CN106476406A - Glass turns to overlay film guillotine - Google Patents
Glass turns to overlay film guillotine Download PDFInfo
- Publication number
- CN106476406A CN106476406A CN201611130108.8A CN201611130108A CN106476406A CN 106476406 A CN106476406 A CN 106476406A CN 201611130108 A CN201611130108 A CN 201611130108A CN 106476406 A CN106476406 A CN 106476406A
- Authority
- CN
- China
- Prior art keywords
- para
- supporting roller
- overlay film
- roller
- dyestripping
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B37/00—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
- B32B37/10—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the pressing technique, e.g. using action of vacuum or fluid pressure
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B38/00—Ancillary operations in connection with laminating processes
- B32B38/10—Removing layers, or parts of layers, mechanically or chemically
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B43/00—Operations specially adapted for layered products and not otherwise provided for, e.g. repairing; Apparatus therefor
- B32B43/003—Cutting
Abstract
The present invention discloses a kind of glass and turns to overlay film guillotine, and described charging Dai Wei mechanism is located at the rear portion of described frame;Described rear para-position lifting rotation assembly is located in front of described charging Dai Wei mechanism, described supporting roller mechanism is located at the front of described rear para-position lifting rotation assembly, described upper film-covering mechanism and described lower film-covering mechanism are located at described supporting roller mechanism over and under respectively, and the described assembly that cuts is located between described lower rear supporting roller and lower front supporting roller;Described front para-position lifting rotation assembly identical with described rear para-position lifting rotation modular construction and be located at described supporting roller mechanism front;Described discharging mechanism is located at the front of described front para-position lifting rotation assembly.Glass steering overlay film of the present invention cuts function and is automatically performed the overlay film of glass plate upper and lower surface and can cut film, substantially increases production efficiency.
Description
Technical field
The present invention relates to mechanical field, more particularly, to a kind of glass steering overlay film guillotine.
Background technology
In the glass plate course of processing, need surface and lower surface overlay film thereon, now, it is complete that this technique typically passes through staff
Become, production efficiency is low.
Content of the invention
It is an object of the invention to provide a kind of glass that can be automatically performed glass plate upper and lower surface coating processes turns to and covers
Film guillotine, thus improve production efficiency.
To achieve these goals, the technical scheme is that:A kind of glass is provided to turn to overlay film guillotine, including machine
Frame and be installed on control system in described frame, charging Dai Wei mechanism, two para-position lifting rotation assemblies, supporting roller mechanism, on
Film-covering mechanism, lower film-covering mechanism, cut assembly and discharging mechanism, para-position lifting rotation assembly described in two be respectively after para-position liter
Fall rotary components and described front para-position lifting rotation assembly, described charging Dai Wei mechanism is located at the rear portion of described frame;After described
Para-position lifting rotation assembly be located at described charging Dai Wei mechanism in front of, described rear para-position lifting rotation assembly include positioning mechanism and
Lifting rotation mechanism, described positioning mechanism includes para-position support, para-position roller shaft, para-position roller driving mechanism, para-position transmission electricity
Machine, main driving wheel, from drive, driving belt, slide block is moved in left para-position, slide block, rear movable block slide rail and front are moved in right para-position
Movable block slide rail, moves towards horizontal rotation parallel to each other and is installed on described para-position support about some described para-position roller shafts, institute
State and some para-position rollers are installed with para-position roller shaft, described rear movable block slide rail and described front movable block slide rail are respectively positioned on described
The lower section of para-position roller shaft and move towards level and put in left and right, about the mobile slide block of described left para-position to be slidably connected to described after
On movable block slide rail and described front movable block slide rail, to being slidably connected to described front movable block about the mobile slide block of described right para-position
On slide rail and described rear movable block slide rail, the top of the described mobile slide block of right para-position and the mobile slide block of described left para-position is respectively perpendicular
It is connected with some tandem right para-position posts and left para-position post, the upper end of described right para-position post and described left para-position post is from adjacent
Para-position roller shaft described in two up pass, described para-position driving motor is installed on the bottom of described para-position support, described main biography
Driving wheel and the left and right two ends horizontally rotating the bottom being connected to described para-position support from drive respectively, described para-position driving motor
Output shaft connect with described main driving wheel, described driving belt be wound in described main driving wheel and described outside drive,
