CN106341954B - The method for adhering film of printed board - Google Patents

Abstract

The present invention relates to Filming Technology field more particularly to the method for adhering film of printed board, for dry film to be attached to printed board, comprising the following steps: provide a preceding conveying section and the printed board for carrying out pad pasting will be needed to be delivered to designated position by its conveying section；Dry film is affixed on printing board surface in advance；There is provided a pressing film roller and by driving it to move towards the printed board direction for posting dry film in advance until being connected on dry film；It continues through preceding conveying section driving printed board to move forward, while driving pressing film roller to rotate so that dry film is attached at printing board surface；There is provided one after conveying section and by its to will complete dry film attach printed board carry out being delivered to next designated position, meanwhile, driving pressing film roller reset.Present invention can assure that pressing film roller compress printed board when avoid printed board because during transportation bent upon itself and cause and occur pad pasting overlapping, bending etc. it is bad, it is particularly suitable to carry out pad pasting for flexible printed circuit, greatly promote the yields to flexible printed circuit pad pasting.

Description

The method for adhering film of printed board

Technical field

The present invention relates to Filming Technology field more particularly to the method for adhering film of printed board.

Background technique

Printed wiring board is important electronic component, is the supporter of electronic component, is electronic component electrical connection Carrier, printed wiring board develops to two-sided, multilayer and flexibility from single layer, and still keeps respective development trend, by Develop in constantly to high-precision, high density and high reliability direction, constantly diminution volume, reduction cost, raising performance, so that Printed wiring board still maintains powerful vitality in the development engineering of future electronic equipment.Wherein, printed wiring board exists Need to carry out patch dry film process before exposure, when the device of the prior art carries out patch dry film to printed wiring board, generally by not Disconnected conveying printed circuit board moves forward, and then attaches on a printed circuit board dry film during Forward, completes in this way To the pad pasting of printed circuit board.But when being directed to flexible circuit board, since the material is soft for it, when conveying flexible print electricity When the plate of road, end is easy nature bending, then being accommodated in flexible circuit board when dry film attaches flexible circuit board End occur pad pasting overlapping, bending etc. it is bad, thus cause production product it is bad.

Summary of the invention

The purpose of the present invention is to provide a kind of method for adhering film of printed board, it is intended to solve the prior art for flexibility The technical problem for the problems such as pad pasting overlapping, bending easily occur when printed board progress pad pasting and causing product undesirable.

To achieve the above object, the technical scheme is that a kind of method for adhering film of printed board, for dry film to be attached In printed board, comprising the following steps:

S1: a preceding conveying section is provided, the printed board for needing to carry out pad pasting is delivered to by finger by the preceding conveying section Positioning is set；

S2: the dry film is affixed on the printed board close to the table of its front end in advance by the way of manually or automatically Face；

S3: a pressing film roller is provided, and by driving the pressing film roller towards the printed board side for posting the dry film in advance To movement until the pressing film roller is connected on the dry film；

S4: it continues through the preceding conveying section and the printed board is driven to move forward, while the pressing film roller being driven to turn It moves so that the dry film is attached at the printing board surface；

S5: conveying section after providing one, by conveying section after described to will complete the printed board that the dry film attaches into Row is delivered to next designated position, meanwhile, drive the pressing film roller to reset.

Further, in the step S1, before the preceding conveying section conveys the printed board to designated position, to described The position of printed board is corrected centering.

Further, in the step S1, before the preceding conveying section conveys the printed board to designated position, to described The surface of printed board is dusted.

Further, in the step S1, the printed board after completion dedusting is humidified.

Further, in the step S2, automatic mode is to provide a pad pasting disk, is transported by controlling the pad pasting disk It moves so that the dry film is affixed on the printed board close to the surface of its front end in advance.

Further, in the step S3, the dry film completed after attaching to the printed board dry film is cut It is disconnected.

Further, in the step S3, the dry film after completing cutting is carried out by vacuum by the pad pasting disk Absorption is with spare.

Further, in the step S3, pressure is applied so that the pressing film roller increase is connected to the pressing film roller Pressure on the dry film.

Beneficial effects of the present invention: a kind of method for adhering film of printed board of the invention passes through driving pressing film roller direction printing Plate direction is mobile to compress the pre- printed board for posting dry film, and flexible printed circuit is delivered to the side below pressing film roller instead of tradition Formula, so, it can be ensured that printed board is avoided to cause because of bent upon itself during transportation when pressing film roller compresses printed board And occur pad pasting overlapping, bending etc. it is bad, it is particularly suitable for flexible printed circuit carry out pad pasting, greatly promote to flexible printed circuit The yields of pad pasting；Meanwhile pad pasting process realizes automation, can either save human cost, and can be improved production efficiency, it is real It is strong with property.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the laminator of the embodiment of the present invention.

Fig. 2 is in structure cut away view when the first working condition for the film pressing device of the laminator of the embodiment of the present invention.

Fig. 3 is in structure cut away view when second of working condition for the film pressing device of the laminator of the embodiment of the present invention.

Fig. 4 is that the laminator of the embodiment of the present invention hides the structural schematic diagram after rack.

Fig. 5 is that the laminator of the embodiment of the present invention hides another structural schematic diagram after rack.

The structure of each component before Fig. 6 is the preceding conveying section of the laminator of the embodiment of the present invention and is installed on carriage is shown It is intended to.

Another knot of each component before Fig. 7 is the preceding conveying section of the laminator of the embodiment of the present invention and is installed on carriage Structure schematic diagram.

Fig. 8 is the partial enlargement structural representation in Fig. 2 at A.

Fig. 9 is the partial enlargement structural representation in Fig. 3 at B.

Figure 10 is the axis geodesic structure cut-away illustration of the laminator of the embodiment of the present invention.

Figure 11 is the structural schematic diagram of the film pressing device of the laminator of the embodiment of the present invention.

Figure 12 is another structural schematic diagram of the film pressing device of the laminator of the embodiment of the present invention.

Figure 13 is the partial structure diagram of the pre- film sticking apparatus of the laminator of the embodiment of the present invention.

