CN105857794B - Dyestripping equipment - Google Patents
Dyestripping equipment Download PDFInfo
- Publication number
- CN105857794B CN105857794B CN201610301126.1A CN201610301126A CN105857794B CN 105857794 B CN105857794 B CN 105857794B CN 201610301126 A CN201610301126 A CN 201610301126A CN 105857794 B CN105857794 B CN 105857794B
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- CN
- China
- Prior art keywords
- coating
- idler wheel
- thin film
- plank
- protective film
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
- B65B69/00—Unpacking of articles or materials, not otherwise provided for
Abstract
A kind of dyestripping equipment, including rack, transmission device, centralising device, coating back-off assembly, thin film removing device, film collecting device, defective products apparatus for temporary storage and control device.When being moved away from the protective film of coating plank, coating plank is first placed in transmission device, and keep it placed in the middle by centralising device;Then, coating plank is sent to designated position by transmission device;Followed by by the protective film of coating back-off assembly release coating plank;Then, entire protective film is removed by thin film removing device, and collects removed protective film by film collecting device;After complete; if there is defective products in thin film removing operation; defective products can be kept in by defective products apparatus for temporary storage; if it is not, the coating plank for removing protective film is sent to designated position by transmission device, whole operation is automation mechanized operation; both human cost is saved; production efficiency is improved again, meanwhile, it can also preferably ensure the removal quality of the protective film of large scale pcb board.
Description
Technical field
The present invention relates to the technical fields of pcb board material processing more particularly to a kind of for tearing guarantor on coating pcb board material off
The dyestripping equipment of cuticula.
Background technology
Currently, for machine large-sized pcb board semi-finished product (in pcb board professional standard, the length and width ruler of PCB
Very little maximum value be 640mm × 640mm), generally can respectively be covered using two protective films thereon, lower surface, thereby protect
The upper and lower surface of large-sized pcb board, and need when being further processed to large-sized pcb board semi-finished product, as long as moving
Except the protective film on the upper and lower surface of large-sized pcb board.And the embodiment for currently tearing protective film off is commonly:
Manual operation is used, specifically, in the protective film on the upper and lower surface for tearing large-sized pcb board off, first passes through scraper to lift
The edge for playing protective film, then tears the protective film off by human hand again.But such embodiment not only inefficiency, people
Power is of high cost, and is easy to scratch the surface of pcb board when starting an edge of protective film using scraper and/or scratches protection
Film largely effects on manufacturing schedule.
Therefore, it is necessary to provide a kind of technological means to solve drawbacks described above.
Invention content
It is an object of the invention to overcome the defect of the prior art, a kind of dyestripping equipment is provided, to solve in the prior art
In the protective film on the upper and lower surface for tearing large-sized pcb board off, there are inefficiency, of high cost and be easy to scratch big ruler
The surface of very little pcb board and/or the problem of scratch protective film.
The invention is realized in this way dyestripping equipment, for tearing the protective film on coating plank off, including:
For the rack of each component installation settings;
Coating plank to be sent to the transmission device of designated position, the transmission device includes being set to the rack
So that the coating plank is placed and is transported to designated position to carry out the preceding transportation section of dyestripping operation and be set on one end
The coating plank for having carried out dyestripping operation to be delivered to the rear transportation section of designated position on the other end of the rack;
The coating plank to be placed on the preceding transportation section of the transmission device is close in the preceding transportation section
The centralising device of heart position, the centralising device include moving to lean on middle mobile structure set on the first of the side of the preceding transportation section
Middle movement simultaneously second is leaned in part, the mobile other side set on the preceding transportation section with described first by what middle mobile member was oppositely arranged
Component and connect by middle mobile member by middle mobile member and described second on the preceding transportation section and respectively with described first
It connects and leans on middle driving source by the movement of middle mobile member by middle mobile member and described second for driving described first;
To the coating back-off assembly for unclamping the protective film of the coating plank, the coating back-off assembly includes being set to
Coating in the rack and between the preceding transportation section and the rear transportation section unclamps mounting plate, is mobile set on the packet
Film unclamps the upper end of mounting plate, and to unclamp, the first coating of the protective film of coating plank upper end unclamps component and movement is set to
The coating unclamps the lower end of mounting plate and unclamps component to unclamp the second coating of the protective film of coating plank lower end, described
Coating unclamp mounting plate middle position offer one for the coating plank by the first coating unclamp inlet and outlet;
To remove the thin film removing device of the protective film on the coating plank unclamped through the coating back-off assembly,
The thin film removing device include be set in the rack and be adjacent to the coating unclamp mounting plate thin film removing mounting bracket,
Rotation is pasted set on the upper end of the thin film removing mounting bracket with paste the protective film for removing coating plank upper end first
Idler wheel, rotation paste the second of the protective film for removing coating plank lower end set on the lower end of the thin film removing mounting bracket
It pastes idler wheel and pastes idler wheel and/or the second stickup idler wheel on the thin film removing mounting bracket and with described first
Connection is to drive the described first thin film removing driving source for pasting idler wheel and/or the second stickup idler wheel rotation work;
Film to collect the protective film for being removed out by the thin film removing device on the coating plank collects dress
It sets, the film collecting device includes being set on the thin film removing mounting bracket to be removed by the first stickup idler wheel to collect
First collection assembly of the protective film of the coating plank and on the thin film removing mounting bracket to collect by described second
Paste the second collection assembly of the protective film for the coating plank that idler wheel removes;
To the temporary defective products apparatus for temporary storage of the defective products for forming the coating plank during thin film removing, institute
Defective products apparatus for temporary storage is stated in the rack and neighbouring or positioned at the rear transportation section of the transmission device;
To control the control device of electrical components work, the control device respectively with the transmission device, described right
Middle device, the coating back-off assembly, the thin film removing device, the film collecting device and the defective products apparatus for temporary storage
Electrical connection.
The technique effect of dyestripping equipment of the present invention is:When being moved away from the protective film of coating plank, first coating plank is set
Keep it placed in the middle in transmission device, and by centralising device;Then, coating plank is sent to designated position by transmission device;It connects again
It, the protective film of coating plank is unclamped by coating back-off assembly;Then, entire protective film is removed by thin film removing device, and
Removed protective film is collected by film collecting device;It, can be by bad if there is defective products in thin film removing operation after complete
Product apparatus for temporary storage keeps in defective products, if it is not, the coating plank for removing protective film is sent to by designated position by transmission device, it is whole
A operation is automation mechanized operation, not only saves human cost, but also improve production efficiency, meanwhile, it can also preferably ensure large scale PCB
The removal quality of the protective film of plate.
Description of the drawings
Fig. 1 is the stereogram of the dyestripping equipment of the present invention;
Fig. 2 is that the dyestripping equipment of the present invention removes the schematic diagram after rack;
Fig. 3 be Fig. 2 in A-A to sectional view;
Fig. 4 is the structural schematic diagram of the centralising device of the dyestripping equipment of the present invention;
Fig. 5 is the structural schematic diagram of the coating back-off assembly of the dyestripping equipment of the present invention;
Fig. 6 is the structural schematic diagram of the thin film removing device of the dyestripping equipment of the present invention;
Fig. 7 is the schematic diagram of another angles of Fig. 6;
Fig. 8 is the sectional view of B-B direction in Fig. 7;
Fig. 9 is the structural schematic diagram of the defective products apparatus for temporary storage of the dyestripping equipment of the present invention.
Specific implementation mode
In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, right
The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and
It is not used in the restriction present invention.
It please refers to Fig.1 to Fig. 9, the embodiment of the dyestripping equipment of the present invention is described in detail below.
