (8) are arranged in the surface of gluing conveyer belt (9), the painting Adhesive dispenser (8) includes mounting rack (10), is located on the mounting rack (10) and is provided with glue storing containers (11), spin coating iron rod (12), spin coating rubber roller (13) and transmitting rubber roller (14), the spin coating iron rod (12) are located at transmitting rubber roller (14) and spin coating rubber roller (13) between.

3. a kind of UV nano impression full-automatic assembly line equipment according to claim 1, which is characterized in that the automatic knowledge Start-stop identifying system (2) includes start-stop identification mounting base (15), is located at start-stop identification mounting base (15) and knows equipped with start-stop The lower section of other conveyer belt (16), start-stop identification conveyer belt (16) is equipped with start-stop identification weight of object inductor (17).

4. a kind of UV nano impression full-automatic assembly line equipment according to claim 1, which is characterized in that the nanometer is certainly Dynamic impression system (3) include coining mounting base (18), are located at the coining mounting base (18) and are equipped with imprinting conveyor (19), pressure Roller mechanism (20) and cure lamp (21), the imprinting conveyor (19) are located above coining mounting base (18), the pressing roll mechanism (20) it is arranged with cure lamp (21) in the surface of imprinting conveyor (19), and the cure lamp (21) is located at pressing roll mechanism (20) Side.

5. a kind of UV nano impression full-automatic assembly line equipment according to claim 1, which is characterized in that the UV light is solid Change system (4) includes UV photocuring mounting base (22), is located at the UV photocuring mounting base (22) and transmits equipped with UV photocuring Band (23) and cure lamp component (24), the cure lamp component (24) include fixed bracket (25) and UV photofixation lamp (26), institute UV photofixation lamp (26) setting is stated on fixed bracket (25), and is located at the surface of UV photocuring conveyer belt (23).

6. a kind of UV nano impression full-automatic assembly line equipment according to claim 1, which is characterized in that described to cover automatically It includes overlay film mounting base (27) that film, which cuts membranous system (5), is located at the overlay film mounting base (27) and is equipped with overlay film conveyer belt (28), covers Film device (29), film cutting apparatus (30) and press-roller device (31), the overlay film conveyer belt (28) are arranged in overlay film mounting base (27) Top, the film cutting apparatus (30) and press-roller device (31) setting are above overlay film conveyer belt (28), the film covering device (29) It is arranged on overlay film mounting base (27), the film covering device (29) includes the first film-covering mechanism (39), the second film-covering mechanism (40) With third film-covering mechanism (41), first film-covering mechanism (39) and the second film-covering mechanism (40) are arranged in overlay film conveyer belt (28) Top, the third film-covering mechanism (41) is arranged on overlay film mounting base (27) and is located at below overlay film conveyer belt (28), described First film-covering mechanism (39) include the first overlay film rubber roller (42), the first guide roller (43) and the first protective film (44), described second Film-covering mechanism (40) includes the second overlay film rubber roller (45), the second guide roller (46) and the second protective film (47), the third overlay film Mechanism (41) includes third overlay film rubber roller (48), third guide roller (49) and third protective film (50).

7. a kind of UV nano impression full-automatic assembly line equipment according to claim 1, which is characterized in that the automatic receipts Material system (6) includes rewinding mounting base (51), is located at the rewinding mounting base (51) and is equipped with weight of object sensing device (32) With weight induction apparatus for automatically lifting (33), the weight of object sensing device (32) and weight induction apparatus for automatically lifting (33) It is arranged in rewinding mounting base (51) upper end, and the weight induction apparatus for automatically lifting (33) is located at weight of object sensing device (32) lower section.

8. a kind of UV nano impression full-automatic assembly line equipment according to claim 2, which is characterized in that further include optical fiber Sensor (34), the fibre optical sensor (34) are separately positioned on gluing mounting base (7), start-stop identification mounting base (15), UV light In solidification mounting base (22), overlay film mounting base (27) and rewinding mounting base (51).

9. a kind of UV nano impression full-automatic assembly line equipment according to claim 2, which is characterized in that the glue is deposited Container (11) are put equipped with glue flow controller (35), the glue flow controller (35) is located at glue storing containers (11) Outlet end.

10. a kind of UV nano impression full-automatic assembly line equipment according to claim 4, which is characterized in that the pressure roller Mechanism (20) includes pressure regulator (37) and rubber roller (38), and rubber roller (38) setting is below pressure regulator (37), institute Cure lamp (21) are stated to be arranged in pressure regulator (37) side.