Figure 14 is another part structural schematic diagram of the pre- film sticking apparatus of the laminator of the embodiment of the present invention.Appended drawing reference packet It includes:

10-rack 11-third, 20-transmission devices of sliding slot

21-preceding conveying sections 22-rear 30-vacuum generator of conveying section

40-control device 50-pad pasting, 51-mounting racks of module

52-film pressing devices 60-pre- 61-pad pasting of film sticking apparatus disk

62-pre- pad pasting driving source 63-synchronous rotating shaft, 64-synchromesh gears

65-rack gear 66-dry film, 67-leading axles of axis

70-71-cutteves of film cutter 72-cut film driving source

73-protective cover 74-cutter, 80-centralising devices of avoiding hollow groove

81-the first centering plate the 82-the second centering plate 83-centering driving source

The upper Roller for sticking dust of 84-90-dust-extraction units of centering sensor 91-

92-lower Roller for sticking dust 93-upper binding dust paper roll 94-go up binding dust driving source

95-lower binding dust paper rolls 96-lower binding dust driving source 100-go up turning mechanism

101-102-roller 211 of plugging into-preceding carriages of rollover stand

212-preceding 213-nipper of conveying roller wheel assemblies 214-preceding feed drive source

221-rear carriages 222-rear 223-backgear of conveying roller component

224-rear the 511-the first empty avoiding of feed drive source mouth the 512-the second empty avoiding mouths

513-the first guide rail the 514-the second guide rail 515-third guide rail

516-517-castor of support rod, 518-knobs

521-522-pressing film roller of sliding rack, 523-sliding driving sources

524-525-pressure-driven of source of rotational drive source, 526-press mold gear assemblies

527-auxiliary 528-rotary encoder of conveying roller, 529-dry film guiding pieces

611-612-arcwall faces of pad pasting disk vacuum hole 731-go out the edge of a knife

5211-the first slide plate 5213-first sliding groove of the 5212-the second slide plate

5214-5215-connecting shafts of second sliding slot

P-printed board D-dry film.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment that Fig. 1~14 is described is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that, term " length ", " width ", "upper", "lower", "front", "rear", The orientation or positional relationship of the instructions such as "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is based on attached drawing institute The orientation or positional relationship shown, is merely for convenience of description of the present invention and simplification of the description, rather than the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to limit of the invention System.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.In the description of the present invention, the meaning of " plurality " is two or more, Unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be mechanical connect It connects, is also possible to be electrically connected；It can be directly connected, can also can be in two elements indirectly connected through an intermediary The interaction relationship of the connection in portion or two elements.It for the ordinary skill in the art, can be according to specific feelings Condition understands the concrete meaning of above-mentioned term in the present invention.

The embodiment of the present invention provides a kind of specific implementation process of the method for adhering film of printed board by as shown in figs. 1 to 14 Laminator realize and elaborate.Laminator is used to dry film D being attached to printed board P, and printed board P can be flexibility Printed board P or hard printed board P.Laminator includes rack 10, is installed in rack 10 for conveying the transmission dress of printed board P It sets 20, be slidably connected with rack 10 and for dry film D to be attached at the pad pasting module 50 on the surface printed board P and is used to control biography The control device 40 for sending device 20 and the electrical components of pad pasting module 50 to work.Specifically, rack 10 is pacified for all parts Dress can be equipped with panel and cover in the outside of rack 10 according to specific requirements, in this way can be to being installed on each of rack 10 Safety when component plays the role of protection and water proof and dust proof and promotes the work of each component.Control device 40 can use PLC or computer etc. control the electrical components of transmission device 20 and the electrical components of pad pasting module 50, described electricity Dynamic component is generally motor, cylinder and sensor etc..Wherein, the electrical components of transmission device 20 and pad pasting module 50 is electronic Component can be multiple, and according to the operation requirement of actual production, can will carry out between multiple electrical components mutually electrically Connection, then electrical components will be electrically connected one by one with control device 40, its purpose is to realize through control device 40 to each A electrical components are controlled, to realize automatically working.

As shown in Fig. 1~3 and Fig. 8~9, transmission device 20 include be set to rack 10 along printed board P input direction one end with By the preceding conveying section 21 for carrying out pad pasting in printed board P input chassis 10 and rack 10 is set to along printed board P outbound course one end The rear conveying section 22 outside printed board P output rack 10 pad pasting will be completed.Specifically, the effect of preceding conveying section 21 is that realization will The printed board P for needing to carry out dry film D attaching, which is transported in rack 10, carries out pad pasting to it for pad pasting module 50, when pad pasting module 50 It completes after carrying out dry film D attaching to printed board P, pad pasting module 50 can assist conveying to complete printed board P that dry film D is attached to rear defeated Send section 22, the effect of rear conveying section 22 be then realize will complete the printed board P that dry film D is attached be transported to need to printed board P into In the equipment of row next process processing.Wherein, transmission device 20 is formed by the combination of preceding conveying section 21 and rear conveying section 22 Conveying to printed board P pipeline system, this kind of production method can accelerate processing efficiency.

As shown in Fig. 2~3 and Fig. 8~12, pad pasting module 50 includes being installed on rack 10 and being located at preceding conveying section 21 with after Mounting rack 51 between conveying section 22 and the film pressing device 52 for being installed on mounting rack 51, film pressing device 52 include being slidably mounted on Sliding rack 521 on mounting rack 51, the pressing film roller 522 being installed on sliding rack 521, for driving sliding rack 521 in preceding conveying Section 21 and rear conveying section 22 between slide so that pressing film roller 522 abut the surface printed board P sliding driving source 523 and with pressure Deflector roll 522 connects and for driving the rotation of pressing film roller 522 dry film D to be attached to the source of rotational drive 524 on the surface printed board P, Source of rotational drive 524 is installed on sliding rack 521.Specifically, sliding driving source 523 can drive pressing film roller 522 to be moved, It abuts in this way, avoiding for printed board P being delivered to pressure roller, printed board P is pasted by driving the movement of pressing film roller 522 Film, so as to effectively prevent printed board P flexible because end occurs bending and causes pad pasting undesirable during transportation Problem.It should be noted that sliding driving source 523 can use cylinder or electric cylinders, specifically formed according to equipment come to gas Cylinder perhaps installed to realize that cylinder or electric cylinders driving sliding rack 521 are mobile by electric cylinders.Source of rotational drive 524 can be with Using servo motor, perhaps the output shaft of the servo motor such as stepper motor or stepper motor passes through transmission parts and pressing film roller 522 connections can be realized driving pressing film roller 522 and rotate, and then realize and compress the surface that dry film D is attached to printed board P on one side, and one While the frictional force generated between printed board P when passing through rotation, which drives, completes the printed board P Forward that dry film D is attached.