The dyestripping equipment 100 of the present embodiment, for tearing the protective film on coating plank P off, wherein in the present embodiment,
Coating plank P is the pcb board that upper and lower surface is covered with protective film, and certainly, coating plank P also can be to be covered with protective film
Other planks;In addition, according in pcb board professional standard, the maximum value of the length and width dimensions of PCB is 640mm × 640mm, then,
The length and width dimensions of pcb board in the present embodiment are no more than 640mm × 640mm.The dyestripping equipment 100 includes rack 10, transmission dress
Set 20, centralising device 30, coating back-off assembly 40, thin film removing device 50, film collecting device 60, defective products apparatus for temporary storage 70
With control device 80, each component of the dyestripping equipment 100 is described further below:
Rack 10 is for being installed for each component, is frame structure;
Transmission device 20 is coating plank P is sent to designated position, wherein transmission device 20 includes being set to rack
On 10 one end for coating plank P is placed and be transported to designated position with carry out dyestripping operation preceding transportation section 21 and
The coating plank P for having carried out dyestripping operation to be delivered to the rear transportation section 22 of designated position on the other end of rack 10;
Centralising device 30 is to lean on transportation section forward to the coating plank P being placed on the preceding transportation section 21 of transmission device 20
21 center, wherein centralising device 30 includes moving to be set to along the conveying direction for conveying article perpendicular to preceding transportation section 21
The first of the side of preceding transportation section 21 is moved by middle mobile member 31, along the conveying direction for conveying article perpendicular to preceding transportation section 21
Set on preceding transportation section 21 the other side and with first by middle mobile member 31 be oppositely arranged second by middle mobile member 32 and setting
In being connect on preceding transportation section 21 and respectively by middle mobile member 32 by middle mobile member 31 and second with first for driving the
One leans on middle driving source 33 by middle mobile member 31 and second by what middle mobile member 32 moved;
Coating back-off assembly 40 is to unclamp the protective film of coating plank P, wherein coating back-off assembly 40 includes setting
In the coating in rack 10 and between preceding transportation section 21 and rear transportation section 22 unclamps mounting plate 41, the mobile coating that is set to unclamps
To unclamp, the first coating of the protective film of the upper ends coating plank P unclamps component 42 and movement is set to coating for the upper end of mounting plate 41
It unclamps the lower end of mounting plate 41 and unclamps component 43 to unclamp the second coating of the protective film of the lower ends coating plank P, coating unclamps peace
The middle position of loading board 41 offer one for coating plank P by the first coating unclamp inlet and outlet;
Thin film removing device 50 is the protective film to remove on the coating plank P unclamped through coating back-off assembly 40,
In, thin film removing device 50 include be set to rack 10 on and be adjacent to coating unclamp mounting plate 41 thin film removing mounting bracket 51,
Rotation pastes idler wheel set on the upper end of thin film removing mounting bracket 51 with paste the protective film for removing the upper ends coating plank P first
52, rotation pastes rolling set on the lower end of thin film removing mounting bracket 51 with paste the protective film for removing the lower ends coating plank P second
It takes turns 53 and is connect on thin film removing mounting bracket 51 and with the first stickup stickup idler wheel 53 of idler wheel 52 and/or second to drive
First pastes the thin film removing driving source 54 that idler wheel 52 and/or second pastes 53 rotation work of idler wheel;
Film collecting device 60 is to remove protective film out by thin film removing device 50 on coating plank P to collect
, wherein film collecting device 60 includes being set on thin film removing mounting bracket 51 to be removed by the first stickup idler wheel 52 to collect
It first collection assembly 61 of the protective film of coating plank P and is rolled with collecting to be pasted by second on the thin film removing mounting bracket 51
Second collection assembly 62 of the protective film for the coating plank P that wheel 53 removes;
Defective products apparatus for temporary storage 70 is to be kept in the defective products for forming coating plank P during thin film removing,
In, defective products apparatus for temporary storage 70 is simultaneously neighbouring in rack 10 or positioned at the rear transportation section 22 of transmission device 20;
Control device 80 is to control electrical components work comprising a control panel 81, and control device 80 is distinguished
With transmission device 20, centralising device 30, coating back-off assembly 40, thin film removing device 50, film collecting device 60 and defective products
Apparatus for temporary storage 70 is electrically connected.
The dyestripping equipment 100 of the present embodiment is mainly by rack 10, transmission device 20, centralising device 30, coating back-off assembly
40, thin film removing device 50, film collecting device 60, defective products apparatus for temporary storage 70 and control device 80 form, and are being moved away from coating
When the protective film of plank P, coating plank P is first placed in the preceding transportation section 21 of transmission device 20;Then, made by centralising device 30
Coating plank P is placed in the middle, works by middle driving source 33 specifically, being controlled by control device 80, and leans on middle driving source 33 that can drive the
One relatively moves by middle mobile member 31, second by middle mobile member 32, so that coating plank P leans on middle mobile member by first
31, second it is pushed to the middle position of preceding transportation section 21 by middle mobile member 32, in favor of the subsequent operation of coating plank P;
Then, coating plank P is sent to designated position by the preceding transportation section 21 of transmission device 20;Followed by by coating back-off assembly 40
The protective film of coating plank P is unclamped, once specifically, coating plank P, which enters the first coating, unclamps inlet and outlet 411, control device
80, which control preceding transportation section 21, is stopped, and controls the first coating and unclamp component 42, the release start-up operation of component 43 of the second coating,
So that the protective film of the upper and lower end faces coating plank P can be unclamped component 42 by the first coating, the second coating unclamps 43 pine of component
It opens;Then, control device 80 controls preceding transportation section 21 and works on, and coating plank P is sent to thin film removing and collecting zone
Quilt can remove entire protective film by thin film removing device 50 at the region, and is collected by film collecting device 60 by place
The protective film of removal works specifically, control device 80 controls thin film removing driving source 54, and thin film removing driving source 54 can drive
Make the first stickup idler wheel 52 and second paste idler wheel 53 to work, so that the protective film of the upper and lower end faces coating plank P is pasted by first
Idler wheel 52, second pastes idler wheel 53 and pastes removal;Simultaneously, it is collected by the first collection assembly 61 and is moved by the first stickup idler wheel 52
The protective film of the coating plank P removed, and the coating plate removed by the second stickup idler wheel 53 is collected by the second collection assembly 62
The protective film of material P;Later, the coating plank P for having carried out thin film removing operation is sent from thin film removing and collecting zone to rear defeated
It send in section 22, is discharged with that can be sent by rear transportation section 22 to specified location;Simultaneously, the coating for having carried out thin film removing operation
Plank P can be judged the defective products whether belonged in dyestripping operation, if judging to be that can be kept in by defective products apparatus for temporary storage 70,
If judgement is no, can designated position be directly sent to by the rear transportation section 22 of transmission device 20.
Whole operation is automation mechanized operation, not only saves human cost, but also improve production efficiency, meanwhile, can also preferably it protect
Demonstrate,prove the removal quality of the protective film of large scale pcb board.
Referring to Fig. 6, the preferred embodiment of the thin film removing mounting bracket 51 in the present embodiment is comprising the first riser
511, in moving up and down the first movement plate 512 of upper end set on the first riser 511, the second riser 513 and set in moving up and down
The second movable plate 514 in the upper end of the second riser 513, the first riser 511 and the second riser 513 interval are arranged, and lead to respectively
It crosses screw connection manner to be connected and fixed in rack 10, simultaneously, the rwo is formed with pastes the stickup idler wheel of idler wheel 52 and second for first
The thin film removing installation cavity 515 of 53 installation settings;
First, which pastes idler wheel 52, is set in thin film removing installation cavity 515, and one end of the first stickup idler wheel 52 is connected to
First movement plate 512, the other end are connected to the second movable plate 514;
Second, which pastes idler wheel 53, is set in thin film removing installation cavity 515, and one end of the second stickup idler wheel 53 is connected to
The lower end of first riser 511, the other end are connected to the lower end of the second riser 513.
