CN206510560U

CN206510560U - Many film roll laminators

Info

Publication number: CN206510560U
Application number: CN201621126156.5U
Authority: CN
Inventors: 谢扬辉; 王建勋
Original assignee: Luoyang Sowo Precision Machinery Co Ltd
Current assignee: Luoyang Sowo Precision Machinery Co Ltd
Priority date: 2016-10-14
Filing date: 2016-10-14
Publication date: 2017-09-22
Anticipated expiration: 2026-10-14

Abstract

The utility model is related to technical field of automation equipment, more particularly to many film roll laminators, including frame, it is installed in frame for conveying the conveyer of printed board, the dry film frame for placing film roll, the control device for the film sticking apparatus that the dry film of film roll is attached in printed board and for controlling the electrical components of conveyer and film sticking apparatus to work；Frame is additionally provided with the conveying device for conveying the movement of dry film frame, two crossbeams that conveying device includes being arranged at intervals and be installed in frame, be slidably connected between two crossbeams it is multiple be used for support and supply the rack-mounted frame plate matched somebody with somebody of dry film and the dry film frame drive device for driving length direction of each frame plate along two crossbeams to move, electrical components and the control device of dry film frame drive device are electrically connected with.The utility model drives frame plate movement to be changed to realize to dry film frame by dry film frame drive device, need not be taken excessive time in this way, dry film frame is changed, realize rapid automatized work, improving production efficiency.

Description

Many film roll laminators

Technical field

The utility model is related to technical field of automation equipment, more particularly to many film roll laminators.

Background technology

Printed board is important electronic unit, is the supporter of electronic component, is the load of electronic component electrical connection Body, printed board develops into two-sided, multilayer and flexibility from individual layer, and remains on respective development trend, due to constantly Develop to high accuracy, high density and high reliability direction, constantly reduce volume, reduce cost, improve performance so that printed board exists In the development engineering of future electronic equipment, powerful vitality is remained in that.Wherein, printed board needs to be pasted before exposure Dry film process, prior art to printed board paste the laminator of dry film, and it is merely able to the single film roll of device, then when the wound membrane When the dry film of volume is used up, then need to shut down and film roll is changed, downtime is long during replacing, not only causes the time to waste, also Production efficiency is caused to reduce.

Utility model content

The purpose of this utility model is to provide a kind of many film roll laminators, it is intended to solve the laminator of prior art because Change the technical problem that the film roll on dry film frame spends overlong time and causes low production efficiency.

To achieve the above object, the technical solution of the utility model is：A kind of many film roll laminators, including frame, installation In being used to convey the conveyer of printed board, the dry film frame for placing film roll in the frame, for doing the film roll Film is attached at the film sticking apparatus of the printing board surface and for controlling the electronic of the conveyer and the film sticking apparatus The control device of component working；The frame is additionally provided with the conveying device for conveying the dry film frame movement, the conveying dress Put including two crossbeams for being arranged at intervals and being installed in the frame, the multiple use being slidably connected between two crossbeams In support and for the rack-mounted frame plate matched somebody with somebody of the dry film and for driving length direction of each frame plate along two crossbeams Mobile dry film frame drive device, electrical components and the control device of the dry film frame drive device are electrically connected with.

The beneficial effects of the utility model：Many film roll laminators of the present utility model, in use, multiple dry film framves are distinguished It is assemblied on the frame plate of conveying device and fixes, then starts dry film frame drive device and drive each frame plate towards certain side To movement, then when the film roll placed in frame plate moving direction dry film frame foremost is using finishing or need to change When, continue through dry film frame drive device and drive next dry film frame reach, in this way, not needing the replacing dry film frame of overspending Time, many film roll laminators need not be shut down or downtime is extremely short, realize rapid automatized work, lifting production effect Rate.

Brief description of the drawings

The structural representation for many film roll laminators that Fig. 1 provides for the utility model embodiment.

The cutting structural representation for many film roll laminators that Fig. 2 provides for the utility model embodiment.

The side perspective view for many film roll laminators that Fig. 3 provides for the utility model embodiment.

The first viewing angle constructions signal of the conveying device for many film roll laminators that Fig. 4 provides for the utility model embodiment Figure.

Second of viewing angle constructions signal of the conveying device for many film roll laminators that Fig. 5 provides for the utility model embodiment Figure.

The structural decomposition diagram of the conveying device for many film roll laminators that Fig. 6 provides for the utility model embodiment.

The third viewing angle constructions signal of the conveying device for many film roll laminators that Fig. 7 provides for the utility model embodiment Figure.

Fig. 8 is the partial structurtes enlarged diagram at A in Fig. 7.

The first viewing angle constructions signal of the dry film frame for many film roll laminators that Fig. 9 provides for the utility model embodiment Figure.

Second of viewing angle constructions signal of the dry film frame for many film roll laminators that Figure 10 provides for the utility model embodiment Figure.

The structural representation of the guide of the dry film frame for many film roll laminators that Figure 11 provides for the utility model embodiment.

Figure 12 is the partial structurtes enlarged diagram at B in Figure 11.

When the membrane disk of the film drawing device for many film roll laminators that Figure 13 provides for the utility model embodiment is in high-order Structural representation.

When the membrane disk of the film drawing device for many film roll laminators that Figure 14 provides for the utility model embodiment is in low level Structural representation.

The structural decomposition diagram of the film drawing device for many film roll laminators that Figure 15 provides for the utility model embodiment.

The first viewing angle constructions of the useless film device of receipts for many film roll laminators that Figure 16 provides for the utility model embodiment Schematic diagram.

Second of viewing angle constructions of the useless film device of receipts for many film roll laminators that Figure 17 provides for the utility model embodiment Schematic diagram

The useless film device of receipts for many film roll laminators that Figure 18 provides for the utility model embodiment hides the after protective cover A kind of viewing angle constructions schematic diagram

The useless film device of receipts for many film roll laminators that Figure 19 provides for the utility model embodiment hides the after protective cover Two kinds of viewing angle constructions schematic diagrames.

The useless film sucker of the useless film device of receipts for many film roll laminators that Figure 20 provides for the utility model embodiment and movement Structural representation when seat is disconnected.

The structural decomposition diagram of the useless film device of receipts for many film roll laminators that Figure 21 provides for the utility model embodiment.

The first visual angle knot of the auxiliary winder device for many film roll laminators that Figure 22 provides for the utility model embodiment Structure schematic diagram.

Second of visual angle knot of the auxiliary winder device for many film roll laminators that Figure 23 provides for the utility model embodiment Structure schematic diagram.

Reference includes：

10-frame, 20-conveyer, 30-dry film frame

The deflector roll of the deflector roll of 31-support body 32-the first 33-the second

The connecting plate of the connecting plate of 34-guide 35-the first 36-the second

37-tension axis, 38-pulley, 40-film sticking apparatus

50-conveying device, 51-crossbeam, 52-frame plate

53-dry film frame drive device 54-retaining mechanism, 60-film drawing device

61-membrane disk, 62-side installing plate 63-membrane driving source

64-the first useless film device of 70-receipts of the 65-the second travel control device of travel control device

71-Mobile base, 72-fixed seat, 73-guide shaft

74-guide pin bushing, 75-waste suction film drive device 76-useless film sucker

77-movement installing plate 78-intermediate plate, 79-sucker driving source

80-auxiliary winder device the 82-the second side plate of the 81-the first side plate

83-abutment roller, 84-source of rotational drive, 85-winder drive device

86-the first location-plate 100-film roll of the 87-the second location-plate

311-the first installing plate 313-connecting shaft of the 312-the second installing plate

314-the first chute 341-guide plate of the 315-the second chute

342-limiting plate, 343-guide groove, 371-position adjustments hole

521-chute, 531-dry film frame driving source 532-dry film frame transmission mechanism

533-dry film, 542-first clamping plate of bogie linear 541-connecting plate of slide rail

543-second clamping plate, 544-anti-slip veins, 611-membrane vacuum hole

641-the first stroke plate the 642-the first stroke the 643-the first linear slide rail of driving source

651-the second stroke plate the 652-the second stroke the 653-the second linear slide rail of driving source

711-cutter, 712-cutter driving source the 721-the first limit induction device

722-the second limit induction device 723-first baffle, 724-second baffle

725-sensing chip, 731-protective cover, 751-waste suction film driving source

752-the second belt wheel 761-vacuumize 762-latch of hole

771-jack, 781-medial launder, 782-clamping plate

831-soft the cylinder of the cylinder of cushion cover 851-the first 852-the second

The opening of 853-synchronous rotating shaft 861-the first 871-the second is open

Belt wheel 5331-dry film frame the guide rail of 5321-power transmission shaft 5322-the first

5332-dry film frame sliding block the 6432-the first sliding block of the 6431-the first guide rail

6531-the second 7311-empty avoiding of the 6532-the second sliding block of guide rail mouthful

8511-the first front rod the 8521-the second front rod of the 8512-the first back link

8522-the second back link.

Embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element or element with same or like function are represented to same or similar label eventually.Below by ginseng The embodiment for examining the description of accompanying drawing 1~23 is exemplary, it is intended to for explaining the utility model, and it is not intended that to this practicality New limitation.

In description of the present utility model, it is to be understood that term " length ", " width ", " on ", " under ", " preceding ", The orientation or position relationship of the instruction such as " rear ", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer " are based on attached Orientation or position relationship shown in figure, are for only for ease of description the utility model and are described with simplified, rather than indicate or imply Signified device or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this The limitation of utility model.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than, unless otherwise specifically defined.

In the utility model, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. term should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integrally；Can be Mechanically connect or electrically connect；Can be joined directly together, can also be indirectly connected to by intermediary, can be two The connection of element internal or the interaction relationship of two elements.For the ordinary skill in the art, can basis Concrete condition understands concrete meaning of the above-mentioned term in the utility model.

As shown in Fig. 1~3 and Fig. 4~7, a kind of many film roll laminators that the utility model embodiment is provided, including frame 10th, being installed in the frame 10 is used to convey the conveyer 20 of printed board, the dry film frame 30 for placing film roll 100, uses In the dry film of the film roll 100 being attached to the film sticking apparatus 40 of the printing board surface and for controlling the conveyer 20 and the film sticking apparatus 40 electrical components work control device (not shown), control device can for PLC or Person's computer；The frame 10 is additionally provided with for conveying the conveying device 50 that the dry film frame 30 is moved, the conveying device 50 Including be arranged at intervals and be installed in the frame 10 two crossbeams 51, be slidably connected to it is many between two crossbeams 51 It is individual for support and for the dry film frame 30 assemble frame plate 52 and for driving each frame plate 52 along two crossbeams The dry film frame drive device 53 of 51 length direction movement, the electrical components of the dry film frame drive device 53 are filled with the control Put electric connection.

When specifically used, multiple dry film framves 30 are assemblied on the frame plate 52 of conveying device 50 and fixed respectively, then Starting dry film frame drive device 53 drives each frame plate 52 to be moved towards certain direction, then when in the moving direction of frame plate 52 When the film roll 100 placed in dry film frame 30 foremost is using finishing or needing to change, dry film frame drive device is continued through The 53 next dry film framves 30 of driving move forward, in this way, not needing the time for changing dry film frame 30 of overspending, many film roll laminators It need not shut down or downtime is extremely short, realize rapid automatized work, improving production efficiency.

Further, the conveyer 20 and the film sticking apparatus 40 are prior art, not right in the present embodiment Its detailed structure is illustrated.Wherein, the conveyer 20 includes being located at the frame 10 along the printed board input direction One end carries out the preceding transportation section of pad pasting and located at the frame 10 along described so that the printed board is inputted in the frame 10 Printed board outbound course one end is with the rear transportation section outside the printed board output frame 10 by completion pad pasting；The pad pasting Device 40 is including the travelling carriage being slidably mounted on the mounting bracket, the pressing film roller being installed on the travelling carriage, for driving The travelling carriage slides to cause the pressing film roller to abut the printed board between the preceding transportation section and the rear transportation section The slip driving source on surface and it is connected with the pressing film roller and is used to driving the pressing film roller to rotate to attach the dry film In the source of rotational drive 84 of the printing board surface, the source of rotational drive 84 is installed on the travelling carriage.The pad pasting dress Putting 40 also includes being connected with the pressing film roller and is used to drive the pressing film roller that dry film compression is attached at into the printed board The pressure-driven source on surface, the pressure-driven source is installed on the travelling carriage.

As shown in Fig. 4~8, in the present embodiment, the dry film frame drive device 53 includes dry film frame driving source 531, dry film Frame transmission mechanism 532 and the bogie linear slide rail 533 of dry film, the bogie linear slide rail 533 of dry film are installed on described in two on crossbeam 51, The two ends of each length direction of the frame plate 52 are slided by crossbeam 51 described in the bogie linear slide rail 533 and two of dry film described in two respectively to be connected Connect, the dry film frame driving source 531 passes through the dry film frame transmission mechanism 532 and each drive connection of frame plate 52.Specifically, The bogie linear slide rail 533 of dry film, which is installed on two crossbeams 51, to play a part of guiding to the movement of each clamping plate 782, that is to say really Protecting the dry film frame 30 driven can move along the length direction of crossbeam 51.Due to for support and for the frame of the assembling of dry film frame 30 Plate 52 has multiple, so, and dry film frame driving source 531 connects multiple frame plates 52 by dry film frame transmission mechanism 532, and dry film frame drives When dynamic source 531 starts, each frame plate 52 is driven to move toward the direction by dry film frame transmission mechanism 532, in this way, can be real Each dry film frame 30 is now driven to move, then to pass through the movement of dry film frame 30, you can to realize the replacing of dry film frame 30, dry film frame 30 Replacing realize the replacing of film roll 100 on dry film frame 30, reasonable in design is practical.

As also shown in e.g. figs. 4-7, in the present embodiment, the dry film frame transmission mechanism 532 includes being rotationally connected with crossbeam described in two Two power transmission shafts 5321 at the two ends of 51 length directions, located at the power transmission shaft 5321 close to its two ends the first belt wheel 5322 with And it is set around the first belt (not shown) between first belt wheel 5322 of two same side ends of the power transmission shaft 5321, Each frame plate 52 is fixedly connected with first belt, the dry film frame driving source 531 and power transmission shaft 5321 wherein described in one Drive connection.Specifically, dry film frame driving source 531 drives a wherein power transmission shaft 5321 to rotate, when the power transmission shaft 5321 is rotated, its Two the first belt wheels 5322 that itself two ends is set also realize rotation, by under the drive of the first belt, another power transmission shaft 5321 also realize and rotate, in this way, dry film frame driving source 531 can drive the first belt to realize the rotations of both forward and reverse directions.Due to each Individual frame plate 52 is fixedly connected with the first belt, then the first belt realizes motion, and correspondingly, each frame plate 52 also realizes motion, The dry film frame 30 assembled on each frame plate 52 is driven to move so as to realize.

In other embodiments, the dry film frame transmission mechanism 532 can also be the structure that rack-and-pinion coordinates, or It is the structure that screw mandrel and travelling nut coordinate, is no longer described in detail herein.

As shown in Fig. 7~8, in the present embodiment, the bogie linear slide rail 533 of dry film includes dry film frame guide rail 5331 and many Individual dry film frame sliding block 5332, length direction of the dry film frame guide rail 5331 along the crossbeam 51 is installed on the crossbeam 51 On, each dry film frame sliding block 5332 is slidably connected with the dry film frame guide rail 5331, and a dry film frame sliding block 5332 Correspondence is fixedly connected with one end of a frame plate 52.Specifically, dry film frame sliding block 5332 and dry film frame guide rail 5331 are matched somebody with somebody Close, the mobile accuracy of formation is high, that is to say, that frame plate 52 is realized by dry film frame sliding block 5332 and dry film frame guide rail 5331 to be slided Dynamic connection, it can be ensured that frame plate 52 is moved along the volume length direction of crossbeam 51 all the time in movement.Meanwhile, the bogie linear cunning of dry film The setting of rail 533 can also lift the intensity during work of frame plate 52, stability and reliability when lifting frame plate 52 is used.