Run the course of work of the laminator of the method for adhering film of the printed board of the embodiment of the present invention are as follows: will need to carry out pad pasting Printed board P be placed on the preceding conveying section 21 of transmission device 20, printed board P is delivered in rack 10 by preceding conveying section 21, in advance Dry film D is first attached to the end of printed board P, the film pressing device 52 of pad pasting module 50 drives press mold by sliding driving source 523 The direction of roller 522 towards printed board P are mobile, until by the driving of pressing film roller 522 to being pressed on the pre- end printed board P for posting dry film D The surface in portion then drives pressing film roller 522 to rotate, in conjunction with preceding conveying section 21 to the defeated of printed board P by source of rotational drive 524 It send, realizes and dry film D attaching is carried out to printed board P on one side, the printed board P that conveying completes that dry film D is attached on one side is delivered to transmission dress The rear conveying section 22 for setting 20, conveying section 22 is delivered to next process progress after finally completing the printed board P warp of dry film D attaching Processing.

The laminator for running the method for adhering film of the printed board of the embodiment of the present invention can be by the pressure of driving film pressing device 52 Deflector roll 522 is mobile to compress the pre- printed board P for posting dry film D towards the direction printed board P, instead of flexible printed circuit P to be delivered to The mode of 522 lower section of pressing film roller, so, it can be ensured that printed board P is avoided when pressing film roller 522 compresses printed board P because defeated Bent upon itself during sending and cause and pad pasting overlapping, bending occur etc. it is bad, it is particularly suitable to be pasted for flexible printed circuit P Film greatly promotes the yields to flexible printed circuit P pad pasting；Meanwhile pad pasting process realize automation, can either save manpower at This, and can be improved production efficiency, it is practical.

As shown in Fig. 2~5 and Fig. 8~12, film pressing device 52 further includes connecting with pressing film roller 522 and for driving pressing film roller 522 are pressed in dry film D in the pressure-driven source 525 on the surface printed board P, and pressure-driven source 525 is installed on sliding rack 521.Tool Body, it is acted on dry film D in order to ensure pressing film roller 522 can apply sufficiently large pressure, passes through setting for pressure-driven source 525 It sets, can drive pressing film roller 522 mobile by the pressure-driven source 525, it is ensured that dry film D is pressed on printing by pressing film roller 522 The surface of plate P, and then can ensure that dry film D is attached to the stability on the surface printed board P.It should be noted that pressure-driven source 525 can be cylinder, and perhaps electric cylinders are connect by cylinder or the output end of electric cylinders with pressing film roller 522, and driving pressure can be realized Deflector roll 522 moves along a straight line.That is, driving pressing film roller 522 to move towards the surface of printed board P by cylinder or electric cylinders It is dynamic, it can be realized and compress dry film D on the surface of printed board P, then the pressure applied is sufficiently large, be further ensured that dry film D is pasted It is attached to the reliability on the surface printed board P.

As shown in Fig. 2~5 and Fig. 8~12, film pressing device 52 further includes press mold gear assembly 526, and pressing film roller 522 has two A, two pressing film rollers 522 are arranged up and down along the vertical direction；Source of rotational drive 524 passes through press mold gear assembly 526 and two press molds The upper and lower surfaces that roller 522 connects and drives two pressing film rollers 522 that dry film D is pressed in printed board P respectively.Specifically, Press mold gear assembly 526 is the modular construction formed by the engagement connection of multiple gears, and it is identical that plurality of gear can be size Or it is of different sizes.The setting of two pressing film rollers 522 ensures the upper and lower surfaces progress dry film D realized to printed board P It attaches, the pressing film roller 522 rotated by two can also convey printed board P.The output shaft in pressure-driven source 525 rotates When, each gear rotation of a press mold gear assembly 526 is driven, wherein the two of press mold gear assembly 526 meshed gears point It is not fixedly connected with two adjacent ends of pressing film roller 522, passes through the rotation of each gear of press mold gear assembly 526 in this way It realizes and two pressing film rollers 522 is driven to rotate synchronously, and then can be realized two pressing film rollers 522 of driving and be pressed in dry film D respectively The upper and lower surfaces of printed board P, and continued on to the printed board P that dry film D is attached is completed in rear conveying section 22.

As shown in Fig. 2~5 and Fig. 8~12, sliding rack 521 includes the first slide plate 5211, the second slide plate being oppositely arranged 5212 and the connecting shaft 5215 that is fixedly connected between the first slide plate 5211 and the second slide plate 5212；522 activity of pressing film roller is even It is connected between the first slide plate 5211 and the second slide plate 5212, source of rotational drive 524 is installed on the first slide plate 5211 and and press mold The first end of roller 522 is drivingly connected, and pressure-driven source 525 is installed on the second slide plate 5212 and the second end with pressing film roller 522 It is drivingly connected；The position corresponding with the first slide plate 5211 and the second slide plate 5212 of mounting rack 51 is equipped with the first empty avoiding mouth 511 and the Two empty avoiding mouths 512, the first slide plate 5211 and the second slide plate 5212 are respectively arranged in the first empty avoiding mouth 511 and the second empty avoiding mouth 512 And sliding driving source 523 is installed on the first slide plate 5211 or the second slide plate 5212 for driving the first slide plate 5211 and second Slide plate 5212 is slided respectively in the first empty avoiding mouth 511 and the second empty avoiding mouth 512.Specifically, the first slide plate 5211, the second slide plate 5212 and connecting shaft 5215 in conjunction with connection form sliding rack 521, for film pressing device 52 remaining part install.Wherein, first The area of empty avoiding mouth 511 is greater than the area of the first slide plate 5211, can ensure that the first slide plate 5211 can be kept away first in this way Eat dishes without rice or wine that there is in 511 enough dimensional slips.Similarly, the area of the second empty avoiding mouth 512 is greater than the area of the second slide plate 5212, this Sample can ensure that the second slide plate 5212 can have enough dimensional slips in the second empty avoiding mouth 512.So it can be realized Sliding rack 521 is slided relative to rack 10, in this way, the component being installed on sliding rack 521 such as pressing film roller 522 is i.e. slidably. And then realize that dry film D compression is attached on printed board P by the top that printed board P is moved to by controlling pressing film roller 522.