And by the setting of the first riser 511, first movement plate 512, the second riser 513 and the second movable plate 514, in addition to
The installation settings for being conducive to thin film removing mounting bracket 51 may also be advantageous for realizing the function needed for it.
In order to make to the first stickup idler wheel 52 can to realize and move up and down setting function, with can be according to different coating plank P's
Thickness and adjust the first stickup idler wheel 52 and second paste idler wheel 53 between spacing distance, in the present embodiment, the embodiment party
Formula is specially:
The upper end of first riser 511 is equipped with the first stepped groove 5111, and the first stepped groove 5111 includes the first open slot and position
The width of the second open slot being connected to below the first open slot and with the first open slot, the first open slot is more than the second open slot
Width so that between the first open slot and the second open slot junction formed a step;It is horizontal that first open slot is equipped with first
The width of beam 516, first crossbeam 516 is less than the width of the first open slot and the width more than the second open slot, can be made with this
First crossbeam 516 is firmly arranged on the step that junction is formed between the first open slot and the second open slot;First movement plate
512 are set in the second open slot, and are connect with first crossbeam 516 by one first telescopic moving unit 517, wherein preferably,
The first telescopic moving unit 517 is a telescopic cylinder;
The upper end of second riser 513 is equipped with the second stepped groove 5131, and the second stepped groove 5131 includes third open slot and position
The 4th open slot being connected to below third open slot and with third open slot, the width of third open slot are opened more than the described 4th
The width of mouth slot, so that junction forms a step between third open slot and the 4th open slot;Third open slot is equipped with the
The width of two crossbeams 518, second cross beam 518 is less than the width of third open slot and the width more than the 4th open slot, can with this
Second cross beam 518 is set firmly to be arranged on the step that junction is formed between third open slot and the 4th open slot;Second moves
Movable plate 514 is set in the 4th open slot, and is connect with second cross beam 518 by one second telescopic moving unit 519, wherein compared with
Goodly, which is a telescopic cylinder.
Referring to Fig. 8, the thin film removing device 50 in the present embodiment further includes being set on thin film removing mounting bracket 51 with sense
Whether should have by the protective film for the coating plank P that the first stickup idler wheel 52 removes and the signal of correlation circumstance can be sent to control
Device 80 carries out the first film removal inductor of relevant work and set on thin film removing installation to control the first collection assembly 61
Whether there is the protective film of coating plank P removed by the second stickup idler wheel 53 on frame 51 with induction and can be by the signal of correlation circumstance
Control device 80 is sent to control the second thin film removing inductor that the second collection assembly 62 carries out relevant work, the first film
It removes inductor and the second thin film removing inductor is electrically connected with control device 80.
And the setting of inductor and the second thin film removing inductor is removed by the first film, be conducive to control first and collect
The collection of component 61, the second collection assembly 62 to the protective film of removal.
Referring to Fig. 8, the thin film removing device 50 in the present embodiment further includes being set on thin film removing mounting bracket 51 with auxiliary
Help transmission coating plank P to the auxiliary drive gear 55 of designated position, so that coating plank P can be in thin film removing region
Transmission.
And the preferred embodiment of auxiliary drive gear 55 is comprising be movably arranged on thin film removing mounting bracket 51 and position
The first auxiliary transmission roller groups 551 of the side of both idler wheels 53 are pasted in the first stickup idler wheel 52 and second and are movably arranged at
The second auxiliary that idler wheel 52 and second pastes the other side of both idler wheels 53 is pasted on thin film removing mounting bracket 51 and positioned at first
Transmit roller groups 552, wherein the first auxiliary transmission roller groups 551 are by several spaced first auxiliary transmission roller groups
At, and the second auxiliary transmission roller groups 552 are made of several spaced second auxiliary transmission roller bearings.As a result, when first
When pasting protective film removal of the stickup idler wheel 53 of idler wheel 52 and second to the upper and lower end faces coating plank P, first pastes 52 He of idler wheel
Second, which pastes idler wheel 53, can generate coating plank P the active force of one advance, and coating plank P can be by the active force edge
The conveying direction movement of the first auxiliary transmission auxiliary transmission roller groups 552 of roller groups 551, second, it is not only simple in structure, but also can have
Effect ensures that coating plank P can smoothly be transmitted in thin film removing region.
Please continue to refer to Fig. 8, the first collection assembly 61 in the present embodiment includes being located under thin film removing mounting bracket 51
It holds the protective film for the coating plank P removed by the first stickup idler wheel 52 to stop the first collecting region 611 collected, be set to first
It pastes on idler wheel 52 with the protective film for the coating plank P for guiding transmission to be removed by the first stickup idler wheel 52 to the first collecting region 611
Collection conveyer belt 612 and set on the upper end of thin film removing mounting bracket 51 and with collect conveyer belt 612 connect with drive collect biography
The collection driving source 613 for sending the guiding transmission work of band 612, collects driving source 613 and is electrically connected with control device 80.Moreover, preferably
Ground, thin film removing driving source 54 are to overlap setting with driving source 613 is collected, that is, use a driving source, can not only realize first
It pastes idler wheel 52 and/or second and pastes the driving of idler wheel 53, but also can drive and collect conveyer belt 612 to guide protective film to pass
It send, it is seen then that not only simplify structure, but also be easily installed setting.
Accordingly, when the first collection assembly 61 will collect the protective film of coating plank P removed by the first stickup idler wheel 52, lead to
It crosses the control of control device 80 and collects the work of driving source 613, and after collecting the work of driving source 613, it can make to collect conveyer belt 612
Work, and the first receipts will be sent to by the protective film of the coating plank P removed by the first stickup idler wheel 52 by collecting conveyer belt 612
Collect area 611, the collection of protective film is realized with this.Entire collection process, it is simple and convenient, and will not be to other during collection
The work of component impacts.
Meanwhile preferably, the collection driving source 613 is a motor, in order to draw materials and installation settings.
Referring again to Fig. 8, the first collection assembly 61 in the present embodiment further includes set on the upper of thin film removing mounting bracket 51
It holds and is located at the first stickup idler wheel 52 and collects the top of driving source 613 to guide the coating plate removed by the first stickup idler wheel 52
The upper framework 614 of the first guiding of the protective film of material P to the first collecting region 611 is oriented to setting for upper framework 614 with this by first
It sets, the protective film to this by the coating plank P that the first stickup idler wheel 52 removes can be made to be directed to transmission, be more advantageous to protective film
It collects.
And the preferred embodiment that first is oriented to upper framework 614 is comprising is located at first and pastes the top of idler wheel 52 simultaneously
The covering section 6141 of the first stickup idler wheel 52 is covered, is connected with covering section 6141 and is located at and collect the top of conveyer belt 612 and prolong
It stretches and covers the extended segment 6142 for collecting conveyer belt 612 and be connected with extended segment 6142 so as to paste what idler wheel 52 removed by first
Guide section 6143 downward that the protective film of coating plank P moves downward, with this processing and installation easy to produce.
