CN205044040U - Volume to volume dip plating membrane system - Google Patents

Abstract

The utility model belongs to flexible thin film substrate plates film function ization field, concretely relates to volume to volume dip plating membrane system who is used for flexible thin film substrate. Volume to volume dip plating membrane system including being used for of setting gradually place flexible substrate spool the platform unreels, be used for placing coating film liquid flooding coating film groove, be used for collecting the rolling platform of the flexible substrate behind the coating film, unreel and still be provided with volume to volume transmission between platform and the rolling platform, volume to volume transmission set up in the top in flooding coating film groove, unreel the platform with be equipped with between the volume to volume transmission and be used for drawing flexible substrate and the first robot to receiving volume to volume transmission, volume to volume transmission with be equipped with between the rolling platform and be used for drawing flexible substrate and the second robot to receiving the rolling platform from volume to volume transmission. Volume to volume dip plating membrane system adopt the volume to volume technique to combine dip plating membrane technology, can realize that the solution of flexible substrate material plates film function.

Description

A kind of volume to volume immersion Plating membranous system

Technical field

The utility model belongs to fexible film substrate plated film functionalization field, is specifically related to a kind of volume to volume immersion Plating membranous system for fexible film substrate.

Background technology

Dipping plated film refers to and a certain specific substrate is impregnated in specific solution, thus on substrate, form the preparation method possessing the film of certain function.The domestic relatively ripe preparation method in this technical field is the mode adopting Best-Effort request plated film at present.

Wherein Best-Effort request plated film also claims vertically to lift plated film; adopt the mode of vertical lift; by controlling pull rate, lift time, coating times and the simple optimizing of plated film spacing parameter thus the effect of realization formation functional membrane; this takes maximum modes at present; which principle is simple, but which cannot solve the problems such as large-area homogeneity question, product yield, beat, scale stability, continous way.

The level dipping plated film mode just proposed by Yi Hui energy company in the recent period possesses obviously advantage, can solve large-area homogeneity question, realize the running of In-line industrialization fast.Meanwhile, can the significantly yield of improving product and production efficiency, to reduce production cost.

But no matter be vertically lift plated film or level dipping plated film, all have the following disadvantages:

(1) specific substrate adopted in both technology all needs for hard substrate, such as glass etc., the preparation of flexible substrate (Flexiblesubstrates) cannot be suitable for, such as at the bottom of stainless steel lining, polyimide substrate (PI), polyethylene terephthalate (PET), polyether-ether-ketone (PEEK), ethylene-tetrafluoroethylene substrate (ETFE), ultra-thin flexible glass substrate, bacteria cellulose nano-fiber film etc.;

(2) what all adopt in both technology is the mode of fixture or sucker, the thickness of the hard substrates such as glass is general all in millimeter (mm) rank, therefore by realizing with upper type capturing, but the thickness of flexible substrate material is micron (um) rank, fixture or sucker all cannot realize capturing ultra-thin substrate, and the tension force that also cannot realize flexible substrate controls;

(3) solution has certain tension force effect to substrate, if the inadequate hard of substrate, local will be caused to occur larger flexibility, thus cannot realize the preparation of uniform functional membrane.

In recent years, along with the development of flexible thin-film solar cell, flexible touch screen industry, the outdoor moving energy, flexibility function film seems more and more important.As flexible thin-film solar cell can be applicable to knapsack, solar tent, solar telephone, solar sailor, even on solar powered aircraft.The another one key areas of flexible thin-film solar cell is exactly BIPV (BIPV), and it can directly be integrated in existing building structure, functions such as realizing generating, decorate, be heat insulation.