As can be seen from figures 6 to 8, in the present embodiment, the two ends of the frame plate 52 are respectively equipped with retaining mechanism 54, the locking machine Structure 54 includes connecting plate 541, first clamping plate 542, second clamping plate 543 and locking member (not shown), the connecting plate 541 and institute The bottom for stating frame plate 52 is fixedly connected with the sidepiece of the dry film frame sliding block 5332, the first clamping plate 542 and the connecting plate 541 bottom is fixedly connected, and the second clamping plate 543 is located between the first clamping plate 542 and the dry film frame guide rail 5331, First belt is located between the first clamping plate 542 and the second clamping plate 543 and worn by the locking member described First clamping plate 542, first belt and the second clamping plate 543 are connected to first folder so that first belt lock to be close to Between plate 542 and the second clamping plate 543.Specifically, the first belt is placed between first clamping plate 542 and second clamping plate 543, Then locking member is sequentially worn to first clamping plate 542, the first belt and second clamping plate 543, the first belt is locked in this way, realizing , it is necessary to further illustrate between first clamping plate 542 and second clamping plate 543, first clamping plate 542 and second clamping plate 543 with And first belt be correspondingly provided with and wear the mounting hole of locking for locking member.Wherein, mounting hole can be via or screw；Locking Part can be using bolt, screw or screw etc..In addition, connection and first clamping plate 542 between connecting plate 541 and frame plate 52 Connection between connecting plate 541 can be using bolt, screw or screw etc..

As shown in fig. 6, in the present embodiment, the first clamping plate 542 and/or the second clamping plate 543 and first skin Surface with contact is provided with anti-slip veins 544.Specifically, the setting of anti-slip veins 544 can strengthen first clamping plate 542 and/or second The frictional force of clamping plate 543 and belt contacts, it is to avoid excessive phase is produced between belt and first clamping plate 542 and second clamping plate 543 To sliding, in this way, the stability and reliability of first clamping plate 542 and the clamping belt of second clamping plate 543 can be strengthened.

As shown in Fig. 9~10, in the present embodiment, the bottom of the dry film frame 30, which is provided with pulley 38, the frame plate 52, to be set Have and roll to be assemblied in the dry film frame 30 into the chute 521 on the frame plate 52 for the pulley 38.Specifically, chute 521 setting can be slided for pulley 38 and play positioning to pulley 38, and dry film frame 30 is assembled on frame plate 52 in this way, working as When, dry film frame 30 can be promoted with the cooperation between pulley 38 and chute 521, dry film frame 30 is assembled to frame plate 52 to realize On, and dry film frame 30, when being assembled on frame plate 52, chute 521 plays position-limiting action to pulley 38, prevents dry film frame 30 from moving, behaviour Make simple and convenient, it is practical using reliable and stable.

In the present embodiment, the dry film frame driving source 531 is servomotor, stepper motor, alternating current generator or direct current Machine.Specifically, advantage according to demand with various motors, can select servomotor, stepper motor, alternating current generator or direct current Motor is used as dry film frame driving source 531.

As shown in figs. 9 to 12, in the present embodiment, the dry film frame 30 include support body 31 and it is removable be arranged at it is described The first deflector roll 32 on support body 31 and for being installed for the film roll 100 and for the diaphragm that winds the film roll 100 Two deflector rolls 33；The bottom of the pulley 38 and the support body 31 is detachably connected, and one end of the support body 31 is set towards stretching out There is guide 34, the guide 34 offers the guiding for guide and limit to be worn and carried out to the dry film for the dry film Groove 343.Specifically, in use, film roll 100 (i.e. dry film roll 100 into film roll 100) is assembled in the first deflector roll 32, then The diaphragm of film roll 100 is torn and on the second roll shaft, the end of the dry film separated in film roll 100 with diaphragm is worn The guide groove 343 that guide 34 is opened up is crossed, can be spacing in guide groove 343 by the terminal guide of dry film by guide groove 343 At position, the end of dry film is limited so as to realize, in this way, the end of dry film can be avoided to be in excessively free shape State, so that convenient follow-up to dry film progress membrane.

As shown in Figure 11~12, in the present embodiment, the guide 34 includes the end of guide plate 341 and guide plate 341 Portion is towards the limiting plate 342 for being folded upward at and being formed with the guide plate 341 spacing, and the guide groove 343 is opened in described spacing Between plate 342 and the guide plate 341.Specifically, guide plate 341 and the facing setting of limiting plate 342, so can be right respectively Two faces progress of dry film is spacing, and by the way that the end of dry film is passed through into guide groove 343, that is, realizes dry film being limited in guide plate Between 341 and limiting plate 342.In this way, the end of dry film is avoided because excessively freely being difficult to carry out it by manipulator Control is pulled.Wherein, limiting plate 342 and the preferred design that is formed in one of guide plate 341, for example, from metal and can pass through forging The mode made is produced.

As shown in Fig. 9~10, in the present embodiment, the support body 31 includes spaced first installing plate 311 and second Installing plate 312 and at least one connecting shaft being fixedly connected between the installing plate 312 of the first installing plate 311 and second 313, first deflector roll 32 and second deflector roll 33 are rotatably installed on first installing plate 311 and second peace Fill between plate 312, the guide 34 is connected to the end of first installing plate 311 and described the same side of second installing plate 312 Portion.Specifically, connecting shaft 313 is fixedly connected on the first installing plate 311 and the second installing plate 312, so forms a frame Body 31.Wherein, the quantity of connecting shaft 313 can be two or more, in addition, connecting shaft 313 is preferably provided at the first installing plate 311 With the edge of the opposite position of the second installing plate 312, the installation to miscellaneous part is avoided to cause interference as far as possible.Meanwhile, first The installing plate 312 of installing plate 311 and second is additionally operable to be connected with frame 10.

As shown in figure 9, in the present embodiment, first installing plate 311 and second installing plate 312 and the guide The connecting plate 54135 of connecting plate 541 first and the connecting plate 54136 of connecting plate 541 second, the guide are connected between 34 34 are connected to the end of the connecting plate 54135 of connecting plate 541 first and the same side of 541 second connecting plate of the connecting plate 54136 Portion.Specifically, the connecting plate 54135 of connecting plate 541 first and the connecting plate 54136 of connecting plate 541 second be provided for be oriented to Part 34, which is installed, to be fixed；Meanwhile, the spacing completed between the deflector roll 32 of guide 34 and first after installing can be allowd to increase, In this way, the distance between deflector roll 32 of guide 34 and first can play a part of buffering when pulled to dry film.Guide 34 Connection between the connecting plate 54135 of connecting plate 541 first and the connecting plate 54136 of connecting plate 541 second can use fastener Locking connection is connected using modes such as welding, rivetings.

As shown in figure 9, in the present embodiment, the connecting plate 54135 of connecting plate 541 first and the connecting plate 541 second The tension axis 37 of the dry film winding is supplied between connecting plate 54136 provided with least one.Specifically, the quantity of tension axis 37 can be with For two or more, preferably be arranged side by side two of horizontal direction.What the setting of tension axis 37 can change dry film walks film direction, And certain tension force is played to it to tighten dry film, so that dry film normally walks film.

As shown in figure 9, in the present embodiment, the connecting plate 54135 of connecting plate 541 first and the connecting plate 541 second Connecting plate 54136 offers multiple position adjustments holes 371 installed side by side and for the two ends for the tension axis 37 respectively.Tool Body, the multiple position adjustments holes 371 being arranged side by side arrange in above-below direction, so tension axis 37 can be selectively mounted to compared with It is upper or relatively under position walk film demand with meet dry film.

As shown in Fig. 9~10, in the present embodiment, first installing plate 311 and second installing plate 312 are offered The chute 521314 of chute 521 first installed for the end of first deflector roll 32 and the end installation for second deflector roll 33 The chute 521315 of chute 521 second.Specifically, the setting of the chute 521314 of chute 521 first is not only pacified for the first deflector roll 32 The dry film film roll 100 wound in dress, the first deflector roll 32 is with using, and its external diameter is gradually reduced, and in the chute of chute 521 first Slide to adjust to optimal position on 521314；Similarly, the setting of the chute 521315 of chute 521 second not only supplies the second deflector roll 33 install, and the diaphragm wound in the second deflector roll 33 is with using, and its external diameter gradually increases, and in the chute of chute 521 second Slide to adjust to optimal position on 521315.So, it is ensured that the normal of dry film frame 30 is used.

As shown in Figure 13~15, in the present embodiment, film drawing device 60, the film drawing device 60 are additionally provided with the frame 10 Two side installing plates being oppositely arranged including the membrane disk 61 for adsorbing the dry film for wearing the guide groove 343, interval 62 and two membrane driving sources 63 being individually fixed on two side installing plates 62, two membrane driving sources 63 Output end is fixedly connected with the two ends of the membrane disk 61 and drives the membrane disk 61 to move that the drawing will be adsorbed in respectively The dry film on membranous disc 61, which is pulled to, to be attached in the printed board；The electrical components of the film drawing device 60 and the control Device is electrically connected with.Specifically, this drives connected membrane disk 61 in two side installing plates 62 by membrane driving source 63 Between moved relative to side installing plate 62, membrane disk 61 adsorb dry film and during movement pull dry film arrive printed board Specified location, next step film process is carried out to realize by the dry film adsorbed on membrane disk 61.