Front and the back that slide block is individually fixed in described driving belt is moved in the described mobile slide block of right para-position and described left para-position;Described
Lifting rotation mechanism includes lift cylinder, pneumatic dispenser, rotation platform, lift cylinder seat and dispenser mounting seat, described
Lift cylinder seat is fixed on the bottom of described para-position support, and described dispenser mounting seat is installed on the top of described lift cylinder,
Lift cylinder installing hole and dispenser installing hole are offered respectively on described lift cylinder seat and described dispenser mounting seat, described
Pneumatic dispenser is installed in described dispenser installing hole, described lift cylinder be fixed on the bottom of described lift cylinder seat,
And the output shaft of described lift cylinder is up stretched out described lift cylinder installing hole and connected with described pneumatic dispenser, described pneumatic
The outfan of described lift cylinder is fixed in the lower end of dispenser, and described rotation platform level is fixed in described pneumatic dispenser
Upper end, described rotation platform offers and holds the lifting through hole that described para-position roller passes through, and described rotation platform is located at the described right side
Between para-position post and described left para-position post;Described supporting roller mechanism is located at the front of described rear para-position lifting rotation assembly, described
Supporting roller mechanism includes rear supporting roller, supporting roller of going forward, lower rear supporting roller, lower front supporting roller and servo-actuated drive mechanism, institute
State and move towards horizontal rotation parallel to each other about rear supporting roller and described supporting roller of going forward and be installed in described frame, described lower after
Move towards to horizontally rotate the underface being connected in described frame and being located at described rear supporting roller about supporting roller, described lower front with
Move towards to horizontally rotate the underface being connected in described frame and being located at described lower front supporting roller about driving wheel, described lower rear servo-actuated
Wheel, lower front supporting roller are located in same level with the top edge of described para-position roller;Described upper film-covering mechanism be located at described with
The top of driving wheel mechanism, described upper film-covering mechanism includes overlay film frame, upper air-expanding shaft, upper dyestripping axle and drives described upper dyestripping
The upper dyestripping spindle motor of axle rotation, described upper overlay film is set up in the top of described supporting roller mechanism, described upper air-expanding shaft level rotation
Turn and be connected on the medial wall of described upper overlay film frame, described upper dyestripping spindle motor is installed on the lateral wall of described upper overlay film frame, institute
State and motor through hole offered on overlay film frame, the output shaft of described upper dyestripping spindle motor stretch out described upper motor through hole with described
One end of upper dyestripping axle connects, and described upper dyestripping axle position is in the front of described upper air-expanding shaft;Described lower film-covering mechanism is located at described
The lower section of supporting roller mechanism, described lower film-covering mechanism includes lower overlay film frame, lower air-expanding shaft, lower dyestripping axle and drives the described therapeutic method to keep the adverse QI flowing downwards
The lower dyestripping spindle motor of swelling shaft rotation, described lower overlay film is set up in the lower section of described supporting roller mechanism, described lower flatulence motor peace
Be loaded on the lateral wall of described lower overlay film frame, one end level connection joint of described lower air-expanding shaft on the medial wall of described lower overlay film frame,
Described lower dyestripping spindle motor is installed on the lateral wall of described lower overlay film frame, offers lower motor through hole, institute under described lower overlay film frame
The output shaft stating lower dyestripping spindle motor is stretched out described lower motor through hole and is connected with one end of described lower dyestripping axle, described lower dyestripping axle
Front positioned at described lower air-expanding shaft;The described assembly that cuts is located between described lower rear supporting roller and lower front supporting roller, for cutting out
Cut glued membrane;Described front para-position lifting rotation assembly is identical with described rear para-position lifting rotation modular construction and is located at described supporting roller
The front of mechanism;Described discharging mechanism be located at described front para-position lifting rotation assembly front, for by glass finished-product export to
Specified location.
Described charging Dai Wei mechanism include treating a support, some left and right move towards horizontal rotation parallel to each other be installed on described in treat
Treat a roller shaft, roller shaft drive mechanism and first on the support of position put in place induction apparatuss, described treat to be installed with a roller shaft
Some treat a roller, described roller shaft drive mechanism be installed on described in treat on a support, for driving described roller shaft to rotate, institute
State first put in place induction apparatuss be installed on described in treat the front portion of a support, for sensing whether glass puts in place.