In the structure of flexible solar battery, flexible substrate nesa coating is one of its very important core component, and follow-up all batteries and encapsulation complete all on this basis.Huge market potentiality are all had based on these functional membranes, therefore most of company all adopts the magnetron sputtering mode of volume to volume to the preparation with physics mode practical function film, volume to volume technology is such as adopted to prepare ITOfilm, this technology in the world or comparative maturity, but the deposition of physics mode only can realize the kind preparation of part functional membrane to a certain extent, such as ITOfilm, namely only can realize the demand of specific area.Need evengranular in the functional component in solution, solution to be plated in flexible substrate for those, this technology just cannot realize.The mode of the spraying that liquid crystal display industry adopts can realize the uniform coated of particle, but its dispersiveness is too large, gap between particle and particle reaches tens microns (um), or even millimeter (mm) rank, for needing the functional membrane preparing certain solid matter distribution of particles in the solution, spraying technology just cannot realize, and therefore the application of its technology also exists limitation.

More crucial, existing volume to volume technology, no matter be in serigraphy, or at electroplating industry, or the field such as to prepare at the OLED of development, its partial devices all exists to be needed by upper, bottom roller pushes down substrate, to realize controlling the tension force of flexible base board, but often in the preparation to specific function film, the type selecting of backing material all exists coated surface and non-coated surface, in order to improve the adhesive force of functional membrane and coated surface, technique is do not allow coated surface to have any contact, otherwise third-party defect can be introduced, product yield is directly caused to decline.

Utility model content

Based on the shortcomings and deficiencies of above-mentioned prior art, for realizing the functional membrane in solution or the particle in solution to realize solid matter distribution, attachment that gap is adjustable on flexible substrates, the purpose of this utility model is to provide a kind of volume to volume immersion Plating membranous system that can be used for flexible substrate, utilizes this system can the preparation of practical function film.

The purpose of this utility model is achieved through the following technical solutions:

A kind of volume to volume immersion Plating membranous system, comprise set gradually for place flexible substrate spool unreel platform, for place coating liquid dipping plated film groove, for collecting the rolling table of the flexible substrate after plated film, unreeling between platform and rolling table and being also provided with volume to volume transmission device; Described volume to volume transmission device is arranged at the top of described dipping plated film groove; Described unreeling to be provided with for drawing flexible substrate and being docked to the first robot of volume to volume transmission device between platform and described volume to volume transmission device; Be provided with between described volume to volume transmission device and described rolling table for drawing flexible substrate from volume to volume transmission device and being docked to the second robot of rolling table.

Concrete, described volume to volume transmission device comprise set gradually driving motor, the first folding and unfolding spool, for the support base of supporting flexible substrate, for flexible substrate being fitted to the laminating apparatus of support base, at least two jockey pulleys, being used for the separator that flexible substrate is separated with support base and the second folding and unfolding spool;

Described driving motor is connected with described first folding and unfolding spool and described second folding and unfolding spool by transmission mechanism; Described first folding and unfolding spool and described second folding and unfolding spool are axially set in parallel in the two ends of volume to volume transmission device; Described support base is rewinding structure, the two ends of described support base are fixedly connected with the second folding and unfolding spool with the first folding and unfolding spool respectively, the stage casing of described support base is successively by laminating apparatus, jockey pulley and separator, and the upper surface of support base is close to jockey pulley.

Concrete, described jockey pulley is horizontally in the below of the first folding and unfolding spool and the second folding and unfolding spool, and the axis of described jockey pulley is parallel with the axis of the first folding and unfolding spool.

Described jockey pulley is for controlling the equalization of strain of support base and changing support base run location.

Concrete, described volume to volume transmission device is also provided with pressure roller track, and described pressure roller track is for controlling the precise motion track of support base.

Concrete, described laminating apparatus is provided with some laminatings folder, and described laminating sandwiched is equipped with the electromagnetic switch controlling laminating folder and open and close.Described laminating folder is used for flexible substrate and support base to fit to clamp.

Described separator is used for flexible substrate to be separated with support base; Concrete, described separator is provided with position induction device, and described position induction device, for responding to the position of laminating folder, when sensing the putting in place of laminating folder, controlling laminating folder and opening.

Concrete, described laminating apparatus is also provided with getter device; Described separator is also provided with blowning installation.