Further, which further includes set on the lower end of thin film removing mounting bracket 51 to guide by first
It pastes the protective film of the coating plank P that idler wheel 52 removes and is oriented to lower framework 615 to the first of the first collecting region 611, so that by the
The protective film for the coating plank P that one stickup idler wheel 52 removes can be oriented to the lower guiding of framework 615 to first when falling downward by first
Collecting region 611, to ensure the smooth collection of protective film.
And the preferred embodiment that first is oriented to lower framework 615 is comprising opposite to receive with guide section 6143 downward
First receiver section 6151 of the protective film of coating plank P removed by the first stickup idler wheel 52 and with 6151 phase of the first receiver section
Section is even led by the protective film for the coating plank P that the first stickup idler wheel 52 removes to the first of the first collecting region 611 to lead
6152, with this processing and installation easy to produce.
Wherein, preferably, first leads section 6152 for arc structure, can smoothly lead protective film by curved surface thereon
To the first collecting region 611.
Referring again to Fig. 8, the second collection assembly 62 in the present embodiment includes positioned at the lower end of thin film removing mounting bracket 51
So that the protective film of the coating plank P removed by the second stickup idler wheel 53 stops the second collecting region 621 collected, set on film shifting
Except the lower end of mounting bracket 51 is to guide the protective film of coating plank P removed by the second stickup idler wheel 53 to the second collecting region 621
Second be oriented to lower framework 622.
It accordingly, should when the second collection assembly 62 will collect the protective film of coating plank P removed by the second stickup idler wheel 53
Protective film can be by gravity, then by the guiding of framework 622 under the second guiding, can successfully be collected into the second receipts
Collect area 621, the collection of protective film is realized with this.Entire collection process, it is simple and convenient, and will not be to other during collection
The work of component impacts.
And the preferred embodiment that second is oriented to lower framework 622 is comprising is moved by the second stickup idler wheel 53 to receive
Second receiver section 6221 of the protective film of the coating plank P removed and be connected with the second receiver section 6221 with lead by second paste
The protective film for the coating plank P that idler wheel 53 removes leads section 6222 to the second of the second collecting region 621, with this processing easy to produce
And installation.
Wherein, preferably, second leads section 6222 for arc structure, can smoothly lead protective film by curved surface thereon
To the second collecting region 621.
Referring to Fig. 8, the film collecting device 60 in the present embodiment further includes being set on thin film removing mounting bracket 51 with right
The protective film collected by the first collection assembly 61 and the second collection assembly 62 is compressed to reduce the occupied space of the protective film
Squeeze-film mechanism 63, the maximum amount of collection of protective film is ensured with this.
And 63 preferred embodiment of squeeze-film mechanism is comprising can move up and down and be collected set on the first collecting region 611, second
The collection movement pressing plate 631 in both areas 621 and on thin film removing mounting bracket 51 and with collect mobile pressing plate 631 connect with
The mobile pressing plate driving source 632 that mobile pressing plate 631 moves is collected in driving, wherein flexible gas can be used in mobile pressing plate driving source 632
Cylinder, in order to draw materials and installation settings.
Fig. 3 and Fig. 9 are please referred to, the rear transportation section 22 in the present embodiment conveys mounting bracket 221, installed along rear conveying after including
The extending direction of frame 221 conveys several rear delivering rubber rollers 222 on mounting bracket 221 and conveys installation after being set to after being arranged in
The rear feed drive to drive several rear delivering rubber rollers 222 to work is connect on frame 221 and with several rear delivering rubber rollers 222
Source 223, rear feed drive source 223 are electrically connected with control device 80, wherein and rear feed drive source 223 is feeder motor after one, and
The rear feeder motor is connect by rear conveyor chain with several rear delivering rubber rollers 222;
Defective products apparatus for temporary storage 70 includes the temporary bearing 71 for being set in rack 10 and being located at 22 lower section of rear transportation section, movement
On temporary bearing 71 and moves through the pallet 72 of several rear delivering rubber rollers 222 and be set on temporary bearing 71
With the temporary driving module 73 for driving pallet 72 to slide up and down, temporary driving module 73 is electrically connected with control device 80.
So, the coating plank P after detection of control device 80, which determines, to be placed on transportation section 22 belongs in dyestripping operation
Defective products when, control device 80 can control temporary driving module 73 and work, and temporary driving module 73 can drive pallet 72
Several rear delivering rubber rollers 222 are moved through, which is moved away from rear transportation section 22 and is kept in, avoid defective products from sending with this
It influences normally to produce to subsequent processing, meanwhile, it can also facilitate the collection to defective products to handle.
And preferably, the lead screw that the temporary driving module 73 is mainly connect by a motor and with motor forms, in order to life
The lead screw of production processing, the temporary driving module 73 is connect with pallet 72.
The preferred embodiment of pallet 72 is comprising attaching plate elements 721 and in attaching plate elements 721 and between being in
Every setting to hold several support bar arrays 722 of dyestripping defective products, any one support bar array 722 is by multiple along with always
The spaced apart support bar group in line direction is at and after each supporting rod moves through two neighboring on rear transportation section 22
The gap that delivering rubber roller 222 is formed can avoid impacting the normal transport operations of rear transportation section 22 accordingly.
Fig. 3 and Fig. 4 are please referred to, the preceding transportation section 21 in this implementation includes preceding conveying mounting bracket 211, along preceding conveying mounting bracket
211 extending direction conveys several preceding delivering rubber rollers 212 on mounting bracket 211 and is set to preceding conveying mounting bracket before being arranged in
The preceding feed drive source to drive several preceding delivering rubber rollers 212 to work is connect on 211 and with several preceding delivering rubber rollers 212
213, preceding feed drive source 213 is electrically connected with control device 80, wherein preceding feed drive source 213 is feeder motor after one, and is somebody's turn to do
Preceding feeder motor is connect by preceding conveyor chain with several preceding delivering rubber rollers 212;Meanwhile it can be preferably, the preceding feed drive
Source 213 is to overlap setting with rear feed drive source 223, that is, uses a driving source, can drive preceding transportation section 21 and rear conveying
Section 22.
First is set to several on first movement block 311 by middle mobile member 31 including first movement block 311 and interval
First positioning column 312, each first positioning column 312 are placed through two neighboring 212 shape of preceding delivering rubber roller on preceding transportation section 21
At gap, accordingly, can avoid the normal transport operations of preceding transportation section 21 are impacted;
Similarly, second includes that the second movable block 321 and interval are set on the second movable block 321 by middle mobile member 32
Several second positioning columns 322, each second positioning column 322 conveys glue before being placed through two neighboring on preceding transportation section 21
The gap that roller 212 is formed can avoid impacting the normal transport operations of preceding transportation section 21 accordingly;Divide by middle driving source 33
It is not connect with first movement block 311, the second movable block 321.
Wherein, first positioning column 312 and the first positioning column 322 be in being oppositely arranged, with ensure the both sides of coating plank P by
Power is uniform, so as to smoothly move the center for leaning on transportation section 22 forward;And whole operation is also relatively simple, as long as
By controlling the relative movement between first movement block 311 and the second movable block 321 by middle driving source 33, coating plate can be made
Material P moves on to the center of preceding transportation section 22.
Preferably, by middle driving source 33 be a clockwise and anticlockwise motor, clockwise and anticlockwise motor by one positioning transmission connection piece 34 with
First movement block 311, the connection of the second movable block 321 pass through positioning transmission connector specifically, when clockwise and anticlockwise motor rotates forward
34 drive first movement block 311, the movement of the second movable block 321, make first movement block 311 and the second movable block 321 with this
It is opposite to draw close, with push coating plank P be placed in preceding transportation section 22 conveying direction center;After complete, clockwise and anticlockwise motor meeting
Reversion drives first movement block 311, the movement movement of the second movable block 321 by positioning transmission connector 34, makes the with this
321 relative separation of first movement block 311 and the second movable block.