The described assembly that cuts includes upper cutter mechanism and incision seat elevating mechanism, and described incision seat elevating mechanism includes propping up
Support seat, two lift cylinders and cut seat board, about described support base trend be fixed in described frame and be located at described lower after with
Lower section between driving wheel and described lower front supporting roller, the fixing end of described lift cylinder is individually fixed in the left and right of described support base
Two ends, the left and right two ends of the described bottom cutting seat board are connected with the outfan of described lift cylinder respectively, the described top cutting seat board
Portion offers the cutting blade groove of left and right trend, and described cutting blade groove is located at the underface of the blade of described cutting knife;Described upper cutter mechanism
Including Cutter apron, the screw mandrel of left and right trend, two screw mandrel axle beds, screw mandrel slide block, lead screw motor, cutting knife installing plate and two cutting knifes,
Described Cutter apron is located at described rear supporting roller and the described top gone forward between supporting roller, and described in two, screw mandrel axle bed is respectively mounted
Screw mandrel screw is offered on the left and right two ends of described Cutter apron, described screw mandrel slide block, described screw mandrel screws through described screw mandrel
Screw, and the two ends of described screw mandrel are rotatably connected respectively in described screw mandrel axle bed, the upper end of described cutting knife installing plate is fixed on
The lower end of described screw mandrel slide block, the lower end of described cutting knife installing plate is fixed in the upper end of described cutting knife, and the blade of described cutting knife hangs down
Directly down stretch out described cutting knife installing plate and can be inserted in described cutting blade groove.
Compared with prior art, glass of the present invention turns to overlay film and cuts the overlay film that function is automatically performed glass plate upper and lower surface
And film can be cut, substantially increase production efficiency.
By description below and combine accompanying drawing, the present invention will become more fully apparent, and these accompanying drawings are used for explaining the present invention
Embodiment.
Brief description
Fig. 1 turns to the structure chart of overlay film guillotine for glass of the present invention.
Fig. 2 turns to the Local map of overlay film guillotine for glass of the present invention.
Fig. 3 turns to the structure chart of the rear para-position lifting rotation assembly of overlay film guillotine for glass of the present invention.
Fig. 4 turns to the structure chart of the lifting rotation mechanism of overlay film guillotine for glass of the present invention.
Fig. 5 turns to the structure chart of the upper cutter mechanism of overlay film guillotine for glass of the present invention.
Fig. 6 turns to the structure chart of the incision seat elevating mechanism of overlay film guillotine for glass of the present invention.
Fig. 7 turns to the structure chart of the upper film-covering mechanism of overlay film guillotine for glass of the present invention.
Specific embodiment
Referring to figs. 1 to Fig. 7, glass of the present invention turns to overlay film guillotine 1000 and includes frame 900 and be installed on described machine
Control system on frame 900(Not shown), charging Dai Wei mechanism 100, rear para-position lifting rotation assembly 200, supporting roller mechanism
300th, upper film-covering mechanism 400, lower film-covering mechanism 500, cut assembly 600, front para-position lifting rotation assembly 700 and discharging mechanism
800.
Described charging Dai Wei mechanism 100 located at the rear portion of described frame, described Dai Wei mechanism 100 include treating a support 110,
Some left and right move towards horizontal rotation parallel to each other be installed on described in treat on a support 110 treating a roller shaft 120, roller shaft drive
Mechanism(Not shown)And first put in place induction apparatuss 140.Described treat to be installed with a roller shaft 120 some treat a roller 121, institute
State roller shaft drive mechanism be installed on described in treat on a support 110, for driving described roller shaft 120 to rotate, described first arrives
Position induction apparatuss 140 treat the front portion of a support 110, for sensing whether glass puts in place described in being installed on.
Described rear para-position lifting rotation assembly 200 is located in front of described charging Dai Wei mechanism 100.Described para-position lifting rotation
Assembly 200 includes positioning mechanism 210 and lifting rotation mechanism 220.Described positioning mechanism 210 includes para-position support 211, para-position rolling
Wheel shaft 212, para-position roller driving mechanism(Not shown), para-position driving motor 213, main driving wheel 214, from drive 215, transmission
Belt(Not shown), slide block 217 is moved in left para-position, right para-position is moved slide block 218, rear movable block slide rail 219 and front movable block and slided
Rail 2191.Some described para-position roller shafts 212 about move towards horizontal rotation parallel to each other and are installed on described para-position support 211.