The air entry of described getter device is arranged at the angle space of flexible substrate and support base joint place; Described getter device is used for carrying out air-breathing to space, and flexible substrate and support base are more fitted; The inflatable mouth of described blowning installation is arranged at the angle space that flexible substrate is formed with the support base place of separation; Described blowning installation is used for blowing to help flexible substrate to space being separated with support base, can be used for blowing down the moisture existed between flexible substrate and support base simultaneously; Blowning installation also can select clean hot blast source of the gas according to demand.

Concrete, be provided with wiper rolls between described jockey pulley and separator, described wiper rolls is arranged at the upper surface of support base.

In flexible substrate coating process, coating liquid can splash the upper surface of support base, causes support base returning in wrapup procedure, because the effect of liquid sticks together, after certain hour, film coating composition can be set in support base, affects the control of support base tension force.The effect of wiper rolls is solution or impurity that support base upper surface is removed in wiping, also can be used as the control point providing support tension force needed for substrate simultaneously.

Concrete, also can be provided with drying unit between described wiper rolls and separator.Described drying unit is used for the solution on flexible substrate functional membrane surface to dry.

Concrete, the cell body top of described dipping plated film groove is the wide corner structure of inverted trapezoidal.Cell body top design is the wide corner structure of inverted trapezoidal, effectively can expand the aperture area of dipping plated film groove, be conducive to the immersion of support base and flexible substrate; And, it is parallel with spilling plane that wide corner structure can make the liquid level of coating liquid level off to, even due to the effect of liquid tension, the liquid level of the coating liquid at cell body top is likely higher than spilling plane, can guarantee like this lower surface of flexible substrate be tightly attached to coating liquid surface skim over can realize flood plated film, and without the need to whole flexible substrate and support base being immersed into completely in coating liquid, the impact on stability of solution can be reduced, improve plated film uniformity.

Concrete, described dipping plated film groove is also provided with agitating device, and described agitating device is installed on the cell body inner bottom part of dipping plated film groove.Agitating device is used for stirring coating liquid, makes uniform composition distribution in coating liquid.

Concrete, described dipping plated film groove is also provided with automatic liquid supply system.Described automatic liquid supply system comprises fluid infusion control cabinet, fluid infusion groove, fluid infusion pump and liquid level inductor; Fluid infusion pump and liquid level inductor are connected with fluid infusion control cabinet signal respectively, and fluid infusion pump water inlet mouth is communicated with fluid infusion groove, and fluid infusion is pumped the mouth of a river and is communicated with dipping plated film groove, and liquid level inductor is arranged in dipping plated film groove; Liquid level data for responding to the liquid level of coating liquid in dipping plated film groove, and is transferred to fluid infusion control cabinet by liquid level inductor, and control signal is fed back to fluid infusion pump according to liquid level data by fluid infusion control cabinet, controls starting or stoping of fluid infusion pump.

The advantage that the utility model has relative to prior art and effect:

(1) volume to volume immersion Plating membranous system described in the utility model adopts volume to volume combine with technique immersion plating, can realize the solution plated film function of flexible substrate material.

(2) volume to volume immersion Plating membranous system described in the utility model overcomes the technological deficiency of existing spray equipment, can realize the functional membrane that flexible substrate prepares solid matter distribution, high uniformity.

(3) volume to volume immersion Plating membranous system described in the utility model can realize the preparation of large area, uniformity flexible substrate solution functional membrane, can meet the growth requirement of existing photovoltaic industry, touch-screen industry, decoration film coating industry.

(4) design and running of volume to volume immersion Plating membranous system described in the utility model, the production domesticization of nucleus equipment that solution plated film is correlated with, core starting materials can be realized, break volume to volume core source technology by external the predicament monopolized, reduce the production cost of whole product.

(5) volume to volume immersion Plating membranous system described in the utility model can realize serialization, the large-scale production of producing line.

Accompanying drawing explanation

Fig. 1 is the structural representation of volume to volume immersion Plating membranous system in embodiment.

Fig. 2 is the structural representation of volume to volume transmission device in embodiment.