As shown in Fig. 2~5 and Fig. 8~12, film pressing device 52 further includes being installed on the first slide plate 5211 and the second slide plate Between 5212 and it is located at 522 rear of pressing film roller for assisting conveying to complete at least one auxiliary for the printed board P that dry film D is attached Conveying roller 527, it is each that conveying roller 527 is assisted to be drivingly connected by press mold gear assembly 526 and source of rotational drive 524.Specifically, pressure It when dry film D compression is attached on printed board P by the pressing film roller 522 of film device 52, needs continuously to convey printed board P, Dry film D attaching continuously can be carried out to printed board P, then passing through the auxiliary conveying roller 527 and the press mold that are arranged in mounting rack 51 Roller 522 rotate synchronously, this makes it possible to ensure by pressing film roller 522 and complete dry film D attaching printed board P by the auxiliary it is defeated Roller 527 is sent to continue to convey, until being delivered on rear conveying section 22, such structure design, it is ensured that production is continuous uninterrupted, mentions significantly High efficiency.Wherein, if there is multiple auxiliary conveying rollers 527, the end of multiple auxiliary conveying rollers 527 can be passed through into press mold Pitch wheel connects in gear assembly 526.

As shown in Fig. 2~5 and Fig. 8~10, film pressing device 52 further includes being installed on the first slide plate 5211 or the second slide plate The input terminal of rotary encoder 528 on 5212, rotary encoder 528 is connect with press mold gear assembly 526, rotary encoder 528 are electrically connected with source of rotational drive 524.Specifically, the input terminal by rotary encoder 528 detects press mold gear assembly The revolving speed of gear in 526, and the tach signal is directly or indirectly transmitted in source of rotational drive 524, it is given to rotation and drives The signal of dynamic 524 1 feedbacks in source, so that the control of source of rotational drive 524, which increases or reduce it, controls turning for pressing film roller 522 Speed, to ensure to carry out printed board P to form moderate pressure and conveying speed when dry film D is compressed and attached.

As shown in Fig. 2~5 and Fig. 8~10, the upper and lower ends portion of the first slide plate 5211 is equipped with first sliding groove 5213, and first The position corresponding with first sliding groove 5213 of empty avoiding mouth 511 is equipped with the first guide rail 513 being slidably matched with first sliding groove 5213；Second The upper and lower ends portion of slide plate 5212 is equipped with second sliding slot 5214, the second empty avoiding mouth 512 position corresponding with second sliding slot 5214 Equipped with the second guide rail 514 being slidably matched with second sliding slot 5214.Specifically, by the first slide plate 5211 and the second slide plate 5212 with It is sliding by the cooperation of first sliding groove 5213 and the first guide rail 513 and second between first empty avoiding mouth 511 and the second empty avoiding mouth 512 The cooperation of slot 5214 and the second guide rail 514, then may insure that the first slide plate 5211 and the second slide plate 5212 can be in settings It is slided on position, it is ensured that sliding rack 521 mobile stability and reliability.

As shown in Fig. 2~5, Fig. 8~10 and Figure 13~14, pad pasting module 50 further includes being respectively arranged on 51 internal upper part of mounting rack With the pre- film sticking apparatus 60 of lower part, acting on to before printed board P progress dry film D attaching for pre- film sticking apparatus 60 first passes through pre- patch Dry film D is attached to the upper and lower surfaces of the end printed board P by film device 60, in this way as transmission device 20 is to printed board P Convey can be realized and be sticked automatically to printed board P progress dry film D.Wherein, each pre- film sticking apparatus 60 includes being set to first to slide It is pasted between plate 5211 and the second slide plate 5212 for adsorbing the pad pasting disk 61 of dry film D and being connect with pad pasting disk 61 and be used to drive Membranous disc 61 is mobile to be affixed on pre- pad pasting drive of the printed board P close to the surface of its outer end with the dry film D that will be adsorbed on pad pasting disk 61 in advance Dynamic source 62.Specifically, dry film D is adsorbed on the surface of pad pasting disk 61 first, pad pasting disk is then driven by pre- pad pasting driving source 62 61 is mobile towards the surface of printed board P, until the dry film D for being adsorbed on 61 surface of pad pasting disk is attached on the surface of printed board P, Pre- pad pasting driving source 62 is resetted in driving pad pasting disk 61, that is, completes to work to the pre- pad pasting of printed board P, wherein be set to mounting rack The pre- film sticking apparatus 60 of upper and lower part in 51 carries out dry film D to the upper and lower surfaces of printed board P respectively and pastes in advance.Pre- patch Film driving source 62 can use cylinder or electric cylinders, it is preferred to use cylinder passes through the i.e. controllable pad pasting of the piston rod of cylinder in this way Disk 61 is moved.It is pasted in advance by carrying out dry film D to printed board P, can be convenient subsequent pressing film roller 522 in this way and compress the pre- patch Dry film D, and the upper and lower surfaces that dry film D is gradually sticked to entire printed board P are realized by rotating.