Some para-position rollers 2121, described rear movable block slide rail 219 and described front shifting sledge are installed with described para-position roller shaft 212
2191 lower sections being respectively positioned on described para-position roller shaft 212 respectively and move towards level and put in left and right.Described left para-position is movedSlidingBlock
217 about to be slidably connected to described reach movable slider 2191 and described rear movable block slide rail 219 on.Described right para-position is mobile to be slided
Block 217 about is to being slidably connected on described front movable block slide rail 2191 and described rear movable block slide rail 219.The described right side is to displacement
DynamicSlidingBlock 218 and described left para-position are movedSlidingThe top of block 217 is respectively perpendicular and is connected with some tandem right para-position posts
2181 and left para-position post 2171, the upper end of described right para-position post 2181 and left para-position post 2171 is from para-position roller described in adjacent two
Axle 212 up passes.Described para-position driving motor 213 is installed on the bottom of described para-position support 211, described main driving wheel 214
And the left and right two ends of the bottom being connected to described para-position support 211, described para-position transmission electricity is horizontally rotated respectively from drive 215
The output shaft of machine 213 is connected with described main driving wheel 214, described driving belt be wound in described main driving wheel 214 and described from
Outside drive 215, the described mobile slide block 218 of right para-position and the mobile slide block 217 of described left para-position are individually fixed in described transmission
The front of belt and back.
Described lifting rotation mechanism 220 includes lift cylinder 221, pneumatic dispenser 222, rotation platform 223, lift cylinder
Seat 224 and dispenser mounting seat 225.Described lift cylinder seat 224 is fixed on the bottom of described para-position support 211, described point
Cutter mounting seat 225 is installed on the top of described lift cylinder 224, described lift cylinder seat 224 and described dispenser mounting seat
Lift cylinder installing hole is offered respectively on 225(Not shown)And dispenser installing hole 2251, described pneumatic dispenser 222 installs
In described dispenser installing hole 2251, described lift cylinder 221 be fixed on the bottom of described lift cylinder seat 224, and institute
The output shaft stating lift cylinder 221 is up stretched out described lift cylinder installing hole and is connected with described pneumatic dispenser 222.Described gas
The outfan of described lift cylinder 221 is fixed in the lower end of dynamic dispenser 222, and described rotation platform 223 level is fixed in described
The upper end of pneumatic dispenser 222, described rotation platform 223 offers and holds the lifting through hole that described para-position roller 2121 passes through
2231.Described rotation platform 223 is located between described front para-position post 2181 and described rear para-position post 2171.
Described supporting roller mechanism 300 is located at the front of described rear para-position lifting rotation assembly 200.Described supporting roller mechanism
300 include rear supporting roller 310, supporting roller 320 of going forward, lower rear supporting roller 330, lower front supporting roller 340 and servo-actuated driving machine
Structure (not shown), described rear supporting roller 310 and described supporting roller 320 about of going forward move towards horizontal rotation parallel to each other and are installed on
In described frame 900.Described lower rear supporting roller 330 about moves towards horizontal rotation and is connected in described frame 900 and is located at described
The underface of supporting roller 310 after upper.Described lower front supporting roller 340 about move towards horizontal rotation be connected in described frame 900 and
Positioned at describedOnThe underface of front supporting roller 320.Described lower rear supporting roller 330, lower front supporting roller 340 and described para-position roller
2121 top edge is located in same level.
Described upper film-covering mechanism 400 is located at the top of described supporting roller mechanism 300.Described upper film-covering mechanism 400 includes
Overlay film frame 410, upper air-expanding shaft 420, upper dyestripping axle 430 and the upper dyestripping spindle motor driving described upper dyestripping axle 430 rotation
440.Located at the top of described supporting roller mechanism 300, described upper air-expanding shaft 420 horizontal rotation is connected to described upper overlay film frame 410
On the medial wall of described upper overlay film frame 410, described upper dyestripping spindle motor 440 is installed on the lateral wall of described upper overlay film frame 410, institute
State and motor through hole 411 is offered on overlay film frame 410, the output shaft of described upper dyestripping spindle motor 440 stretches out described upper motor
Through hole 411 is connected with one end of described upper dyestripping axle 430, and described upper dyestripping axle 430 is located at the front of described upper air-expanding shaft 420.