Fig. 3 is the syndeton schematic diagram of the first folding and unfolding spool and support base in embodiment.

Fig. 4 is the structural representation of pressure roller track in embodiment.

Fig. 5 is the structural representation of laminating apparatus in embodiment.

Fig. 6 is the structural representation of separator in embodiment.

Fig. 7 is the structural representation flooding plated film groove in embodiment.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.

Embodiment

Shown in composition graphs 1 and Fig. 2, the present embodiment provides a kind of volume to volume dipping systems for carrying out solution plated film to flexible substrate 100, comprise set gradually for place flexible substrate spool 101 unreel platform 1, for place coating liquid dipping plated film groove 2, for collecting the rolling table 3 of the flexible substrate after plated film, unreeling between platform 1 and rolling table 3 and being also provided with volume to volume transmission device 4; Described volume to volume transmission device 4 is arranged at the top of described dipping plated film groove 2; Described unreeling between platform 1 and described volume to volume transmission device 4 is provided with for drawing flexible substrate 100 and the first robot 5 being docked to volume to volume transmission device 4 from unreeling platform 1; Be provided with between described volume to volume transmission device 4 and described rolling table 3 for drawing flexible substrate 100 from volume to volume transmission device 4 and being docked to the second robot 6 of rolling table 3.

Flexible substrate 100 (as flexible materials such as ETFT, PET, PI) is spooled on spool in the mode of rolling up, can by 30 meters, 50 meters or 100 meters as regular length.Then unreel on platform 1 by robot or the artificial flexible substrate spool 101 spooled is placed into, in order to accomplish scale production, unreel on platform 1 and can place multireel flexible substrate spool 101.

In the present embodiment, as shown in Figure 2, described volume to volume transmission device 4 comprise set gradually driving motor 18, first folding and unfolding spool 7, for the support base 8 of supporting flexible substrate, for flexible substrate 100 being fitted to the laminating apparatus 9 of support base 8, jockey pulley 10, being used for the separator 11 that flexible substrate 100 is separated with support base 8 and the second folding and unfolding spool 12.

Described driving motor 18 is connected with described first folding and unfolding spool 7 and described second folding and unfolding spool 12 by transmission mechanism, and driving motor 18 is for controlling the forwards/reverse rotary rolling of described first folding and unfolding spool 7 and described second folding and unfolding spool 12; Described first folding and unfolding spool 7 and described second folding and unfolding spool 12 are axially set in parallel in the two ends of volume to volume transmission device 4; Described support base 8 is rewinding structure, and as shown in Figure 3, one end of described support base 8 fixedly twists on the first folding and unfolding spool 7; Meanwhile, the other end of described support base 8 fixedly twists on the second folding and unfolding spool 12.As shown in Figure 2, the stage casing of described support base 8 is successively by laminating apparatus 9, jockey pulley 10 and separator 11, and the upper surface of support base 8 is close to jockey pulley 10.

In order to complete laminating and supporting flexible substrate, the length of support base 8 is longer than the length of the flexible substrate 100 needing plated film, and its length is fixing.

In the present embodiment, as depicted in figs. 1 and 2, described jockey pulley 10 is horizontally in the below of the first folding and unfolding spool 7 and the second folding and unfolding spool 12, and the axis of described jockey pulley 10 is parallel with the axis of the first folding and unfolding spool 7.

The effect of described jockey pulley 10 is control support base 8 equalization of strain and change support base 8 run location.

In the present embodiment, volume to volume transmission device 4 is provided with two jockey pulleys, 10, two jockey pulleys makes support base 8 level press close to flood the liquid level of plated film groove 2.