As shown in Fig. 2~5, Fig. 8~10 and Figure 13~14, pre- film sticking apparatus 60 further includes set on the first slide plate 5211 and the Synchronous rotating shaft 63 between two slide plates 5212, set on 63 both ends of synchronous rotating shaft synchromesh gear 64 and respectively with two synchronous gears Two rack gears 65 of 64 engagement of wheel, one end of two rack gears 65 is fixedly connected with the both ends of pad pasting disk 61 respectively.Specifically, when patch Membranous disc 61 makes movement under the driving of pre- pad pasting driving source 62, then two rack gears 65 connecting with the both ends of pad pasting disk 61 Movement to be made, realizes and rotates with the synchromesh gear 64 that rack gear 65 cooperates, two synchromesh gears 64 drive synchronous rotating shaft 63 to rotate, this Sample is the mobile synchronization that can ensure that 61 both ends of pad pasting disk, and then ensures planarization when part dry film D is attached to the surface of printed board P in advance More preferably.There are two pre- pad pasting driving sources 62, and two pre- pad pasting driving sources 62 are respectively arranged in the first slide plate 5211 and the second slide plate On 5212, and two pre- pad pasting driving sources 62 are hinged with the both ends of pad pasting disk 61 respectively.Specifically, the pre- pad pasting driving of setting two Source 62, which can synchronize, drives the both ends of pad pasting disk 61, then combining synchronous rotating shaft 63, may further ensure that pad pasting disk When 61 movement, both ends are more steady.

As shown in Fig. 2~5, Fig. 8~10 and Figure 13~14, be correspondingly arranged at the same side rack gear 65 and pre- pad pasting driving source 62 angled settings.Specifically, the angle of rack gear 65 and pre- pad pasting driving source 62 angle at an acute angle is arranged, it in this way can be to avoid tooth It produces and interferes between pre- pad pasting driving source 62 when item 65 acts, drive pre- pad pasting driving source 62 by this kind of structure design The mobile direction of dynamic pad pasting disk 61 generates angle change, so as to according to the structure inside mounting rack 51 come adaptively right Pre- film sticking apparatus 60 is installed.

As shown in Fig. 1~3 and Fig. 8~10, the surface of pad pasting disk 61 be equipped with several for be connected to vacuum generator 30 with The pad pasting disk vacuum hole 611 of vacuumizing and adsorbing is carried out to dry film D.Specifically, the pad pasting disk vacuum hole 611 that pad pasting disk 61 is arranged is logical Piping is connect with vacuum generator 30, makes dry film D be adsorbed on pad pasting disk 61 by the vacuum action of vacuum generator 30 Surface.Wherein, vacuum generator 30 can be set in rack 10 or outside rack 10, be selected according to specific requirements.

The plate-like structure of pad pasting disk 61, and pad pasting disk 61 is equipped with arcwall face 612 close to the end of printed board P.Specifically, plate The pad pasting disk 61 of shape structure has bigger surface area, more pad pasting disk vacuum holes 611 can be arranged in this way, thus to dry film The absorption stability of D is more preferably.Pad pasting disk 61 is equipped with arcwall face 612 close to the end of printed board P, is conducive to pad pasting disk 61 in this way Preferably the dry film D for being adsorbed on its surface is abutted with printed board P under the driving of pre- pad pasting driving source 62, the end of pad pasting disk 61 Portion will not generate interference with remaining part, reasonable in design, practical.

As shown in Fig. 2~5, Fig. 8~10 and Figure 13~14, pre- film sticking apparatus 60 further includes for rolling up the dry film for depositing dry film D Axis 66 and leading axle 67 for guiding dry film D to be adsorbed on pad pasting disk 61, dry film axis 66 and leading axle 67 are rotatablely connected Between the first slide plate 5211 and the second slide plate 5212.Specifically, dry film axis 66 is used to roll up D volumes of dry film, D volumes of dry film for being saved as rolling up Dry film D is released by the guiding of leading axle 67 so that its end is adsorbed on the surface of pad pasting disk 61, certainly, dry film D can also be into One step passes through the guiding of synchronous rotating shaft 63.In this way, dry film D is gradually pulled under the action of pressing film roller 522 rotates and applies pressure D volumes of dry film rotation, so that D volumes of dry film is constantly released dry film D and attached for printed board P, production efficiency is very high.

As shown in Fig. 2~3 and Fig. 8~10, pad pasting module 50 further includes cutting set on 51 internal upper part of mounting rack and lower part Film device 70, film cutter 70 include set on the cutter 71 between the first slide plate 5211 and the second slide plate 5212 and being installed on the It is connect on one slide plate 5211 and/or the second slide plate 5212 with cutter 71 and is used to drive cutter 71 mobile to cut towards dry film D Dry film D's cuts film driving source 72.Specifically, film driving source 72 is cut in starting when dry film D attaches the surface of full monolith printed board P, Cutting film driving source 72 drives cutter 71 connected to it to cut towards dry film D, in this way, the dry film D of monolithic printed board P attaches work Complete.Wherein, the arrangement of cutter 71 is as the mode of pressing film roller 522 and pad pasting disk 61, each along the width of rack 10 Direction arrangement.

It as shown in Fig. 2~3 and Fig. 8~10, cuts there are two film driving sources 72, two are cut film driving source 72 and are respectively arranged in On one slide plate 5211 and the second slide plate 5212, and two are cut film driving source 72 and connect respectively with the both ends of cutter 71.Specifically, logical It crosses two and cuts film driving source 72 while to drive 71 both ends of cutter synchronous mobile towards dry film D until cut away dry film D, it in this way can be with It effectively avoids causing dry film D to be attached on cutter 71 because the both ends of cutter 71 are asynchronous, guarantees that cutter 71 cuts film work Reliability.Further, the dry film D after completing cutting is then attracted on pad pasting disk 61, and it is next to wait pad pasting disk 61 to carry out Secondary pre- pad pasting work.Film driving source 72 is cut preferably using cylinder, can also use electric cylinders in other embodiments.