And the positioning transmission connector 34 is preferably cyclic annular positioning transmission band, the side of cyclic annular positioning transmission band is connected to the
The other side of one movable block 311, the side relative to positioning transmission band is connected to first movement block 321.
In addition, in order to ensure first movement block 311, the second smoothly sliding of movable block 321, which further includes leading
To sliding equipment 35, which includes the guide chute on first movement block 311, the second movable block 321
351 and on preceding conveying mounting bracket 211 and the directive slide track 352 that is slidably matched with guide chute.
Further more, whether centralising device 30 further includes being set on preceding transportation section 21 to have coating plank P to be placed in preceding conveying with induction
In section 21 and the signal of correlation circumstance is sent to control device 80 and leans on middle shifting by middle mobile member 31 and second to control first
Dynamic component 32 carries out the centralized positioning sensor of relevant work, and centralized positioning sensor is electrically connected with control device 80.
And the preferred embodiment of centralized positioning sensor is comprising to incude the position of coating plank P and can incite somebody to action
It is fast by middle mobile member 32 by middle mobile member 31 and second to control first that the signal of correlation circumstance is sent to control device 80
First centralized positioning sensor of the installation position of the whole coating plank P of velocity modulation and to incude coating plank P position and can will
The signal of correlation circumstance is sent to control device 80 to control first by middle mobile member 31 and second by 32 essence of middle mobile member
Second centralized positioning sensor of the installation position of fine control coating plank P.
Referring to Fig. 5, the coating back-off assembly 40 in the present embodiment further includes a transverse direction for unclamping mounting plate 41 along coating
Direction movement be set to coating unclamp mounting plate 41 on coating unclamp movable plate 44 and set on coating unclamp mounting plate 41 on and with
Coating unclamps the connection of movable plate 44 to drive coating to unclamp the movable plate driving source 45 that movable plate 44 moves, and coating unclamps movable plate
44 middle position offer one for coating plank P by the second coating unclamp inlet and outlet 441, the second coating unclamp into
Outlet 441 and the first coating unclamp inlet and outlet 411 and are oppositely arranged and communicate, and movable plate driving source 45 is electrically connected with control device 80
It connects.Wherein, preferably, coating, which unclamps mounting plate 41, is equipped with guide rail, and coating unclamps movable plate 44 and is equipped with and matches with guide rail sliding
The sliding slot of conjunction, which unclamps movable plate 44 and slided by sliding slot and being slidably matched for guide rail unclamps mounting plate 41 set on coating
On;Simultaneously, movable plate driving source 45 is a telescopic cylinder.
And it is in move up and down to be divided into coating release movement that the first coating, which unclamps component 42 and the second coating release component 43,
The upper and lower ends of plate 44.
So, when needing to unclamp the protective film on coating plank P, first, the first coating is controlled by control device 80
It unclamps component 42 and the second coating unclamps component 43 and moves, to be close to contact coating plank P;Then, then pass through control device 80
Movable plate driving source 45 is controlled to work, and movable plate driving source 45 can drive coating to unclamp movable plate 44 along coating release mounting plate
41 horizontal direction moves back and forth, and can make, the first coating unclamps component 42 and the second coating unclamps component 43 and contacts release back and forth
The protective film of the upper and lower end faces coating plank P.
Specifically, the preferred embodiment of the first coating release component 42 is comprising the mobile coating that is set to unclamps movement
The upper end of plate 44 for the first rub wheel 421 for being in rolling contact with the protective film of the upper ends coating plank P and with the first rub wheel 421
To drive the first coating that the first rub wheel 421 moves to unclamp driving source 422, the first coating unclamps driving source 422 and control for connection
Device 80 is electrically connected;
And the preferred embodiment that the second coating unclamps component 43 is comprising the mobile coating that is set to unclamps movable plate 44
Lower end connect for the second rub wheel 431 for being in rolling contact with the protective film of the lower ends coating plank P and with the first rub wheel 421 with
The first coating that the first rub wheel 421 moves is driven to unclamp driving source 422, the first coating unclamps driving source 422 and control device 80
Electrical connection.
Whether coating back-off assembly 40 further includes being set to coating and unclamping on mounting plate 41 to have coating plank P by the with induction
One coating unclamps between component 42 and the second coating release component 43 and can the signal of correlation circumstance be sent to control device 80
Coating to control the first coating release component 42 and the release progress relevant work of component 43 of the second coating unclamps inductor, and (figure is not
Show), coating unclamps inductor and is electrically connected with control device 80.
Referring to Fig. 8, the dyestripping equipment 100 in the present embodiment further includes removing to accumulate on thin film removing device 50
Dust dust-extraction unit 91, dust-extraction unit 91 include set on thin film removing mounting bracket 51 upper end and close to first paste idler wheel
52 the first dust removal assembly 911 and second removing set on the lower end of thin film removing mounting bracket 51 and close to the second stickup idler wheel 53
Dirt component 912.By the first dust removal assembly 911 and the second dust removal assembly 912, it is viscous that the first stickup idler wheel 52, second is effectively ensured
The cleanliness factor for pasting idler wheel 53, is conducive to improve its service life.
And the first dust removal assembly 911 includes being moved close to the first dedusting component 9111 of the first stickup idler wheel 52 and setting
It is connect in the upper end of thin film removing mounting bracket 51 and with the first dedusting component 9111 the first dedusting component 9111 can be driven to move
The first dedusting driving source 9112, the first dedusting driving source 9112 is electrically connected with control device 80, preferably, first dedusting is driven
Dynamic source 9112 is a telescopic cylinder, in order to draw materials and if desired installation settings is simultaneously pasted idler wheel 52 to first and cleaned
When, as long as controlling the work of the first dedusting driving source 9112 by control device 80, the first dedusting driving source 9112 can drive the
One dedusting component 9111 pastes idler wheel 52 by adosculation first, to be cleaned to it.
First dedusting component 9111 includes the first dedusting positioning column, rolls up the first glue being located on the first dedusting positioning column
Band can paste the dust on idler wheel 52, simply and effectively directly by the adhesiveness of the first Continuous pressing device for stereo-pattern with this with adherency first
Realize the first cleaning for pasting idler wheel 52.
Similarly, the second dust removal assembly 912 include be moved close to the second stickup idler wheel 53 the second dedusting component 9121,
And it is connect set on the lower end of thin film removing mounting bracket 51 and with the second dedusting component 9121 the second dedusting component 9121 can be driven
The second mobile dedusting driving source 9122, the first dedusting driving source 9122 are electrically connected with control device 80, preferably, this second is removed
Dirt driving source 9122 is a telescopic cylinder, in order to draw materials and installation settings, simultaneously, it is clear if desired to paste idler wheel 53 to second
When clean, as long as controlling the work of the second dedusting driving source 9122 by control device 80, the second dedusting driving source 9122 can drive
Second dedusting component 9121 pastes idler wheel 53 by adosculation second, to be cleaned to it.
Second dedusting component 9121 includes the second dedusting positioning column, rolls up the second glue being located on the second dedusting positioning column
Band can paste the dust on idler wheel 53, simply and effectively directly by the adhesiveness of the second Continuous pressing device for stereo-pattern with this with adherency second
Realize the second cleaning for pasting idler wheel 53.