The film drawing device 60 of the utility model embodiment, can be pulled to specified location automatically by dry film, so as to realize certainly Dynamicization is operated, the artificial operation of reduction, improves production efficiency, due to that will be done in same level and horizontal line by membrane disk 6110 The end of film is pulled to specified location, is so also beneficial to follow-up pre- film process, it is to avoid pre- pad pasting out-of-flatness and again occur Folded etc. the problem of, and then the follow-up quality to the pre- patch of dry film can be greatly promoted.

In the present embodiment, the membrane driving source 63 is slider cylinder.Certainly, in other embodiments, membrane driving source 63 can be using common cylinder, small-sized electric cylinders or transmission mechanism is constituted with motor.Wherein, the number of membrane driving source 63 Measure as two stationarities that may insure the driving to membrane disk 61 more preferably.

As shown in Figure 13~14, in the present embodiment, the film drawing device 60 also includes the first travel control device 64, described First travel control device 64 include two respectively close to two the first stroke plates 641 in two side installing plates 62 and It is individually fixed in two the first stroke driving sources 642 on two the first stroke plates 641, two the first stroke drivings The output end in source 642 is connected with two side installing plates 62 and drives two side installing plates 62 to move respectively.Specifically, First stroke plate 641 is installed and fixed for the first stroke driving source 642.Two can be driven by the first stroke driving source 642 Installing plate is moved, in this way, driving membrane disk 61 is moved indirectly, it is real that such first stroke driving source 642 combines membrane driving source 63 Bigger driving stroke is now formed to membrane disk 61, it is applied widely.

In the present embodiment, the first stroke driving source 642 is the first Rodless cylinder.Certainly, in other embodiments, One stroke driving source 642 can use common cylinder, small-sized electric cylinders or transmission mechanism is constituted with motor.Wherein, The quantity of one stroke driving source 642 is two and may insure the stationarity of the driving to two side installing plates 62 more preferably.

As shown in Figure 13~14, in the present embodiment, first travel control device 64 also includes being respectively arranged in two Two the first linear slide rails 643 on the first stroke plate 641, two side installing plates 62 respectively with two described first Linear slide rail 643 is slidably connected.Specifically, the setting of the first linear slide rail 643 may insure two side installing plates 62 along One linear slide rail 643 is simultaneously moved with the first linear slide rail 643 for guiding, so as to avoid two side installing plates 62 from being moved through Deviate the moving direction of setting in journey.

As shown in Figure 13~14, in the present embodiment, first linear slide rail 643 include the first guide rail 6431 and with it is described The first sliding block 6432 that first guide rail 6431 is slidably connected, first guide rail 6431 is installed on the first stroke plate 641, First sliding block 6432 is fixedly connected with the side installing plate 62.Specifically, side installing plate 62 is existed by the first sliding block 6432 Slided on first guide rail 6431, that is, realize that installing plate is moved relative to the first stroke plate 641, guidance quality is good, precision is high, carries significantly Rise stability and reliability of the installing plate when being moved relative to the first stroke plate 641.

As shown in Figure 13~14, in the present embodiment, the film drawing device 60 also includes the second travel control device 65, described Second travel control device 65 includes two respectively close in two the second stroke plates 651 of two the first stroke plates 641 And it is individually fixed in two the second stroke driving sources 652 on two the second stroke plates 651, two second strokes The output end of driving source 652 is connected with two the first stroke plates 641 and drives two the first stroke plates 641 to move respectively It is dynamic.Specifically, the second stroke plate 651 is installed and fixed for the second stroke driving source 652.Can by the second stroke driving source 652 To drive two the first stroke plates 641 to move, in this way, driving membrane disk 61 is moved indirectly, such second forms driving edge set First stroke driving source 642 and membrane driving source 63, which are realized, further to be increased the driving stroke of the formation of membrane disk 61, is applicable model Enclose wider.

In the present embodiment, the second stroke driving source 652 is the second Rodless cylinder.Certainly, in other embodiments, Two stroke driving sources 652 can use common cylinder, small-sized electric cylinders or transmission mechanism is constituted with motor.Wherein, The quantity of two stroke driving sources 652 is two and may insure the stationarity of the driving to two the first stroke plates 641 more preferably.

As shown in Figure 13~14, in the present embodiment, second travel control device 65 also includes being respectively arranged in two Two the second linear slide rails 653 on the second stroke plate 651, two the first stroke plates 641 respectively with described in two Second linear slide rail 653 is slidably connected.Specifically, the setting of the second linear slide rail 653 may insure two the first stroke plates 641 Moved along the second linear slide rail 653 and with the second linear slide rail 653 for guiding, so as to avoid two the first stroke plates 641 deviate the moving direction of setting in moving process.

As shown in Figure 13~14, in the present embodiment, second linear slide rail 653 include the second guide rail 6531 and with it is described The second sliding block 6532 that second guide rail 6531 is slidably connected, second guide rail 6531 is installed on the second stroke plate 651, Second sliding block 6532 is fixedly connected with the first stroke plate 641.Specifically, the first stroke plate 641 passes through the second sliding block 6532 slide on the second guide rail 6531, that is, realize that the first stroke plate 641 is moved relative to the second stroke plate 651, guidance quality is good, Precision is high, greatly promotes stability and reliability of the first stroke plate 641 when being moved relative to the second stroke plate 651.

As shown in Figure 13~15, in the present embodiment, the surface of the membrane disk 61 is used to connect vacuum hair provided with several Raw device (not shown) is with the membrane vacuum hole 611 to dry film progress vacuumizing and adsorbing.Specifically, the effect of vacuum generator It is to be vacuumized, dry film can be adsorbed with the membrane disk 61 that it is connected by pipeline by being so able to ensure that, design science is closed Reason, it is practical.

As shown in Figure 16~21, in the present embodiment, the useless film device 70 of receipts is additionally provided with the frame 10, it is described to receive useless film dress Put 70 fixed seats 72 being oppositely arranged including Mobile base 71, two, the guide shaft 73 being connected between fixed seat 72 described in two, be sheathed on The guide shaft 73 is outer and the guide pin bushing 74 that is slidably connected with the guide shaft 73 and is connected with the guide pin bushing 74 and drives the guide pin bushing The 74 waste suction film drive devices 75 slided along the length direction of the guide shaft 73, the Mobile base 71 is installed on the guide pin bushing 74 On, the Mobile base 71, which is provided with, to be connected with extraneous vacuum generator and moves described for absorption with the Mobile base 71 Dry film completes the useless film sucker 76 of the useless film formed after cutting；The electrical components and the control device for receiving useless film device 70 It is electrically connected with.Specifically, length direction of the guide pin bushing 74 along guide shaft 73 is driven to move back and forth by waste suction film drive device 75, that Also realize and moved back and forth along the length direction of guide shaft 73 with the Mobile base 71 that is installed on guide pin bushing 74, due to the film sucker 76 that gives up Realize on Mobile base 71 and with Mobile base 71 and move, then dry film completes the useless film formed after cutting by useless film sucker 76 instant absorptive collections, in this way, receiving useless membrane operations realizes automation, can either save human cost, production effect can be improved again Rate, it is practical.

As shown in figure 21, in the present embodiment, the Mobile base 71 is provided with mobile installing plate 77, the mobile installing plate 77 Offer and hoodle screw (not shown) is provided with jack 771, the jack 771, the bottom of the useless film sucker 76 is provided with latch 762, the latch 762 is inserted in the jack 771 and the hoodle screw is connected.Specifically, inserted by latch 762 The mating connection that jack 771 is realized with hoodle screw that is to say to be detachably connected, and when in the insertion jack 771 of latch 762, insert Pin 762 realizes clamping with hoodle screw automatically, when the external force that application is up pulled out is acted on latch 762, you can drive latch 762 depart from the clamping with the hoodle screw in jack 771.In this way, being that achievable useless film sucker 76 realizes removable with Mobile base 71 Connection is unloaded, so that convenient changed or safeguarded to useless film sucker 76.