The processing step adopting volume to volume immersion Plating membranous system described in the present embodiment to carry out flexible substrate plated film is:

S1, rolling needed the flexible substrate spool 101 of plated film to be positioned over to unreel on platform 1;

S2, to be drawn flexible substrate 100 by the first robot 5 and docking is attached to the lower surface of support base 8; Transmission support substrate 8, makes flexible substrate 100 be attached in support base 8 continuously;

S3, by control first folding and unfolding spool 7 and the second folding and unfolding spool 12, support base 8 is moved to the second folding and unfolding spool 12 direction by the first folding and unfolding spool 7, thus the flexible substrate 100 being fitted in support base 8 is impregnated in the coating liquid of dipping plated film groove 2, carry out dipping plated film;

S4, dipping are after plated film completes, and support base 8 continues to move to the second folding and unfolding spool 12 direction, through separator 11, the flexible substrate 100 after plated film is separated with support base 8, and are docked in rolling table 3 through the second robot 6 and carry out rolling;

S5, complete rolling after, by controlling the rotation direction of the first folding and unfolding spool 7 and the second folding and unfolding spool 12, make support base 8 get back to initial position, the step of repetitive cycling S1 to S5.

Flexible substrate is all very thin, soft, be generally micron level, therefore himself cannot realize individual transmission, also namely cannot realize this flexible substrate plated film in the solution, therefore need to be used as by support base the transmission that its supporting construction drives flexible substrate, complete the preparation of functional membrane.

By controlling the rotation direction of the first folding and unfolding spool 7 and the second folding and unfolding spool 12, connection support base 8 between which can be made to realize repeatedly moving back and forth.The running orbit of support base 8 accurately can be controlled by pressure roller track 13.

The equalization of strain that jockey pulley 10 can be used for controlling support base 8 controls, and realizes jockey pulley 10 forward or reverse running by external Electric Machine Control, by being close to the frictional force that support base 8 produces, drives the running of support base 8.

In the present embodiment, described volume to volume transmission device 4 is also provided with pressure roller track 13, for controlling the precise motion track of support base 8.As shown in Figure 4, pressure roller track 13 comprises a pressing roller holder 1301 and some paired settings and the pressure roller 1302 of parallel arrangement; Pressing roller holder 1301 is for fixing pressure roller 1302 thus play positioning action to support base 8, and often pair of pressure roller 1302 presses support base 8.The accurate control of pressure roller track 13 can guarantee the transmission that support base 8 can be stable.

How flexible substrate 100 fits to together with support base 8, completes after flooding plated film is again that what how to be separated is one of core technology of whole system.Flexible substrate 100 has thin and soft characteristic, needs to fit together with support base 8 smooth operation to realize flooding plated film.

In the present embodiment, the first robot 5 is provided with the first sucker clamp 501, flexible substrate 100 is pulled out from spool by the first sucker clamp 501, and is realized and the docking of support base 8 by laminating apparatus 9; Second robot 6 is provided with the second sucker clamp 601, the flexible substrate 100 after plated film to be separated from support base 8 and be docked to rolling table 3 by the second sucker clamp 601.

In the present embodiment, described laminating apparatus 9 is provided with some laminating folders 901, and described laminating folder 901 is provided with the electromagnetic switch 902 controlling laminating folder and open and close.Described laminating folder 901 clamps for flexible substrate 100 and support base 8 being fitted.

As shown in Figure 5, flexible substrate 100 is moved in laminating folder 901 by the first sucker clamp 501 of the first robot 5, electromagnetic switch 902 is responded to, laminating folder 901 opens and cut out, realize the combination of flexible substrate 100 and support base 8, and in adjustable equally spaced scope, generally that selection 0.3 ~ 0.5m is as spacing, realize laminating folder 901 by electromagnetic switch 902 control interval to open and close, laminating folder 901 designs with spacing distance at two edges of support base 8, the good fit of flexible substrate 100 and support base 8 is realized by the spacing of adjustment laminating folder 901, thus guarantee because of out-of-flatness, flexible substrate 100 can not occur that functional membrane prepares uneven phenomenon in coating process.For realizing location joint function, in laminating apparatus 9, be also provided with photoelectric sensor switch 903.

In the present embodiment, described laminating apparatus 9 is also provided with getter device 904; The air entry of getter device 904 is arranged at flexible substrate 100 and the angle space of support base 8 joint place, for carrying out air-breathing to the space of flexible substrate 100 and support base 8, flexible substrate 100 and support base 8 is more fitted.