Referring to Fig. 8, the dyestripping equipment 100 in the present embodiment further includes removing to generate between protective film and plank
The Destaticizing device 92 of electrostatic, Destaticizing device 92 include pasting rolling set on the upper end of thin film removing mounting bracket 51 and close to first
The first of wheel 52 destatics unit 921 and pastes the of idler wheel 53 set on the lower end of thin film removing mounting bracket 51 and close to second
Two destatic unit 922.
In addition, dyestripping equipment 100 further includes for being abnormal the warning device 93 that situation is alarmed to machine, such as scheme
Shown in 1, warning device 93 be set to rack 10 top on, and respectively with transmission device 20, centralising device 30, coating back-off assembly
40, thin film removing device 50, film collecting device 60, defective products apparatus for temporary storage 70, control device 80 are electrically connected.
With reference to each schema, the operation principle of the dyestripping equipment 100 of the present invention is further described:
When needing to be moved away from the protective film of coating plank P, coating plank P is first placed in the preceding transportation section of transmission device 20
21;Then, keep coating plank P placed in the middle by centralising device 30, specifically, leaning on 33 work of middle driving source by the control of control device 80
Make, and first can be driven to be relatively moved by middle mobile member 32 by middle mobile member 31, second by middle driving source 33, so that coating
Plank P is pushed to the middle position of preceding transportation section 21 by first by middle mobile member 31, second by middle mobile member 32, with profit
In the subsequent operation of coating plank P;Then, coating plank P is sent to designated position by the preceding transportation section 21 of transmission device 20;Again
Then, the protective film of coating plank P is unclamped by coating back-off assembly 40, once specifically, coating plank P enters the first coating pine
Drive outlet 411 into, control device 80 controls preceding transportation section 21 and is stopped, and controls the first coating and unclamp the packet of component 42, second
Film unclamp component 43 start to work so that the protective film of the upper and lower end faces coating plank P can by the first coating unclamp component 42,
Second coating unclamps component 43 and unclamps;Then, control device 80 controls preceding transportation section 21 and works on, and coating plank P is sent
To thin film removing and collecting zone, entire protective film can be removed by thin film removing device 50 at the region, and pass through
Film collecting device 60 collects removed protective film, works specifically, control device 80 controls thin film removing driving source 54, and
Thin film removing driving source 54 can drive the first stickup idler wheel 52 and second to paste idler wheel 53 and work, so that coating plank P upper and lower ends
The protective film in face pastes idler wheel 52, second by first and pastes the stickup removal of idler wheel 53;Simultaneously, first unit 921, are destaticed
Two destatic unit 922 can to reply first stickup idler wheel 52 and protective film between generate electrostatic, second paste idler wheel 53 with
The electrostatic generated between protective film is purged, and influences subsequent process to avoid the presence of electrostatic, and the first dust removal assembly
911, the second dust removal assembly 912 can paste the dust gathered on idler wheel 53 to reply the first stickup idler wheel 52, second and be purged,
Subsequent process is influenced to avoid the presence of dust;Then, it is collected by the first collection assembly 61 and is moved by the first stickup idler wheel 52
The protective film of the coating plank P removed, and the coating plate removed by the second stickup idler wheel 53 is collected by the second collection assembly 62
The protective film of material P;Later, the coating plank P for having carried out thin film removing operation is sent from thin film removing and collecting zone to rear defeated
It send in section 22, is discharged with that can be sent by rear transportation section 22 to specified location;Simultaneously, the coating for having carried out thin film removing operation
Plank P can be judged the defective products whether belonged in dyestripping operation, if judging to be that can be kept in by defective products apparatus for temporary storage 70,
If judgement is no, can designated position be directly sent to by the rear transportation section 22 of transmission device 20.
The foregoing is merely preferred embodiments of the present invention, structure is not limited to the above-mentioned shape enumerated, it is all
All any modification, equivalent and improvement made by within the spirit and principles in the present invention etc. should be included in the protection of the present invention
Within the scope of.
Claims (29)
1. dyestripping equipment, for tearing the protective film on coating plank off, which is characterized in that including:
For the rack of each component installation settings;
Coating plank to be sent to the transmission device of designated position, the transmission device includes set on one end of the rack
On so that the coating plank is placed and is transported to designated position to carry out the preceding transportation section of dyestripping operation and set on described
The coating plank for having carried out dyestripping operation to be delivered to the rear transportation section of designated position on the other end of rack;
The coating plank to be placed on the preceding transportation section of the transmission device is close to the centre bit of the preceding transportation section
The centralising device set, the centralising device include moving to lean on middle mobile member, shifting set on the first of the side of the preceding transportation section
The dynamic other side set on the preceding transportation section and with described first by middle mobile member be oppositely arranged second by middle mobile member,
And on the preceding transportation section and respectively with described first by middle mobile member and described second by middle mobile member connect with
For driving described first to lean on middle driving source by the movement of middle mobile member by middle mobile member and described second;
To the coating back-off assembly for unclamping the protective film of the coating plank, the coating back-off assembly includes set on described
Coating in rack and between the preceding transportation section and the rear transportation section unclamps mounting plate, movement is set to coating pine
It opens the upper end of mounting plate and unclamps component and movement set on described to unclamp the first coating of the protective film of coating plank upper end
Coating unclamps the lower end of mounting plate and unclamps component, the coating with the second coating for unclamping the protective film of coating plank lower end
Unclamp mounting plate middle position offer one for the coating plank by the first coating unclamp inlet and outlet;
It is described to remove the thin film removing device of the protective film on the coating plank unclamped through the coating back-off assembly
Thin film removing device includes being set in the rack and being adjacent to the coating to unclamp the thin film removing mounting bracket of mounting plate, rotation
Set on the upper end of the thin film removing mounting bracket with paste the first of the protective film for removing coating plank upper end paste idler wheel,
Rotation is pasted set on the lower end of the thin film removing mounting bracket with paste the protective film for removing coating plank lower end second
It idler wheel and is connect on the thin film removing mounting bracket and with the first stickup idler wheel and/or the second stickup idler wheel
To drive the described first thin film removing driving source for pasting idler wheel and/or the second stickup idler wheel rotation work;
To collect the film collecting device for the protective film for being removed out by the thin film removing device on the coating plank, institute
It includes being set on the thin film removing mounting bracket to be pasted described in idler wheel removal by described first to collect to state film collecting device
First collection assembly of the protective film of coating plank and on the thin film removing mounting bracket with collect pasted by described second
Second collection assembly of the protective film for the coating plank that idler wheel removes;
To the temporary defective products apparatus for temporary storage of the defective products that forms the coating plank during thin film removing, it is described not
Non-defective unit apparatus for temporary storage is simultaneously neighbouring in the rack or positioned at the rear transportation section of the transmission device;
To control the control device of electrical components work, the control device is filled with the transmission device, the centering respectively
It sets, the coating back-off assembly, the thin film removing device, the film collecting device and the defective products apparatus for temporary storage are electrically connected
It connects.
2. dyestripping equipment as described in claim 1, it is characterised in that:The thin film removing mounting bracket includes the first riser, is in
It moves up and down the first movement plate set on the upper end of first riser, the second riser and is set to described second in moving up and down
Second movable plate of the upper end of riser, first riser are arranged with second riser interval, and are formed with for described first
It pastes idler wheel and described second and pastes the thin film removing installation cavity of idler wheel installation settings;
Described first, which pastes idler wheel, is set in the thin film removing installation cavity, and one end of the first stickup idler wheel is connected to
The first movement plate, the other end are connected to second movable plate;
Described second, which pastes idler wheel, is set in the thin film removing installation cavity, and one end of the second stickup idler wheel is connected to
The lower end of first riser, the other end are connected to the lower end of second riser.