As shown in Figure 16 and Figure 18~21, in the present embodiment, between the mobile installing plate 77 and the useless film sucker 76 Provided with intermediate plate 78, the intermediate plate 78 is offered on the medial launder 781 for latch described in empty avoiding 762, the intermediate plate 78 Provided with being set positioned at the top both sides of medial launder 781 and for clamping in the clamping plate 782 of the latch 762, the fixed seat 72 Have and be connected with the outer end of the intermediate plate 78 to drive the sucker driving source 79 that the intermediate plate 78 moves up and down, wherein, it is middle The outer end of plate 78 can bend certain angle and shape fixed come the drive end with sucker driving source 79 according to the demand of installation Connection.Specifically, the driving of sucker driving source 79 intermediate plate 78 rises, i.e., the clamping plate of the clamping latch 762 set on intermediate plate 78 782, which can clamp latch 762, rises so that latch 762 depart from and jack 771 in hoodle screw between clamping. Under the driving of waste suction film drive device 75, length direction of the cutter 711 along guide shaft 73 can be individually driven to move so as to dry Film is cut, in this way, cutting film and collecting useless film to work independently.When needing to cut film and collect useless film while when working, after Continuous to drive intermediate plate 78 to decline by sucker driving source 79, i.e., the clamping plate 782 of the clamping latch 762 set on intermediate plate 78 can be pressed from both sides Latch 762 is handled to decline, so that clamping is realized between hoodle screw in the insertion jack 771 of latch 762, now, and by The medial launder 781 of empty avoiding latch 762 is offered in intermediate plate 78, then when Mobile base 71 is moved, latch 762 can be in medial launder Mobile in 781 that interference is caused without the setting by intermediate plate 78, smart structural design is practical.

Further, can be with used setting elastic component (not shown) when two clamping plates 782 are arranged on the top of intermediate plate 78 So that two clamping plates 782 are respectively facing other side and produce elastic force, latch 762 is then clamped by the elastic force, so, i.e., Latch 762 is enabled to by the clamping of clamping plate 782 when external force can be applied to latch 762.

Preferably, the sucker driving source 79 is cylinder.Certainly, sucker driving source 79 can also be other structures, for example, Can be motor and screw mandrel and the fit structure of nut, or motor and the fit structure of rack-and-pinion.

It should be further stated that, being fixedly connected between part and part is related in the present embodiment can use Fastener realizes connection, and fastener can be screw, screw or bolt etc., then accordingly, phase can be set on part The perforation or screwed hole answered to be connected with fastener.

As shown in Figure 19 and Figure 21, in the present embodiment, the waste suction film drive device 75 include waste suction film driving source 751 with And be connected between the waste suction film driving source 751 and the guide pin bushing 74 so that the waste suction film driving source 751 drives described lead The waste suction film transmission mechanism that length direction of the set 74 along the guide shaft 73 is slided.Specifically, setting by waste suction film transmission mechanism Put, the power of waste suction film driving source 751 can be caused to be converted into driving guide pin bushing 74 along guide shaft 73 by waste suction film transmission mechanism The power of length direction motion.Wherein, the structure that waste suction film transmission mechanism can coordinate for rack-and-pinion, or screw mandrel and movement The structure that nut coordinates.

As shown in Figure 18~19 and Figure 21, in the present embodiment, the waste suction film transmission mechanism includes being installed on solid described in two Two second belt wheels 752 in the outside of reservation 72 and the second belt being set around between the second belt wheel 752 described in two, second skin Band is fixedly connected with the guide pin bushing 74, the waste suction film driving source 751 be installed in the fixed seat 72 and with the fixed seat 72 The drive connection of the second belt wheel 752 of upper setting.Specifically, waste suction film driving source 751 work when, drive one of them second Belt wheel 752 is rotated, because the second belt is around being located between two the second belt wheels 752, then can be achieved to drive the second skin Band does reciprocal rotation.Now, the guide pin bushing 74 being connected with the second belt followed by length side of second belt along guide shaft 73 To motion, length direction of the Mobile base 71 along guide shaft 73 is driven to move in this way, realizing, the cutter 711 set on Mobile base 71 Realized in motion process and dry film is cut, good cutting effect is practical.

In the present embodiment, the waste suction film driving source 751 is servomotor, stepper motor, alternating current generator or direct current Machine.Specifically, according to demand during actual production, servomotor, stepper motor, alternating current generator or direct current generator can be used As waste suction film driving source 751, in other words, suction is used as using servomotor, stepper motor, alternating current generator or direct current generator Useless film driving source 751 can be realized by waste suction film transmission mechanism to drive guide pin bushing 74 to slide.

As shown in Figure 17~19 and Figure 21, in the present embodiment, the inner side of fixed seat 72 described in two is respectively equipped with inhales with described The first limit induction device 721 and the second limit induction device 722 that useless film driving source 751 is electrically connected with, the bottom of the Mobile base 71 Portion is provided with to be connected to limit the guide pin bushing for the first limit induction device 721 and the second limit induction device 722 sensing 74 along the sliding stroke of the length direction of the guide shaft 73 sensing chip 725.Specifically, the length when guide pin bushing 74 along guide shaft 73 When direction is moved during distalmost end, sensing chip 725 realizes that sensing is connected with the second limit induction device 722, now, the second limit induction Device 722 is signaled to waste suction film driving source 751, and the reverse drive guide pin bushing 74 of waste suction film driving source 751 is back slided, then until Sensing chip 725 realizes that sensing is connected with the first restriction inductor, and now, the first limit induction device 721 is signaled to waste suction film Driving source 751, waste suction film driving source 751 stops driving guide pin bushing 74 and slided, in this way, completing the cutting dry film action of single.It is logical Cross the setting of the first limit induction device 721 and the second limit induction device 722, it is ensured that waste suction film driving source 751 drives guide pin bushing 74 Slided in certain stroke, it is to avoid guide pin bushing 74 collides miscellaneous part and security incident occurs, it is ensured that the work of cutting dry film is just Often carry out, lift the security performance of production.

As shown in Figure 16~21, in the present embodiment, the inner side of fixed seat 72 described in two is respectively equipped with positioned at the described first limit The front of position inductor 721 and the first baffle 723 and second baffle 724 in the front of the second limit induction device 722.Specifically, The setting of first baffle 723 and second baffle 724 respectively can be to the first limit induction device 721 and the second limit induction device 722 Play a part of protection, you can collide the first limit induction device 721 and the second limit with other action components for avoiding laminator Position inductor 722.

As shown in Figure 16~21, in the present embodiment, it is exposed in the Mobile base 71 provided with blade outside the Mobile base 71 And for cutting the cutter 711 of dry film.It that is to say, in the moving process of Mobile base 71, while being carried out by cutter 711 to dry film Cutting, collects while will complete the remaining useless film absorption of the dry film after cutting by the film sucker 76 that gives up, cuts film and collect useless film reality Now one automation, additionally it is possible to realize lifting to the planarization of dry film cutting and the production efficiency of cutting dry film.

As shown in Figure 16 and Figure 18~21, in the present embodiment, cutter driving source 712, institute are additionally provided with the Mobile base 71 The drive end for stating cutter driving source 712 is connected with the cutter 711 and drives the cutter 711 to rotate.Specifically, in cutter During 711 slide, further cutter 711 is driven to rotate by cutter driving source 712, cutter 711 is in high speed rotation status Under it is sharper, in this way, advantageously carrying out quick effectively cutting to dry film in cutter 711.

Preferably, the cutter driving source 712 is direct driving motor.The power of direct driving motor is strong, and its output end can be straight Connect and be connected with cutter 711, so directly drive cutter 711 to rotate by the output end of direct driving motor, reduce the loss of power, protect Card cutter 711, which can be realized, to be rotated at a high speed.

It is described to receive useless film device 70 also including enclosing located at described in the present embodiment as shown in Figure 16~17 and Figure 20~21 The protective cover 731 that the outside and two ends of guide shaft 73 are fixedly connected with fixed seat described in two 72 respectively, the side of the protective cover 731 Provided with for the Mobile base 71 exposed empty avoiding mouthful 7311.Specifically, protective cover 731 is to guide shaft 73 and is socketed on outside guide shaft 73 Guide pin bushing 74 play a part of protection, you can prevent miscellaneous part from touching guide shaft 73 and guide pin bushing 74 easily, it is ensured that guide pin bushing 74 exists Do not disturbed in the course of work by miscellaneous part, so that it is guaranteed that cutting being normally carried out for film work.