Described lower film-covering mechanism 500 is located at the lower section of described supporting roller mechanism 300.Under described lower film-covering mechanism 500 includes
Overlay film frame 510, lower air-expanding shaft 520, lower dyestripping axle 530 and the lower dyestripping spindle motor driving described lower air-expanding shaft 530 rotation
540.Described lower overlay film frame 510 located at the lower section of described supporting roller mechanism 300,DescribedLower flatulence motor 540 be installed on described under
The lateral wall of overlay film frame 510, one end level connection joint of described lower air-expanding shaft 520 on the medial wall of described lower overlay film frame 510, institute
State the lateral wall that lower dyestripping spindle motor 540 is installed on described lower overlay film frame 510, under described lower overlay film frame 410, offer lower motor
Through hole 511, the output shaft of described lower dyestripping spindle motor 540 stretches out described lower motor through hole 511 and the one of described lower dyestripping axle 530
End connects, and described lower dyestripping axle 530 is located at the front of described lower air-expanding shaft 520.
The described assembly 600 that cuts includes upper cutter mechanism 610 and incision seat elevating mechanism 620.Described incision seat lifting
Mechanism 620 includes support base 621, two lift cylinders 622 and cuts seat board 623.Described support base 621 about trend is fixed on institute
State in frame 900 and be located at the lower section between described lower rear supporting roller 330 and described lower front supporting roller 340.Described lift cylinder
622 fixing end is individually fixed in the left and right two ends of described support base 621, and the left and right two ends of the described bottom cutting seat board 623 are divided
Do not connect with the outfan of described lift cylinder 622.The described top cutting seat board 623 offers the cutting blade groove of left and right trend
6231, described cutting blade groove 6231 is located at the underface of the blade of described cutting knife 617.Described upper cutter mechanism 610 includes Cutter apron
611st, left and right trend screw mandrel 612, two screw mandrel axle beds 613, screw mandrel slide block 614, lead screw motor 615, cutting knife installing plate 616 and
Two cutting knifes 617.Described Cutter apron 611 is located at described rear supporting roller 310 and the described top gone forward between supporting roller 320.Two
Described screw mandrel axle bed 613 is respectively arranged in the left and right two ends of described Cutter apron 611.Screw mandrel is offered on described screw mandrel slide block 614
Screw(Not shown), described screw mandrel 612 screws through described screw mandrel screw, and the two ends of described screw mandrel 612 are rotatably connected respectively
In described screw mandrel axle bed 613.The lower end of described screw mandrel slide block 614 is fixed in the upper end of described cutting knife installing plate 616, described cuts
The lower end of described cutting knife installing plate 616 is fixed in the upper end of knife 617.The blade of described cutting knife 617 is cut described in vertically down stretching out
Knife installing plate 616 simultaneously can be inserted in described cutting blade groove 6231.
Preferably, the described top cutting seat board 623 is provided with some suction holes 6232 in the both sides of described cutting blade groove 6231.
Described front para-position lifting rotation assembly 700 is identical with described rear para-position lifting rotation assembly 200 structures and is located at institute
State the front of supporting roller mechanism 300.
Described discharging mechanism 800 is located at the front of described front para-position lifting rotation assembly 700, for exporting glass finished-product
To specified location.
When glass of the present invention turns to overlay film guillotine 1000 work, glass plate is held on charging Dai Wei mechanism 100 by staff
Treat on a roller 121, control system controls roller shaft drive mechanism so that treating that a roller 121 rotates, thus by glass plate
Convey forward, when the rear end of glass plate puts in place after induction apparatuss 140 through first, roller shaft drive mechanism quits work, and para-position is rolled
Actuation starts, and drives para-position roller 2121 to roll so that glass plate conveys forward, and meanwhile, slide block is moved in right para-position
218 and the mobile slide block 217 of left para-position move towards inside under the drive of driving belt, right para-position post 2181 and left para-position post
2171 move towards thus glass plate clamping is realized para-position, then lift cylinder 221 adjusts adjustable height, then pneumatic segmentation
Device 222 action is rotated platform 223 rotation specified angle, and in the present embodiment, the action of pneumatic dispenser 222 is rotated platform
223 ratate 90 degrees.Then, glass plate enters between upper rear supporting roller 310 and lower rear supporting roller 330, meanwhile, upper dyestripping axle electricity
Machine 440 and lower dyestripping spindle motor 540 are pneumatic, drive air-expanding shaft 420 and lower air-expanding shaft 520 to rotate simultaneously while dyestripping respectively
Complete the upper and lower surface to glass plate and carry out pad pasting.Afterwards, lift cylinder 622 drives to cut and moves on seat board 623, makes to cut seat board 623
The back edge at top withstand the front lower end of glass plate, meanwhile, make the blade of described cutting knife 617 be inserted in described cutting blade groove 6231
In, now, lead screw motor 615 drives screw mandrel 612 to rotate, thus driving screw mandrel slide block 614 to move left and right, and then drives cutting knife
617 horizontally slip completes cutting action, after glass plate well cutting film, front para-position lifting rotation assembly 700 by glass plate rotate to
Finished glass plate is sent by initial angle finally by discharging mechanism 800.Overall process action is controlled by control system automatization
System.