3. dyestripping equipment as claimed in claim 2, it is characterised in that:The upper end of first riser is equipped with the first stepped groove,
First stepped groove includes the first open slot and the second open slot below first open slot, first opening
The width of slot is more than the width of second open slot;First open slot is equipped with first crossbeam, the first crossbeam
Width is less than the width of first open slot and the width more than second open slot;The first movement plate is set to described
In second open slot, and it is connect with the first crossbeam by one first telescopic moving unit;
The upper end of second riser is equipped with the second stepped groove, and second stepped groove includes third open slot and positioned at described the
The 4th open slot below three open slots, the width of the third open slot are more than the width of the 4th open slot;Described
Three open slots are equipped with second cross beam, and the width of the second cross beam is less than the width of the third open slot and more than described the
The width of four open slots;Second movable plate be set to the 4th open slot in, and by one second telescopic moving unit with
The second cross beam connection.
4. dyestripping equipment as described in claim 1, it is characterised in that:The thin film removing device further includes being set to the film
Remove mounting bracket on induction whether have by it is described first paste idler wheel remove the coating plank protective film and can be by phase
The signal for the condition that concerns feeling is sent to the control device to control the first film shifting that first collection assembly carries out relevant work
Except inductor and on the thin film removing mounting bracket with whether induction has the packet that idler wheel removes is pasted by described second
The protective film of diaphragm plate material and the signal of correlation circumstance can be sent to the control device with control second collection assembly into
Second thin film removing inductor of row relevant work, the first film remove inductor and the second thin film removing inductor
It is electrically connected with the control device.
5. dyestripping equipment as described in claim 1, it is characterised in that:The thin film removing device further includes being set to the film
It removes and the coating plank is transmitted to the auxiliary drive gear of designated position with auxiliary on mounting bracket.
6. dyestripping equipment as claimed in claim 5, it is characterised in that:The auxiliary drive gear is described thin including being movably arranged at
First auxiliary of the side that film removes on mounting bracket and pastes both idler wheel and described second stickup idler wheel positioned at described first passes
It send roller groups and is movably arranged on the thin film removing mounting bracket and pastes idler wheel and described second positioned at described first and paste rolling
Take turns the second auxiliary transmission roller groups of the other side of the two.
7. dyestripping equipment as described in claim 1, it is characterised in that:First collection assembly includes being located at the film to move
Except the lower end of mounting bracket stops collect first for being pasted the protective film for the coating plank that idler wheel removes by described first
Collecting region pastes the coating plank for pasting idler wheel removal by described first on idler wheel with guiding transmission set on described first
Protective film to the collection conveyer belt of first collecting region and set on the upper end of the thin film removing mounting bracket and with the collection
Transmission band connection is to drive the collection conveyer belt to guide the collection driving source of transmission work, the collection driving source and the control
Device electrical connection processed.
8. dyestripping equipment as claimed in claim 7, it is characterised in that:First collection assembly further includes being set to the film
It removes the upper end of mounting bracket and pastes idler wheel and the top for collecting driving source positioned at described first to guide by described first
The protective film for the coating plank that idler wheel removes is pasted to the upper framework of the first guiding of first collecting region.
9. dyestripping equipment as claimed in claim 8, it is characterised in that:Described first is oriented to upper framework including being located at described first
It pastes the top of idler wheel and covers the covering section of the first stickup idler wheel, is connected with the covering section and passed positioned at the collection
It send the top of band and extends and cover the extended segment for collecting conveyer belt and be connected with the extended segment so as to be glued by described first
The guide section downward that the protective film for the coating plank that patch idler wheel removes moves downward.
10. dyestripping equipment as claimed in claim 9, it is characterised in that:First collection assembly further includes set on described thin
Film removes the lower end of mounting bracket and pastes the protective film of the coating plank that idler wheel removes to described the by described first to guide
The first of one collecting region is oriented to lower framework.
11. dyestripping equipment as claimed in claim 10, it is characterised in that:Described first be oriented to lower framework include with it is described downward
Guide section it is opposite with receive the protective film for pasting the coating plank that idler wheel removes by described first the first receiver section and with
First receiver section is connected pastes the protective film of the coating plank that idler wheel removes to described the to lead by described first
The first of one collecting region leads section.
12. dyestripping equipment as claimed in claim 7, it is characterised in that:The thin film removing driving source drives with the collection
Source is to overlap to be arranged.
13. dyestripping equipment as described in claim 1, it is characterised in that:Second collection assembly includes being located at the film
It removes the lower end of mounting bracket and stops collect for being pasted the protective film for the coating plank that idler wheel removes by described second
Two collecting regions paste the coating plate that idler wheel removes to guide set on the lower end of the thin film removing mounting bracket by described second
Framework under the protective film of material is oriented to the second of second collecting region.
14. dyestripping equipment as claimed in claim 13, it is characterised in that:The lower framework of second guiding includes receiving quilt
Described second pastes the second receiver section of the protective film for the coating plank that idler wheel removes and is connected with second receiver section
It is led by the protective film for the coating plank that described second pastes idler wheel removal to the second of second collecting region with leading
Section.
15. dyestripping equipment as described in claim 1, it is characterised in that:The film collecting device further includes set on described thin
Film remove mounting bracket on to by first collection assembly and second collection assembly collection protective film compressed with
Reduce the squeeze-film mechanism of the occupied space of the protective film.
16. dyestripping equipment as described in claim 1, it is characterised in that:Mounting bracket is conveyed after transportation section includes after described, along institute
The extending direction arrangement that mounting bracket is conveyed after stating conveys several rear delivering rubber rollers on mounting bracket and is set to described in the rear
After conveying on mounting bracket and connect with rear delivering rubber roller described in several afterwards driving several described rear delivering rubber rollers work
Feed drive source, the rear feed drive source are electrically connected with the control device;
The defective products apparatus for temporary storage includes the temporary bearing in the rack and being located at below the rear transportation section, movement
On the temporary bearing and moves through the pallet of several rear delivering rubber rollers and be set to the temporary bearing
On temporary driving module to drive the pallet to slide up and down, the temporary driving module is electrically connected with the control device
It connects.
17. dyestripping equipment as claimed in claim 16, it is characterised in that:The pallet include attaching plate elements and be set to institute
It states in attaching plate elements and is set in distance to hold several support bar arrays of dyestripping defective products, any one described supporting rod battle array
Row by it is multiple along the spaced apart support bar group of same rectilinear direction at and each supporting rod is moved through positioned at described
The gap that the two neighboring rear delivering rubber roller on transportation section is formed afterwards.
18. dyestripping equipment as described in claim 1, it is characterised in that:The preceding transportation section includes preceding conveying mounting bracket, along institute
Several preceding delivering rubber rollers and be set to described that the extending direction of conveying mounting bracket is arranged on the preceding conveying mounting bracket before stating
Before being connect on preceding conveying mounting bracket and with preceding delivering rubber roller described in several to drive several described preceding delivering rubber roller work
Feed drive source, the preceding feed drive source are electrically connected with the control device;
Described first by middle mobile member include first movement block and interval be set to the first movement block on several first
Positioning column, each first positioning column are placed through what the two neighboring preceding delivering rubber roller on the preceding transportation section was formed
Gap;
Described second by middle mobile member include the second movable block and interval be set to second movable block on several second
Positioning column, each second positioning column are placed through what the two neighboring preceding delivering rubber roller on the preceding transportation section was formed
Gap;
It is described to be connect respectively with the first movement block, second movable block by middle driving source.