As shown in Figure 16, Figure 18 and Figure 20~21, in the present embodiment, the surface of the useless film sucker 76 is offered by pipe What road was connected with the vacuum generator vacuumizes hole 761.Specifically, vacuum generator is being vacuumized at hole 761 by pipeline Vacuumizing and adsorbing is carried out to useless film, so, the remaining useless film of dry film after cutting is completed i.e. by the adsorption of useless film sucker 76 Firmly, prevent useless film from dropping and influenceing the work of miscellaneous part.

As shown in Figure 22~23, in the present embodiment, it is additionally provided with the frame 10 for driving the film roll 100 to return automatically The auxiliary winder device 80 of dry film is received, the auxiliary winder device 80 includes the first side plate 81 and the second side that relative spacing is set Plate 82, the abutment roller 83 being rotationally connected between first side plate 81 and second side plate 82, it is installed on first side On plate 81 or second side plate 82 and for driving the source of rotational drive 84 of the rotation of abutment roller 83 and for driving State the first side plate 81 and second side plate 82 is rotated such that the abutment roller 83 is connected to the winder driving of the film roll 100 Device 85；The electrical components of the auxiliary winder device 80 are electrically connected with the control device.Specifically, driven by winder Device 85 drives the first side plate 81 and the second side plate 82 to rotate, and abutting is driven simultaneously when the first side plate 81 and the rotation of the second side plate 82 Roller 83 is revolved round the sun certain angle, until abutment roller 83 is connected to the film roll 100 on dry film frame 30, now, source of rotational drive 84 is driven The dynamic rotation of abutment roller 83 is rotated, because abutment roller 83 is connected in film roll 100, when the autobiography of abutment roller 83 is rotated with film roll 100 it Between produce frictional force, drive film roll 100 to rotate by the frictional force, film roll 100 rotate when, you can reclaim dry film cause dry film weight Newly in film roll 100, so as to realize that the film roll 100 on driving dry film frame 30 reclaims dry film automatically, without passing through artificial hand Dynamic operation, lifts the efficiency of winder；Meanwhile, staff can be avoided to be damaged by workpiece, improve security during production Energy.

As shown in Figure 22~23, in the present embodiment, the source of rotational drive 84 is rotary electric machine, and the rotary electric machine is installed In on first side plate 81 or second side plate 82 and the rotary electric machine main shaft and the abutment roller 83 one end Drive connection.Specifically, the main shaft of rotary electric machine can by one end drive connection of shaft coupling (not shown) and abutment roller 83, The two ends of wherein abutment roller 83 are each passed through the outside to the first side plate 81 and the second side plate 82, so facilitate the master of rotary electric machine Axle and the outer end drive connection of abutment roller 83.Wherein, perforation (not shown) can be opened up on the first side plate 81 and the second side plate 82, And installation bearing (not shown) wears and realized and the first side plate 81 and the second side plate for the two ends of abutment roller 83 in the perforation 82 rotate connection.In this way, when rotary electric machine driving abutment roller 83 is rotated, abutment roller 83 can be relative to the first side plate 81 and the Two side plates 82 realize that autobiography is rotated, and 100 turns of film roll is driven by abutting the frictional force produced with film roll 100 in rotation process It is dynamic, and then realize that driving film roll 100 reclaims dry film automatically.

As shown in Figure 22~23, in the present embodiment, the rotary electric machine be servomotor, stepper motor, alternating current generator or Person's direct current generator.Specifically, according to demand during actual production, can using servomotor, stepper motor, alternating current generator or Direct current generator is as source of rotational drive 84, in other words, using servomotor, stepper motor, alternating current generator or direct current generator It can realize that driving abutment roller 83 is rotated as source of rotational drive 84.

As shown in Figure 22~23, in the present embodiment, soft cushion cover 831 is socketed with outside the abutment roller 83.Specifically, pass through Soft cushion cover 831 is abutted with film roll 100, can increase the frictional force between film roll 100, so, it can be ensured that abutment roller 83 By the frictional force film roll 100 can be driven to rotate during rotation, and then realize that driving film roll 100 reclaims dry film automatically.Soft balsam Set can be made of plastic materials such as rubber, rubber and plastics.

As shown in Figure 22~23, in the present embodiment, the winder drive device 85 includes the first cylinder 851, the second cylinder 852 and synchronous rotating shaft 853, the synchronous rotating shaft 853 is rotationally connected between first side plate 81 and second side plate 82 And it is located at the piston rod difference of the top of the abutment roller 83, the piston rod of first cylinder 851 and second cylinder 852 It is fixedly connected with first side plate 81 and second side plate 82 and drives first side plate 81 and second side respectively Plate 82 is rotated centered on the synchronous rotating shaft 853.Specifically, due to rotating connection between the first side plate 81 and the second side plate 82 There is a synchronous rotating shaft 853, then when synchronous rotating shaft 853 is in stationary state, pass through the piston rod and second of the first cylinder 851 The piston rod of cylinder 852 it is flexible, to drive the first side plate 81 respectively with the rotation junction of the side plate 81 of synchronous rotating shaft 853 and first Rotated for axle center (axle center that is to say synchronous rotating shaft 853), and drive the second side plate 82 with the side plate of synchronous rotating shaft 853 and second 82 rotation junction rotates for axle center (axle center that is to say synchronous rotating shaft 853), now, the first side plate 81 and the second side plate 82 During with synchronous rotating shaft 853 for axis rotation, the first side plate 81 and the second side plate 82 drive abutment roller 83 with synchronous rotating shaft 853 simultaneously For axis rotation, until abutment roller 83 is connected in the film roll 100 on dry film frame 30, reasonable in design, practicality.

As shown in Figure 22~23, in the present embodiment, the auxiliary winder device 80 also includes the first location-plate 86, and described the The first end of one location-plate 86 is fixedly connected with the cylinder body of first cylinder 851, the second end of first location-plate 86 with The synchronous rotating shaft 853 is fixedly connected.Specifically, the setting of the first location-plate 86 can both be installed for the first cylinder 851, simultaneously Synchronous rotating shaft 853 can be fixed, ensure synchronous rotating shaft 853 be in it is motionless in the state of when, the piston rod of the first cylinder 851 During stretching, can drive the first installing plate 311 with the synchronous rotating shaft 853 be axle center rotated, so, it can be ensured that drive to Connect roller 83 to be connected in film roll 100, stability and reliability when lifting is used.

As shown in Figure 22~23, further, the first location-plate 86 can offer the first opening 861 for same in its one end Step rotating shaft 853 is worn, and is then locked first opening 861 using fastener (not shown), so that synchronous rotating shaft 853 Achieved a fixed connection with the first location-plate 86.Wherein, fastener can be screw, bolt or screw etc..

As shown in Figure 22~23, in the present embodiment, first location-plate 86 be arranged in parallel with first cylinder 851. Specifically, the piston rod end of the first cylinder 851 can connect a first perpendicular front rod 8511, and by this first Front rod 8511 is fixedly connected with the outside of the first installing plate 311, and the cylinder ends of the first cylinder 851 can connect one and its The first vertical back link 8512, and be fixedly connected by first back link 8512 with the first location-plate 86, so can be true When protecting the piston rod action of the first cylinder 851, it is axis rotation with synchronous rotating shaft 853 that can drive the first installing plate 311.

As shown in Figure 22~23, in the present embodiment, the auxiliary winder device 80 also includes the second location-plate 87, and described the The first end of two location-plates 87 is fixedly connected with the cylinder body of second cylinder 852, the second end of second location-plate 87 with The synchronous rotating shaft 853 is fixedly connected.Specifically, the setting of the second location-plate 87 can both be installed for the second cylinder 852, simultaneously Synchronous rotating shaft 853 can be fixed, ensure synchronous rotating shaft 853 be in it is motionless in the state of when, the piston rod of the second cylinder 852 During stretching, can drive the second installing plate 312 with the synchronous rotating shaft 853 be axle center rotated, so, it can be ensured that drive to Connect roller 83 to be connected in film roll 100, stability and reliability when further lifting is used.

As shown in Figure 22~23, further, the second location-plate 87 can equally offer the second opening 871 in its one end Wear, then lock second opening 871 using fastener (not shown), so that synchronous turn for synchronous rotating shaft 853 Axle 853 achieves a fixed connection with the second location-plate 87.Wherein, fastener can be screw, bolt or screw etc..