In the present embodiment, as shown in Figure 6, described separator 11 is provided with position induction device 1102, described position induction device 1102 is for responding to the position of laminating folder 901, when sensing laminating the putting in place of folder 901, control laminating folder 901 to open, flexible substrate 100 can be separated with support base 8.

Described separator 11 is also provided with blowning installation 1101.The inflatable mouth of blowning installation 1101 is arranged at the angle space that flexible substrate 100 is formed with support base 8 place of separation, being separated with support base 8 for blowing to space to help flexible substrate 100, can be used for blowing down the moisture existed between flexible substrate 100 and support base 8 simultaneously.Blowning installation 1101 also can select clean hot blast source of the gas according to demand.

In the present embodiment, as shown in Figure 2, be provided with wiper rolls 14 between described jockey pulley 10 and separator 11, described wiper rolls 14 is arranged at the upper surface of support base 8.

In flexible substrate coating process, coating liquid can splash the upper surface of support base 8, causes support base 8 returning in wrapup procedure, because the effect of liquid sticks together, after certain hour, film coating composition can be set in support base 8, affects the control of support base 8 tension force.The effect of wiper rolls 14 is solution or impurity that support base 8 upper surface is removed in wiping, also can be used as the control point providing support tension force needed for substrate 8 simultaneously.

In the present embodiment, between described wiper rolls 14 and separator 11, be also provided with drying unit 15.Described drying unit 15 is for drying the solution on flexible substrate 100 functional membrane surface.

Immersion Plating membrane process section is the core process of the present embodiment film plating process.

In the present embodiment, the cell body top of described dipping plated film groove 2 is the wide corner structure of inverted trapezoidal.

Cell body top design is the wide corner structure of inverted trapezoidal, effectively can expand the aperture area of dipping plated film groove 2, be conducive to the immersion of support base 8 and flexible substrate 100; And, it is parallel with spilling plane that wide corner structure can make the liquid level of coating liquid level off to, even due to the effect of liquid tension, the liquid level of the coating liquid at cell body top is likely higher than spilling plane, can guarantee like this lower surface of flexible substrate 100 be tightly attached to coating liquid surface skim over can realize flood plated film, and without the need to whole flexible substrate 100 being immersed into completely in coating liquid with support base 8, the impact on stability of solution can be reduced, improve plated film uniformity.

Be wide corner structure by the cell body top design of dipping plated film groove 8, under equal immersion Plating membrane area, the volume of cell body can be reduced, cell body bottom is designed to prolate shape, reduce the use of coating liquid.

Wide corner structure design can significantly reduce raw-material loss in addition, traditional complete submergence of hard substrate lift plated film causes the back side of hard substrates also significantly can adhere to functional membrane, cause the loss of material, be also increase to design bringing a difficult problem and cost to the follow-up how material at the back side removal simultaneously.And the design of wide angle can make flexible substrate 100 skim over from the surface of coating liquid, a large amount of loss reducing coating liquid.

Due to plated film functional material in the solution As time goes on, can be deposited to gradually bottom, the functional material that especially density ratio solution is large, sedimentation is more obvious.

Therefore, as shown in Figure 7, in the present embodiment, described dipping plated film groove 8 is also provided with agitating device 16, and described agitating device 16 is installed on the cell body inner bottom part of dipping plated film groove 2.Agitating device 16, for stirring coating liquid, makes uniform composition distribution in coating liquid, also caters to uninterrupted demand of producing.

Support base 8 and flexible substrate 100 are determined by the position of jockey pulley 10 at the horizontal level of dipping plated film groove 2.And when plated film, according to lifting jockey pulley 10 up and down to adjust the position of support base 8 and flexible substrate 100, and the movement of jockey pulley 10 can cause the tension force of support base 8 influenced, makes flexible substrate 100 stable not, impact dipping coating effects, and industrialized requirement cannot be met.