Glass steering overlay film of the present invention cuts function and is automatically performed the overlay film of glass plate upper and lower surface and can cut film,
Substantially increase production efficiency.
Above in association with most preferred embodiment, present invention is described, but the invention is not limited in enforcement disclosed above
Example, and modification, the equivalent combinations that the various essence according to the present embodiment are carried out should be covered.
Claims (3)
1. a kind of glass turn to overlay film guillotine it is characterised in that:Including frame and be installed on control system in described frame,
Charging Dai Wei mechanism, two para-position lifting rotation assemblies, supporting roller mechanism, upper film-covering mechanism, lower film-covering mechanism, cut assembly and
Discharging mechanism, para-position lifting rotation assembly described in two is respectively rear para-position lifting rotation assembly and front para-position lifting rotation assembly,
Described charging Dai Wei mechanism is located at the rear portion of described frame;Described rear para-position lifting rotation assembly is located at described charging Dai Wei mechanism
Front, described rear para-position lifting rotation assembly includes positioning mechanism and lifting rotation mechanism, and described positioning mechanism includes para-position and props up
Frame, para-position roller shaft, para-position roller driving mechanism, para-position driving motor, main driving wheel, from drive, driving belt, left para-position
Slide block, rear movable block slide rail and front movable block slide rail are moved in mobile slide block, right para-position, move towards about some described para-position roller shafts
Horizontal rotation parallel to each other is installed on described para-position support, and described para-position roller shaft is installed with some para-position rollers, described
Movable block slide rail and described front movable block slide rail are respectively positioned on the lower section of described para-position roller shaft and move towards level and put in left and right afterwards,
To being slidably connected on described rear movable block slide rail and described front movable block slide rail about the mobile slide block of described left para-position, the described right side
To being slidably connected on described front movable block slide rail and described rear movable block slide rail about the mobile slide block of para-position, the described right side is to displacement
The top of movable slider and the mobile slide block of described left para-position is respectively perpendicular and is connected with some tandem right para-position posts and left para-position
Post, the upper end of described right para-position post and described left para-position post up passes from para-position roller shaft described in adjacent two, described para-position
Driving motor is installed on the bottom of described para-position support, described main driving wheel and from drive horizontally rotate respectively be connected to described
The left and right two ends of the bottom of para-position support, the output shaft of described para-position driving motor is connected with described main driving wheel, described transmission
Belt be wound in described main driving wheel and described outside drive, the mobile slide block of described right para-position and described left para-position is mobile slides
Block is individually fixed in front and the back of described driving belt;Described lifting rotation mechanism include lift cylinder, pneumatic dispenser,
Rotation platform, lift cylinder seat and dispenser mounting seat, described lift cylinder seat is fixed on the bottom of described para-position support, institute
State the top that dispenser mounting seat is installed on described lift cylinder, on described lift cylinder seat and described dispenser mounting seat respectively
Offer lift cylinder installing hole and dispenser installing hole, described pneumatic dispenser is installed in described dispenser installing hole, institute
Described lift cylinder is fixed on the bottom of described lift cylinder seat, and the output shaft of described lift cylinder up stretches out described lifting
Cylinder mounting holes are connected with described pneumatic dispenser, and the output of described lift cylinder is fixed in the lower end of described pneumatic dispenser
End, described rotation platform level is fixed in the upper end of described pneumatic dispenser, and described rotation platform offers the described para-position of appearance
The lifting through hole that roller passes through, described rotation platform is located between described right para-position post and described left para-position post;Described supporting roller
Mechanism be located at described rear para-position lifting rotation assembly front, described supporting roller mechanism include rear supporting roller, supporting roller of going forward,
Supporting roller, lower front supporting roller and servo-actuated drive mechanism after lower, move towards about described rear supporting roller and described supporting roller of going forward
Horizontal rotation parallel to each other is installed in described frame, moves towards horizontal rotation and be connected to described frame about described lower rear supporting roller
Underface that is upper and being located at described rear supporting roller, moves towards horizontal rotation about described lower front supporting roller and is connected in described frame