As shown in Figure 22~23, in the present embodiment, second location-plate 87 be arranged in parallel with second cylinder 852. Specifically, the piston rod end of the second cylinder 852 can connect a second perpendicular front rod 8521, and by this second Front rod 8521 is fixedly connected with the outside of the second installing plate 312, and the cylinder ends of the second cylinder 852 can connect one and its The second vertical back link 8522, and be fixedly connected by second back link 8522 with the second location-plate 87, so can be true When protecting the piston rod action of the second cylinder 852, it is axis rotation with synchronous rotating shaft 853 that can drive the second installing plate 312.

The installation site of each device in the present embodiment can carry out adaptation setting according to actual conditions, and quantity is preferred For two, so pad pasting can be carried out to two surfaces of printed board simultaneously.

The operation principle to many film roll laminators in the present embodiment makees overall briefly describe below：

Printed board is conveyed using the conveyer 20 of the laminator of prior art to it, meanwhile, start dry film frame and drive Dynamic device 53 drives each frame plate 52 to be moved towards certain direction, and frame plate 52 drives dry film frame 30 to move, on dry film frame 30 Film roll 100 is also moved towards front, when dry film frame 30 is moved to the position of setting, passes through the membrane driving source of film drawing device 60 The 63 connected membrane disks 61 of driving are moved between two side installing plates 62 relative to side installing plate 62, and membrane disk 61 is adsorbed Firmly the dry film of film roll 100 and during movement pull dry film arrive certain position, then, pass through receive give up film device 70 suction Useless film drive device 75 drives length direction of the guide pin bushing 74 along guide shaft 73 to move back and forth, then with the shifting being installed on guide pin bushing 74 Dynamic seat 71 is also realized to be moved back and forth along the length direction of guide shaft 73, due to useless film sucker 76 be arranged on Mobile base 71 and with Mobile base 71 realizes movement, then the useless film that dry film is formed after completing cutting through cutter 711 by useless film sucker 76, receive immediately by absorption Collection, then the dry film after completing cutting is pulled to the specified location for being attached to printed board through film drawing device 60, film sticking apparatus 40 starts Dry film is attached in printed board.When needing winder, start the driving of winder drive device 85 first of auxiliary winder device 80 The side plate 82 of side plate 81 and second is rotated, and drives abutment roller 83 to revolve round the sun simultaneously when the first side plate 81 and the rotation of the second side plate 82 certain Angle, until abutment roller 83 is connected to the film roll 100 on dry film frame 30, now, the driving rotation of abutment roller 83 of source of rotational drive 84 Rotate, because abutment roller 83 is connected in film roll 100, frictional force is produced between film roll 100 when the autobiography of abutment roller 83 is rotated, is led to Crossing the frictional force drives film roll 100 to rotate, when film roll 100 is rotated, you can reclaim dry film and dry film is rewound in film roll 100 On, so as to realize that the film roll 100 on driving dry film frame 30 reclaims dry film automatically, without by manual hand manipulation, lifting winder Efficiency；Meanwhile, staff can be avoided to be damaged by workpiece, improve security performance during production.

It is, with above-described good characteristic, to be able to make it using upper, promote to understand the utility model in summary The efficiency that does not have in conventional art and with practicality, the product as a great practical value.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model Any modification, equivalent substitution or improvement made within the thought and principle of utility model etc., should be included in the utility model Protection domain within.

Claims

1. a kind of many film roll laminators, including frame, it is installed in the frame and is used to convey the conveyer of printed board, is used for The dry film frame of film roll is placed, for the dry film of the film roll to be attached to the film sticking apparatus of the printing board surface and for controlling Make the control device of the electrical components work of the conveyer and the film sticking apparatus；It is characterized in that：The frame is also set There is the conveying device for conveying the dry film frame movement, the conveying device includes being arranged at intervals and being installed in the frame Two crossbeams, be slidably connected between two crossbeams it is multiple be used for support and for the rack-mounted frame plate matched somebody with somebody of the dry film with And the dry film frame drive device for driving length direction of each frame plate along two crossbeams to move, the dry film frame drive The electrical components of dynamic device are electrically connected with the control device.

2. many film roll laminators according to claim 1, it is characterised in that：The dry film frame drive device includes dry film frame Driving source, dry film frame transmission mechanism and the bogie linear slide rail of dry film, the bogie linear slide rail of dry film are installed on described in two on crossbeam, The two ends of each frame plate length direction are slidably connected by the bogie linear slide rail of dry film described in two and crossbeam described in two respectively, described Dry film frame driving source passes through the dry film frame transmission mechanism and each frame plate drive connection.

3. many film roll laminators according to claim 2, it is characterised in that：The dry film frame transmission mechanism includes the company of rotation Be connected to the two ends of crossbeam length direction described in two two power transmission shafts, located at the power transmission shaft close to its two ends the first belt wheel with And be set around the first belt between first belt wheel of two same side ends of power transmission shaft, each frame plate with it is described First belt is fixedly connected, the dry film frame driving source and power transmission shaft drive connection wherein described in one.

4. many film roll laminators according to claim 3, it is characterised in that：The bogie linear slide rail of dry film includes dry film frame Guide rail and multiple dry film frame sliding blocks, length direction of the dry film frame guide rail along the crossbeam are installed on the crossbeam, Each dry film frame sliding block is slidably connected with the dry film frame guide rail, and described in a dry film frame sliding block correspondence and one One end of frame plate is fixedly connected.

5. many film roll laminators according to claim 4, it is characterised in that：The two ends of the frame plate are respectively equipped with locking machine Structure, the retaining mechanism includes connecting plate, first clamping plate, second clamping plate and locking member, the connecting plate and the frame plate Bottom is fixedly connected with the sidepiece of the dry film frame sliding block, and the first clamping plate is fixedly connected with the bottom of the connecting plate, institute State second clamping plate be located between the first clamping plate and the dry film frame guide rail, first belt be located at the first clamping plate and Between the second clamping plate and by the locking member wear the first clamping plate, first belt and the second clamping plate with First belt lock is close to and is connected between the first clamping plate and the second clamping plate.

6. many film roll laminators according to claim 5, it is characterised in that：The first clamping plate and/or second folder The surface of plate and first belt contacts is provided with anti-slip veins.

7. many film roll laminators according to any one of claim 1~6, it is characterised in that：The bottom of the dry film frame is set There is a pulley, the frame plate is provided with for the pulley rolling so as to by the rack-mounted chute assigned on the frame plate of the dry film.

8. many film roll laminators according to claim 7, it is characterised in that：The dry film frame includes support body and dismantled and assembled Be arranged on the support body and the first deflector roll for being installed for the film roll and the diaphragm for winding the film roll Second deflector roll；The bottom of the pulley and the support body is detachably connected, and one end of the support body is provided with towards stretching out to be oriented to Part, the guide offers the guide groove for guide and limit to be worn and carried out to the dry film for the dry film.

9. many film roll laminators according to claim 8, it is characterised in that：The guide includes guide plate and guiding The end of plate towards be folded upward at and with the limiting plate of guide plate formation spacing, the guide groove be opened in the limiting plate with Between the guide plate.

10. many film roll laminators according to claim 8, it is characterised in that：The support body includes spaced first Installing plate and the second installing plate and at least one connection being fixedly connected between first installing plate and the second installing plate Axle, first deflector roll and second deflector roll be rotatably installed on first installing plate and second installing plate it Between, the guide is connected to the end of first installing plate and described second installing plate the same side.

11. many film roll laminators according to claim 10, it is characterised in that：First installing plate and second peace The first connecting plate and the second connecting plate are connected between dress plate and the guide, the guide is connected to described first Connecting plate and the end of described second connecting plate the same side.

12. many film roll laminators according to claim 11, it is characterised in that：First connecting plate and described second connects The tension axis of the dry film winding is supplied between fishplate bar provided with least one.

13. many film roll laminators according to claim 12, it is characterised in that：First connecting plate and described second connects Fishplate bar offers multiple position adjustments holes installed side by side and for the two ends for the tension axis respectively.

14. many film roll laminators according to claim 10, it is characterised in that：First installing plate and second peace Dress plate offers that the first chute for being installed for the end of first deflector roll and the end for second deflector roll are installed Two chutes.