Therefore, as shown in Figure 7, in the present embodiment, described dipping plated film groove 2 is provided with automatic liquid supply system 17.Described automatic liquid supply system 17 comprises fluid infusion control cabinet 1700, fluid infusion groove 1701, fluid infusion pump 1702 and liquid level inductor 1703; Fluid infusion pump 1702 and liquid level inductor 1703 are connected with fluid infusion control cabinet 1700 signal respectively, and fluid infusion pump 1702 water inlet is communicated with fluid infusion groove 1701, and fluid infusion pump 1702 delivery port is communicated with dipping plated film groove 2, and liquid level inductor 173 is arranged in dipping plated film groove 2; Liquid level inductor 1703 is for responding to the liquid level of coating liquid in dipping plated film groove 2, and liquid level data is transferred to fluid infusion control cabinet 1700, control signal is fed back to fluid infusion pump 1702 according to liquid level data by fluid infusion control cabinet 1700, control starting or stoping of fluid infusion pump 1702, to carry out accurate fluid infusion to dipping plated film groove, maintain liquid level position stability.

Claims (10)

1. a volume to volume immersion Plating membranous system, it is characterized in that, comprise set gradually for place flexible substrate spool unreel platform, for place coating liquid dipping plated film groove, for collecting the rolling table of the flexible substrate after plated film, unreeling between platform and rolling table and being also provided with volume to volume transmission device; Described volume to volume transmission device is arranged at the top of described dipping plated film groove; Described unreeling to be provided with for drawing flexible substrate and being docked to the first robot of volume to volume transmission device between platform and described volume to volume transmission device; Be provided with between described volume to volume transmission device and described rolling table for drawing flexible substrate from volume to volume transmission device and being docked to the second robot of rolling table.

2. volume to volume immersion Plating membranous system according to claim 1, is characterized in that: described volume to volume transmission device comprise set gradually driving motor, the first folding and unfolding spool, for the support base of supporting flexible substrate, for flexible substrate being fitted to the laminating apparatus of support base, at least two jockey pulleys, being used for the separator that flexible substrate is separated with support base and the second folding and unfolding spool.

3. volume to volume immersion Plating membranous system according to claim 2, is characterized in that: described driving motor is connected with described first folding and unfolding spool and described second folding and unfolding spool by transmission mechanism; Described first folding and unfolding spool and described second folding and unfolding spool are axially set in parallel in the two ends of volume to volume transmission device; Described support base is rewinding structure, the two ends of described support base are fixedly connected with the second folding and unfolding spool with the first folding and unfolding spool respectively, the stage casing of described support base is successively by laminating apparatus, jockey pulley and separator, and the upper surface of support base is close to jockey pulley.

4. volume to volume immersion Plating membranous system according to claim 2, is characterized in that: described volume to volume transmission device is provided with pressure roller track.

5. volume to volume immersion Plating membranous system according to claim 2, is characterized in that: described laminating apparatus is provided with some laminatings folder, and described laminating sandwiched is equipped with the electromagnetic switch controlling laminating folder and open and close; Described separator is provided with position induction device.

6. volume to volume immersion Plating membranous system according to claim 2, is characterized in that: described laminating apparatus is provided with getter device; The air entry of described getter device is arranged at the angle space that flexible substrate and support base joint place are formed; Described separator is provided with blowning installation; The inflatable mouth of described blowning installation is arranged at the angle space that flexible substrate is formed with the support base place of separation.

7. volume to volume immersion Plating membranous system according to claim 2, is characterized in that: be provided with wiper rolls between described jockey pulley and described separator; Drying unit is provided with between described wiper rolls and described separator.

8. volume to volume immersion Plating membranous system according to claim 1, is characterized in that: the cell body top of described dipping plated film groove is the wide corner structure of inverted trapezoidal.

9. volume to volume immersion Plating membranous system according to claim 1, is characterized in that: described dipping plated film groove is provided with agitating device.

10. volume to volume immersion Plating membranous system according to claim 1, is characterized in that: described dipping plated film groove is provided with automatic liquid supply system.