As shown in Fig. 2~3 and Fig. 8~10, film pressing device 52 further includes being set to the first slide plate 5211 and the second slide plate 5212 Between and along the vertical two arranged up and down dry film guiding pieces 529 for guiding dry film D to be attached on printed board P, each dry film Guiding piece 529 and pressure-driven source 525 connect and through pressure-driven source 525 drive with a corresponding pressing film roller 522 towards same Direction is mobile.Specifically, dry film D passes through the guidance of the dry film guiding piece 529, then it is pressed by pressing film roller 522 The problems such as abutting is attached on printed board P, dry film D can be prevented to be overlapped before attaching to printed board P in this way promotes dry film D The fluency being attached on printed board P.

As shown in Fig. 1~3 and Fig. 8~9, pad pasting module 50 further includes vacuum generator 30, and pad pasting disk vacuum hole 611 passes through Pipeline (not shown) is connect with vacuum generator 30.Specifically, the effect of vacuum generator 30 is to be vacuumized, in this way can Ensure to adsorb the dry film D of pending pre- pad pasting work with the pad pasting disk 61 that it is connect by pipeline.

As shown in Fig. 2~3 and Fig. 8~10, film cutter 70 further includes being set to the first slide plate 5211 and the second slide plate 5212 Between and enclose the protective cover 73 outside cutter 71, protective cover 73, which is equipped with, goes out the edge of a knife for cutter 71 is mobile with cut dry film D 731.Specifically, the effect of protective cover 73 can touch the cutter 71 to avoid extraneous component or staff, prevent from damaging Cutter 71 or cutter 71 damage staff, are able to ascend security performance.Wherein, the setting of the edge of a knife can be acted for cutter 71 When stretch out.

As shown in Fig. 2~3 and Fig. 8~10, film cutter 70 further includes being set to the first slide plate 5211 and the second slide plate 5212 Between and be located at cutter 71 cutting moving direction cutter avoiding hollow groove 74.Specifically, the setting of cutter avoiding hollow groove 74 is on the one hand An activity space is provided when carrying out cutting work for cutter 71, it is ensured that diaphragm is gone on smoothly.On the other hand, cutter avoiding hollow groove 74 setting can also avoid because cutting film driving source 72 drives moving out stroke and accidentally contacting other component for cutter 71, into And it can effectively avoid the problem that occurring mutually damage between cutter 71 and remaining part.

As shown in Fig. 2~3 and Fig. 8~10, the side of mounting rack 51 is equipped with third guide rail 515, is equipped in rack 10 along it The third sliding slot 11 of width direction arrangement, third guide rail 515 and third sliding slot 11 are slidably connected so that mounting rack 51 is along rack 10 width direction sliding.Specifically, by being slidably matched between third sliding slot 11 and third guide rail 515 so that mounting rack 51 It can be slided relative to rack 10, then being may be implemented in this way by pulling mounting rack 51 that sliding can be realized by entire pad pasting Module 50 is removed by sliding.It is convenient that pad pasting module 50 is assembled and safeguarded.

As shown in Fig. 1~3, Fig. 5 and Fig. 8~10, the side of mounting rack 51 is equipped with the support rod for being used to support mounting rack 51 516, the bottom end of support rod 516 is equipped with the castor 517 slided for mounting rack 51.Specifically, when sliding pad pasting module 50, by Bottom end in support rod 516 is provided with castor 517, castor 517 can be rotated relative to bottom surface, so as to more quickly Ground pushes and pulls pad pasting module 50.

It holds as shown in figure 5, the outside of mounting rack 51 is equipped with for hand to push and pull mounting rack 51 along the width direction of rack 10 The knob 518 of sliding.Specifically, staff can hold the knob 518, with what the application of mounting rack 51 was pushed or pulled Power may be implemented to apply the power for pushing or pulling to entire pad pasting module 50 in this way, facilitate operation, practical.

As shown in Fig. 4~7 and Fig. 8~10, preceding conveying section 21 includes preceding carriage 211, along the extension side of preceding carriage 211 The preceding conveying roller 212 that several adjacent and ends to before being arranged on carriage 211 pass through the engagement connection of nipper wheel assembly 213 And it is connect on preceding carriage 211 and with the gear of nipper wheel assembly 213 with defeated before driving each preceding conveying roller 212 to rotate Send driving source 214.Specifically, preceding feed drive source 214 can be stepper motor or servo motor etc., pass through preceding feed drive The output end in source 214 is connect with the gear of nipper wheel assembly 213, and nipper wheel assembly 213 includes multiple intermeshings and fixed company Connect the gear in the end of corresponding one preceding conveying roller 212, that is to say, that conveying roller after each gear is correspondingly connected with one 222 end.In this way, remaining gear can be driven to rotate, in this way when one of gear rotation of nipper wheel assembly 213 Each preceding conveying roller 212 of driving can be completed to turn in the same direction, to realize the printing that drive is placed on preceding conveying roller 212 Plate P is mobile.

As shown in Fig. 2~10, laminator further includes centralising device 80, and centralising device 80 includes being respectively arranged on preceding carriage The the first centering plate 81 and the second centering plate 82 of 211 width direction two sides are set to preceding 211 lower section of carriage and for detecting printing Whether plate P is located at the centering sensor 84 between the first centering plate 81 and the second centering plate 82 and is set under preceding carriage 211 Side is mobile to clamp the centering driving source that printed board P carries out centering for driving the first centering plate 81 and/or the second centering plate 82 83, centering driving source 83 and centering sensor 84 are electrically connected.Specifically, centering driving source 83 can use cylinder or electricity Cylinder, it is preferred to use cylinder.When centering sensor 84 senses that there is printed board P in its top, centering sensor 84 is directly or indirectly It is given to 83 signal of centering driving source, then centering driving source 83 at least controls moves in the first centering plate 81 or the second centering plate 82 It is dynamic, and clamp printed board P and realize centering, ensure so preceding conveying section 21 can smoothly, accurately by printed board P input chassis Dry film D is carried out in 10 attaches work.