15. many film roll laminators according to claim 8, it is characterised in that：Film drawing device, institute are additionally provided with the frame Stating film drawing device includes two sides peace for adsorbing the membrane disk for the dry film for wearing the guide groove, interval is oppositely arranged Dress plate and two membrane driving sources being individually fixed on two side installing plates, the output of two membrane driving sources End is fixedly connected with the two ends of the membrane disk and drives the membrane disk movement to be adsorbed on the membrane disk respectively The dry film, which is pulled to, to be attached in the printed board；The electrical components of the film drawing device electrically connect with the control device Connect.

16. many film roll laminators according to claim 15, it is characterised in that：The membrane driving source is slider cylinder.

17. many film roll laminators according to claim 15, it is characterised in that：The film drawing device also includes the first stroke Control device, first travel control device includes two respectively close in two the first strokes of two side installing plates Plate and two the first stroke driving sources being individually fixed on two the first stroke plates, two the first stroke drivings The output end in source is connected with two side installing plates and drives two side installing plate movements respectively.

18. many film roll laminators according to claim 17, it is characterised in that：The first stroke driving source is the first nothing Bar cylinder.

19. many film roll laminators according to claim 17, it is characterised in that：First travel control device also includes Be respectively arranged in two the first linear slide rails on two the first stroke plates, two side installing plates respectively with two institutes The first linear slide rail is stated to be slidably connected.

20. many film roll laminators according to claim 19, it is characterised in that：First linear slide rail is led including first Rail and the first sliding block being slidably connected with first guide rail, first guide rail is installed on the first stroke plate, described First sliding block is fixedly connected with the side installing plate.

21. many film roll laminators according to claim 17, it is characterised in that：The film drawing device also includes the second stroke Control device, second travel control device includes two respectively close in two the second rows of two the first stroke plates Journey plate and two the second stroke driving sources being individually fixed on two the second stroke plates, two second strokes drive The output end in dynamic source is connected with two the first stroke plates and drives two the first stroke plate movements respectively.

22. many film roll laminators according to claim 21, it is characterised in that：The second stroke driving source is the second nothing Bar cylinder.

23. many film roll laminators according to claim 21, it is characterised in that：Second travel control device is also wrapped Include two the second linear slide rails being respectively arranged on two the second stroke plates, two the first stroke plates are respectively with two Individual second linear slide rail is slidably connected.

24. many film roll laminators according to claim 23, it is characterised in that：Second linear slide rail is led including second Rail and the second sliding block being slidably connected with second guide rail, second guide rail is installed on the second stroke plate, described Second sliding block is fixedly connected with the first stroke plate.

25. many film roll laminators according to claim 15, it is characterised in that：The surface of the membrane disk is provided with several For connecting vacuum generator with the membrane vacuum hole to dry film progress vacuumizing and adsorbing.

26. many film roll laminators according to any one of claim 1~6, it is characterised in that：Receipts are additionally provided with the frame Useless film device, the useless film device of the receipts includes Mobile base, two fixed seats being oppositely arranged, is connected between fixed seat described in two Guide shaft, it is sheathed on the guide shaft outer and the guide pin bushing that is slidably connected with the guide shaft and be connected and led described in driving with the guide pin bushing The waste suction film drive device slided along the length direction of the guide shaft is covered, the Mobile base is installed on the guide pin bushing, described to move Dynamic seat, which is provided with, to be connected with extraneous vacuum generator and completes to cut for the absorption dry film with the Mobile base movement The useless film sucker of the useless film formed afterwards；The electrical components for receiving useless film device are electrically connected with the control device.

27. many film roll laminators according to claim 26, it is characterised in that：The Mobile base is installed provided with mobile Plate, the mobile installing plate offers and hoodle screw is provided with jack, the jack, and the bottom of the useless film sucker is provided with slotting Pin, the latch is inserted in the jack and the hoodle screw is connected.

28. many film roll laminators according to claim 27, it is characterised in that：The mobile installing plate is inhaled with the useless film Intermediate plate is provided between disk, the intermediate plate offers the medial launder for latch described in empty avoiding, and the intermediate plate is provided with position Both sides and the clamping plate for clamping the latch above the medial launder, the fixed seat is provided with outer with the intermediate plate End connects to drive the sucker driving source that the intermediate plate moves up and down.

29. many film roll laminators according to claim 26, it is characterised in that：The waste suction film drive device includes waste suction Film driving source and it is connected between the waste suction film driving source and the guide pin bushing so that waste suction film driving source driving is described The waste suction film transmission mechanism that length direction of the guide pin bushing along the guide shaft is slided.

30. many film roll laminators according to claim 29, it is characterised in that：The waste suction film transmission mechanism includes installing In two second belt wheels described in two on the outside of fixed seat and the second belt being set around between the second belt wheel described in two, described second Belt is fixedly connected with the guide pin bushing, and the waste suction film driving source is installed in the fixed seat and with being set in the fixed seat The second belt wheel drive connection.

31. many film roll laminators according to claim 29, it is characterised in that：The waste suction film driving source is servo electricity Machine, stepper motor, alternating current generator or direct current generator.

32. many film roll laminators according to claim 31, it is characterised in that：It is respectively equipped with described in two on the inside of fixed seat The the first limit induction device and the second limit induction device being electrically connected with the waste suction film driving source, the bottom of the Mobile base is set Have and connected for the first limit induction device and the second limit induction device sensing to limit the guide pin bushing along the guide shaft Length direction sliding stroke sensing chip.

33. many film roll laminators according to claim 32, it is characterised in that：It is respectively equipped with described in two on the inside of fixed seat First baffle and second baffle in front of the first limit induction device and in front of the second limit induction device.

34. many film roll laminators according to claim 26, it is characterised in that：It is exposed in the Mobile base provided with blade The Mobile base is outer and for cutting the cutter of dry film.

35. many film roll laminators according to claim 34, it is characterised in that：Cutter driving is additionally provided with the Mobile base Source, the drive end of the cutter driving source is connected with the cutter and drives the cutter to rotate.

36. many film roll laminators according to claim 35, it is characterised in that：The cutter driving source is direct driving motor.

37. many film roll laminators according to claim 26, it is characterised in that：The film device that gives up of receiving also includes enclosing being located at The protective cover that the outside and two ends of the guide shaft are fixedly connected with fixed seat described in two respectively, the side of the protective cover is provided with confession The Mobile base exposed empty avoiding mouthful.

38. many film roll laminators according to claim 26, it is characterised in that：The surface of the useless film sucker offers logical Piping with the vacuum generator is connected vacuumizes hole.

39. many film roll laminators according to any one of claim 1~6, it is characterised in that：Use is additionally provided with the frame In the auxiliary winder device for driving the film roll to reclaim dry film automatically, the auxiliary winder device include that relative spacing sets the Side plate and the second side plate, the abutment roller being rotationally connected between first side plate and second side plate, be installed on it is described On first side plate or second side plate and for driving source of rotational drive that the abutment roller rotates and described for driving First side plate and second side plate are rotated such that the abutment roller is connected to the winder drive device of the film roll；It is described auxiliary The electrical components and the control device for helping winder device are electrically connected with.

40. many film roll laminators according to claim 39, it is characterised in that：The source of rotational drive is rotary electric machine, The rotary electric machine is installed on first side plate or second side plate and the main shaft of the rotary electric machine is supported with described Connect one end drive connection of roller.

41. many film roll laminators according to claim 39, it is characterised in that：Soft pad is socketed with outside the abutment roller Set.

42. many film roll laminators according to claim 39, it is characterised in that：The winder drive device includes the first gas Cylinder, the second cylinder and synchronous rotating shaft, the synchronous rotating shaft be rotationally connected between first side plate and second side plate and Positioned at the top of the abutment roller, the piston rod of the piston rod of first cylinder and second cylinder is respectively with described Side plate be fixedly connected with second side plate and drive first side plate respectively and second side plate with the synchronization turn Rotated centered on axle.

43. many film roll laminators according to claim 42, it is characterised in that：The auxiliary winder device also includes first Location-plate, the first end of first location-plate is fixedly connected with the cylinder body of first cylinder, and the of first location-plate Two ends are fixedly connected with the synchronous rotating shaft.

44. many film roll laminators according to claim 43, it is characterised in that：First location-plate and first gas Cylinder be arranged in parallel.

45. many film roll laminators according to claim 42, it is characterised in that：The auxiliary winder device also includes second Location-plate, the first end of second location-plate is fixedly connected with the cylinder body of second cylinder, and the of second location-plate Two ends are fixedly connected with the synchronous rotating shaft.

46. many film roll laminators according to claim 45, it is characterised in that：Second location-plate and second gas Cylinder be arranged in parallel.