19. dyestripping equipment as described in claim 1, it is characterised in that:The centralising device further includes being set to the preceding conveying
Whether there is the coating plank to be placed on the preceding transportation section with induction in section and the signal of correlation circumstance is sent to the control
Device processed carries out the centralized positioning of relevant work to control described first by middle mobile member and described second by middle mobile member
Sensor, the centralized positioning sensor are electrically connected with the control device.
20. dyestripping equipment as claimed in claim 19, it is characterised in that:The centralized positioning sensor includes incuding institute
It states the position of coating plank and the signal of correlation circumstance can be sent to the control device and lean on middle movement to control described first
Component and described second by middle mobile member quickly adjust the coating plank installation position the first centralized positioning sensor,
And to incude the position of the coating plank and can the signal of correlation circumstance to be sent to the control device described to control
First leans on by middle mobile member and described second in second of the installation position of coating plank described in middle mobile member intense adjustment
Heart alignment sensor.
21. dyestripping equipment as described in claim 1, it is characterised in that:The coating back-off assembly further includes one along the packet
Film unclamps coating of the horizontal direction movement of mounting plate on coating release mounting plate and unclamps movable plate and set on described
Coating, which unclamps on mounting plate and unclamps movable plate with the coating, to be connect to drive the coating to unclamp the movement that movable plate moves
Plate driving source, the coating unclamp movable plate middle position offer one for the coating plank by the second coating
Inlet and outlet are unclamped, second coating unclamps inlet and outlet and first coating unclamps inlet and outlet and is oppositely arranged and communicates, described
Movable plate driving source is electrically connected with the control device;
It is in move up and down to be divided into the coating release shifting that first coating, which unclamps component and second coating release component,
The upper and lower ends of movable plate.
22. dyestripping equipment as claimed in claim 21, it is characterised in that:It includes that movement is set to that first coating, which unclamps component,
The coating unclamp the upper end of movable plate for the first rub wheel being in rolling contact with the protective film of coating plank upper end and
It is connect with first rub wheel to drive the first coating of the first rub wheel movement to unclamp driving source, first coating unclamps
Driving source is electrically connected with the control device;
Second coating unclamp component include it is mobile be set to the coating unclamp the lower end of movable plate for the coating
The second rub wheel and connect with second rub wheel to drive second rub wheel to move that the protective film of plank lower end is in rolling contact
The second coating unclamp driving source, second coating unclamps driving source and is electrically connected with the control device.
23. dyestripping equipment as described in claim 1, it is characterised in that:The coating back-off assembly further includes being set to the packet
Whether film unclamps on mounting plate has the coating plank to unclamp component and second coating by first coating with induction
Between release component and the signal of correlation circumstance can be sent to the control device to control the first coating release component
The coating release inductor that component carries out relevant work is unclamped with second coating, the coating unclamps inductor and the control
Device electrical connection processed.
24. such as claim 1-23 any one of them dyestripping equipment, it is characterised in that:Further include remove accumulate in it is described
The dust-extraction unit of dust on thin film removing device, the dust-extraction unit include set on the thin film removing mounting bracket upper end simultaneously
The first dust removal assembly for pasting idler wheel close to described first and set on the lower end of the thin film removing mounting bracket and close to described the
Two paste the second dust removal assembly of idler wheel.
25. dyestripping equipment as claimed in claim 24, it is characterised in that:First dust removal assembly includes being moved close to institute
State the first dedusting component of the first stickup idler wheel and set on the upper end of the thin film removing mounting bracket and with the first dedusting structure
Part connection is can drive the first dedusting driving source of the first dedusting component movement, the first dedusting driving source and the control
Device electrical connection processed.
26. dyestripping equipment as claimed in claim 25, it is characterised in that:The first dedusting component is positioned including the first dedusting
Column, volume are located at the first Continuous pressing device for stereo-pattern on the first dedusting positioning column.
27. dyestripping equipment as claimed in claim 24, it is characterised in that:Second dust removal assembly includes being moved close to institute
State the second dedusting component of the second stickup idler wheel and set on the lower end of the thin film removing mounting bracket and with the second dedusting structure
Part connection is can drive the second dedusting driving source of the second dedusting component movement, the first dedusting driving source and the control
Device electrical connection processed.
28. dyestripping equipment as claimed in claim 27, it is characterised in that:The second dedusting component is positioned including the second dedusting
Column, volume are located at the second Continuous pressing device for stereo-pattern on the second dedusting positioning column.
29. such as claim 1-23 any one of them dyestripping equipment, it is characterised in that:Further include removing protective film and plate
The Destaticizing device of the electrostatic generated between material, the Destaticizing device include set on the thin film removing mounting bracket upper end simultaneously
The first of idler wheel, which is pasted, close to described first destatics unit and set on the lower end of the thin film removing mounting bracket and close to described
The second of second stickup idler wheel destatics unit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610301126.1A CN105857794B (en) | 2016-05-06 | 2016-05-06 | Dyestripping equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610301126.1A CN105857794B (en) | 2016-05-06 | 2016-05-06 | Dyestripping equipment |
Publications (2)
Publication Number | Publication Date |
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CN105857794A CN105857794A (en) | 2016-08-17 |
CN105857794B true CN105857794B (en) | 2018-10-16 |
Family
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CN106494065B (en) * | 2016-10-14 | 2018-10-16 | 广东思沃精密机械有限公司 | Multimembrane rolls up laminator |
CN111591537A (en) * | 2020-05-23 | 2020-08-28 | 滁州尚诺自动化设备有限公司 | Film-coated metal plate film scribing device and using method thereof |
CN112707102B (en) * | 2020-12-14 | 2022-12-13 | Tcl王牌电器(惠州)有限公司 | Full-automatic pasting machine |
CN116573259B (en) * | 2023-06-30 | 2024-02-02 | 宝德网络安全系统(深圳)有限公司 | Tower type chassis production equipment for server |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5240545A (en) * | 1990-10-17 | 1993-08-31 | Somar Corporation | Base plate conveyor |
CN2743866Y (en) * | 2004-11-26 | 2005-11-30 | 群录自动化工业股份有限公司 | Film tearing device |
CN103738045A (en) * | 2013-12-28 | 2014-04-23 | 陈宁飞 | Film tearing device |
CN104773342A (en) * | 2015-03-20 | 2015-07-15 | 深圳市思沃精密机械有限公司 | Film tearing equipment |
CN104843258A (en) * | 2015-03-20 | 2015-08-19 | 深圳市思沃精密机械有限公司 | Method for tearing off films wrapping plate |
CN205891458U (en) * | 2016-05-06 | 2017-01-18 | 广东思沃精密机械有限公司 | Dyestripping equipment |
-
2016
- 2016-05-06 CN CN201610301126.1A patent/CN105857794B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5240545A (en) * | 1990-10-17 | 1993-08-31 | Somar Corporation | Base plate conveyor |
CN2743866Y (en) * | 2004-11-26 | 2005-11-30 | 群录自动化工业股份有限公司 | Film tearing device |
CN103738045A (en) * | 2013-12-28 | 2014-04-23 | 陈宁飞 | Film tearing device |
CN104773342A (en) * | 2015-03-20 | 2015-07-15 | 深圳市思沃精密机械有限公司 | Film tearing equipment |
CN104843258A (en) * | 2015-03-20 | 2015-08-19 | 深圳市思沃精密机械有限公司 | Method for tearing off films wrapping plate |
CN205891458U (en) * | 2016-05-06 | 2017-01-18 | 广东思沃精密机械有限公司 | Dyestripping equipment |
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