As shown in Fig. 2~10, there are two centering driving sources 83, two centering driving sources 83 respectively with the first centering plate 81 and The connection of second centering plate 82 is to drive the first centering plate 81 and the second centering plate 82 mobile towards opposite or opposite direction.Specifically , respectively drive the first centering plate 81 and the second centering plate 82 by two centering driving sources 83, such centering process faster, and Stability is more preferable.Wherein, when needing centering, the first centering plate 81 and the second centering plate 82 are mobile simultaneously towards the direction printed board P. When completing centering, the first centering plate 81 and the second centering plate 82 are mobile backwards to the direction printed board P simultaneously.

As shown in Fig. 2~3 and Fig. 6~10, laminator further includes 211 end of carriage and close film pressing device before being installed on 52 dust-extraction unit 90, dust-extraction unit 90 are used to be removed dust to the printed board P before progress dry film D attaching.Dust-extraction unit 90 include being installed on preceding carriage 211 and under Roller for sticking dust 91 and at least one in vertical at least one being distributed corresponding up and down Roller for sticking dust 92, upper Roller for sticking dust 91 and lower Roller for sticking dust 92 are connected to the upper and lower surfaces of printed board P and respectively with printed board P's It moves and rotates to paste the dust on the surface printed board P.Specifically, printed board P is entered under the conveying of preceding conveying section 21 Between Roller for sticking dust 91 and lower Roller for sticking dust 92, upper Roller for sticking dust 91 and lower Roller for sticking dust 92 abut mobile printed board P, and doubling printed board The movement of P and rotate, in rotation process, the surface of upper Roller for sticking dust 91 and lower Roller for sticking dust 92 is bonded the upper surface of printed board P respectively With the dust of lower surface, the dust on removal printed board P can be realized in this way.Wherein, upper Roller for sticking dust 91 and lower Roller for sticking dust 92 Surface is provided with the sticking glue-line of tool.

As shown in Fig. 2~3 and Fig. 6~10, dust-extraction unit 90 further include upper binding dust paper roll 93 and with upper binding dust paper roll 93 It connects and is used to that binding dust paper roll 93 to be driven to abut upper 91 surface of Roller for sticking dust to be bonded with the upper viscous of the dust on 91 surface of Roller for sticking dust It dirt driving source 94 and lower binding dust paper roll 95 and is connect with lower binding dust paper roll 95 and lower viscous for driving lower binding dust paper roll 95 to abut 92 surface of dirt roller is to be bonded the lower binding dust driving source 96 of the dust on lower 92 surface of Roller for sticking dust；Upper binding dust driving source 94 and lower binding dust drive Before dynamic source 96 is mounted on carriage 211.Specifically, the effect of upper binding dust paper roll 93 is the powder being bonded on Roller for sticking dust 91 Dirt, upper binding dust paper roll 93 abut 91 surface of Roller for sticking dust under the action of upper binding dust driving source 94, and with upper Roller for sticking dust 91 It rotates and rotates, and then realize the surface that the dust on upper 91 surface of Roller for sticking dust is bonded in upper binding dust paper roll 93, then last logical It crosses and replaces or remove the binding dust paper roll 93 i.e. thoroughly dust completion removing to the upper surface of printed board P.Similarly, lower dust sticky paper The effect of volume 95 is the dust being bonded on lower Roller for sticking dust 92, under lower binding dust paper roll 95 abuts under the action of lower binding dust driving source 96 92 surface of Roller for sticking dust, and rotated with the rotation of lower Roller for sticking dust 92, and then realize and be bonded the dust on lower 92 surface of Roller for sticking dust On the surface of lower binding dust paper roll 95, then finally by replacing or removing lower binding dust paper roll 95 i.e. thoroughly under printed board P The dust on surface is completed to remove.

As shown in Fig. 2~10, laminator further includes 211 end of carriage and turning over far from film pressing device 52 before being installed on Mechanism 100, upper turning mechanism 100 include the rollover stand 101 plugged into preceding carriage 211 and between 101 both ends of rollover stand At least one roller 102 of plugging into, the both ends of rollover stand 101 and the both ends of preceding carriage 211 are hinged.Specifically, preceding conveying section 21 can To plug into remaining equipment, then can be by the rollover stand 101 by overturning upper turning mechanism 100, then by preceding conveying Section 21 is plugged into remaining equipment, and then overturning rollover stand 101 and resetting makes it plug into the equipment plugged into is needed.It plugs into roller 102 The undertaking auxiliary conveying printed board P of effect, to ensure before printed board P is delivered on conveying roller 212.

As shown in Fig. 2~10, rear conveying section 22 is arranged in including rear carriage 221, along the extending direction of rear carriage 221 The rear conveying roller 222 and be set to that several adjacent and ends on carriage 221 are connected by the engagement of backgear component 223 afterwards The rear feed drive source 224 to drive each rear conveying rotation is connect on carriage 221 and with the gear of backgear component 223 afterwards. Specifically, rear feed drive source 224 can be stepper motor or servo motor etc., pass through the output in rear feed drive source 224 End is connect with the gear of backgear component 223, and backgear component 223 includes multiple intermeshings and is fixedly connected on corresponding one The gear of the end of conveying roller 222 after a, that is to say, that the end of conveying roller 222 after each gear is correspondingly connected with one.This Sample when one of gear of backgear component 223 rotates, can drive remaining gear to rotate, driving can be completed in this way Conveying roller 222 turns in the same direction after each, to realize that the printed board P that drive is placed on rear conveying roller 222 is mobile.

Below in conjunction with shown in attached drawing 1~12, the work of the method for adhering film of the printed board of the embodiment of the present invention is run to laminator It is further described as principle:

Laminator can plug into other automation equipments respectively on preceding conveying section 21 and rear conveying section 22, wherein pass through The rollover stand 101 of turning mechanism 100 is so that preceding carriage 211 is plugged into other automation equipments connect in overturning.When work, print Making sheet P place or by other automation equipments be delivered to be mounted on before carriage 211 several be disposed adjacent it is preceding defeated It send on roller 212, preceding feed drive source 214 drives the gear rotation of nipper wheel assembly 213, and the gear of nipper wheel assembly 213 drives Each rotation of preceding conveying roller 212, which is realized, conveys printed board P.When centering sensor 84 senses that printed board P is delivered to it When top, centering sensor 84 is sent a signal to two centering driving sources 83, and two centering driving sources 83 respectively drive first Centering plate 81 and the second centering plate 82 are mobile towards printed board P and clamp printed board P and complete centering process to printed board P, Latter two right centering driving source 83 respectively drives the first centering plate 81 and the second centering plate 82 backwards to the mobile reset of printed board P.It connects , preceding conveying roller 212 continues to rotate the printed board P that conveying is completed under the driving in preceding feed drive source 214 and passes through dedusting Device 90 is until the front end of printed board P enters in rack 10.The upper Roller for sticking dust 91 of dust-extraction unit 90 and lower Roller for sticking dust 92 divide Not Nian Jie dust on printed board P, then again by upper binding dust paper roll 93 and lower binding dust paper roll 95 be bonded with Roller for sticking dust 91 and under Dust on Roller for sticking dust 92, to realize dedusting.Wherein, the end that D volumes of dry film of the dry film D deposited is rolled up on dry film axis 66 is passed through in advance The guidance for crossing leading axle 67 is adsorbed on pad pasting disk 61.Pre- pad pasting driving source 62 drives pad pasting disk 61 to be moved to and moves closer to print The outer end of plate P, until the dry film D being adsorbed on pad pasting disk 61 is attached to printed board P on the surface of its outer end in advance, so Pre- pad pasting driving source 62 drives pad pasting disk 61 to reset afterwards, wherein in the setting of synchronous rotating shaft 63 and synchromesh gear 64 and rack gear 65 Under, it can be ensured that two pre- pad pasting driving sources 62 drive the both ends of pad pasting disk 61 to stablize movement simultaneously.Printed board P is pasted in completion in advance After film, the film pressing device 52 of pad pasting module 50 drives pressing film roller 522 to move towards the direction of printed board P by sliding driving source 523 It is dynamic, until driving pressing film roller 522 to the surface for being pressed on the pre- end printed board P for posting dry film D, then pass through rotate driving Source 524 drives pressing film roller 522 to rotate, the conveying in conjunction with preceding conveying section 21 to printed board P, and realization on one side does printed board P Film D is attached, and the printed board P that conveying completes that dry film D is attached on one side is delivered to the rear conveying section 22 of transmission device 20.Wherein, it is pressing When deflector roll 522 attaches dry film D, dry film guiding piece 529 plays the role of being oriented to dry film D, prevents dry film D from weighing It is folded.After the surface of one piece of printed board P attaches full dry film D, the film driving source 72 of cutting of starting film cutter 70 drives cutter 71 Dry film D is cut, the dry film D after completing cutting continues to be attracted on pad pasting disk 61.Then the print that dry film D is attached is completed The conveying section 22 after auxiliary conveying roller 527 is delivered to making sheet P, finally feed drive source 224 is logical behind conveying section 22 after Later the rotation of conveying roller 222 is continued on to down after gear assembly 223 drives with the printed board P that conveying roller completes dry film D attaching In one automation equipment or specified position.

The present invention is the good characteristic more than having in summary, is able to enable it in use, promotes institute in conventional art The efficiency that does not have and there is practicability, become the product of a great practical value.

The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in thought of the invention and Made any modification, equivalent replacement or improvement etc., should all be included in the protection scope of the present invention within principle.

Claims (7)

1. a kind of method for adhering film of printed board, for dry film to be attached to printed board, which comprises the following steps:

S1: a preceding conveying section is provided, the printed board for needing to carry out pad pasting is delivered to by specific bit by the preceding conveying section It sets；

S2: the dry film is affixed on close to the surface of its front end by the printed board using pre- film sticking apparatus in advance；

S3: a pressing film roller is provided, and by driving the pressing film roller towards the printed board direction fortune for posting the dry film in advance It moves until the pressing film roller is connected on the dry film；

S4: continuing through the preceding conveying section and the printed board driven to move forward, at the same drive the pressing film roller rotation with The dry film is attached at the printing board surface；

S5: conveying section after providing one, it is defeated to the printed board progress that the dry film attaches will be completed by the rear conveying section It send to next designated position, meanwhile, drive the pressing film roller to reset；

The pre- film sticking apparatus includes:

Pad pasting disk, the pad pasting disk is between the first slide plate and the second slide plate and for adsorbing the dry film；

Synchronous rotating shaft, the both ends of the synchronous rotating shaft are rotatablely connected with the first slide plate and the second slide plate respectively；

Two synchromesh gears, two synchromesh gears are fixedly connected with the both ends of the synchronous rotating shaft respectively；

Two rack gears, one end of two rack gears engaged respectively with two synchromesh gears connection, the other end respectively with institute The both ends for stating pad pasting disk are fixedly connected；

Pre- pad pasting driving source, the pre- pad pasting driving source connect with the pad pasting disk and are used to that the pad pasting disk to be driven to move to incite somebody to action The dry film adsorbed on the pad pasting disk is affixed on printed board close to the surface of its outer end in advance.

2. the method for adhering film of printed board according to claim 1, which is characterized in that in the step S1, described preceding defeated Before sending section to convey the printed board to designated position, centering is corrected to the position of the printed board.

3. the method for adhering film of printed board according to claim 1, which is characterized in that in the step S1, described preceding defeated Before sending section to convey the printed board to designated position, the surface of the printed board is dusted.

4. the method for adhering film of printed board according to claim 3, which is characterized in that in the step S1, removed to completion The printed board after dirt is humidified.

5. the method for adhering film of printed board according to claim 1, which is characterized in that in the step S3, to completion pair The dry film after the printed board dry film attaches is cut off.

6. the method for adhering film of printed board according to claim 2, which is characterized in that in the step S3, by described The dry film after completing cutting is carried out vacuum suction with spare by pad pasting disk.

7. the method for adhering film of described in any item printed boards according to claim 1~6, which is characterized in that in the step S3, Pressure is applied so that the pressing film roller increase is connected to the pressure on the dry film to the pressing film roller.