And the underface positioned at described lower front supporting roller, the top edge of described lower rear supporting roller, lower front supporting roller and described para-position roller
In same level;Described upper film-covering mechanism is located at the top of described supporting roller mechanism, and described upper film-covering mechanism includes
Overlay film frame, upper air-expanding shaft, upper dyestripping axle and the upper dyestripping spindle motor driving described upper dyestripping axle rotation, described upper overlay film sets up
In the top of described supporting roller mechanism, described upper air-expanding shaft horizontal rotation is connected on the medial wall of described upper overlay film frame, described
Upper dyestripping spindle motor is installed on the lateral wall of described upper overlay film frame, and described upper overlay film frame offers motor through hole, described on
The output shaft of dyestripping spindle motor is stretched out described upper motor through hole and is connected with one end of described upper dyestripping axle, described upper dyestripping axle position in
The front of described upper air-expanding shaft;Described lower film-covering mechanism is located at the lower section of described supporting roller mechanism, and described lower film-covering mechanism includes
Lower overlay film frame, lower air-expanding shaft, lower dyestripping axle and the lower dyestripping spindle motor driving described lower air-expanding shaft rotation, described lower overlay film frame
Located at the lower section of described supporting roller mechanism, described lower flatulence motor is installed on the lateral wall of described lower overlay film frame, described lower flatulence
On the medial wall of described lower overlay film frame, described lower dyestripping spindle motor is installed on described lower overlay film frame to one end level connection joint of axle
Lateral wall, offers lower motor through hole under described lower overlay film frame, the output shaft of described lower dyestripping spindle motor stretches out described lower motor
Through hole is connected with one end of described lower dyestripping axle, and described lower dyestripping axle position is in the front of described lower air-expanding shaft;Described cut assembly
Positioned between described lower rear supporting roller and lower front supporting roller, it is used for cutting glued membrane;Front para-position lifting rotation assembly, described front para-position
Lifting rotation assembly identical with described rear para-position lifting rotation modular construction and be located at described supporting roller mechanism front;Described go out
Material mechanism is located at the front of described front para-position lifting rotation assembly, for exporting glass finished-product to specified location.
2. glass as claimed in claim 1 turn to overlay film guillotine it is characterised in that:Described charging Dai Wei mechanism includes treating position
Support, some left and right move towards horizontal rotation parallel to each other be installed on described in treat on a support treating a roller shaft, roller shaft drive
Mechanism and first puts in place induction apparatuss, described treat to be installed with a roller shaft some treat a roller, described roller shaft drive mechanism
Treat described in being installed on a support, for driving described roller shaft to rotate, described first put in place induction apparatuss be installed on described in treat position
The front portion of support, for sensing whether glass puts in place.
3. glass as claimed in claim 1 turn to overlay film guillotine it is characterised in that:The described assembly that cuts includes upper cutter machine
Structure and incision seat elevating mechanism, described incision seat elevating mechanism includes support base, two lift cylinders and cuts seat board, described
The lower section that about support seat, trend is fixed in described frame and is located between described lower rear supporting roller and described lower front supporting roller, institute
The fixing end stating lift cylinder is individually fixed in the left and right two ends of described support base, and the left and right two ends of the described bottom cutting seat board are divided
Do not connect with the outfan of described lift cylinder, the described top cutting seat board offers the cutting blade groove of left and right trend, described cutting blade
Groove is located at the underface of the blade of described cutting knife;Described upper cutter mechanism includes Cutter apron, the screw mandrel of left and right trend, two screw axis
Seat, screw mandrel slide block, lead screw motor, cutting knife installing plate and two cutting knifes, described Cutter apron be located at described rear supporting roller with described
The top gone forward between supporting roller, screw mandrel axle bed described in two is respectively arranged in the left and right two ends of described Cutter apron, and described screw mandrel is slided
Screw mandrel screw is offered on block, described screw mandrel screws through described screw mandrel screw, and the two ends of described screw mandrel are rotatably connected respectively
In described screw mandrel axle bed, the lower end of described screw mandrel slide block, the upper end of described cutting knife are fixed in the upper end of described cutting knife installing plate
It is fixed on the lower end of described cutting knife installing plate, the blade of described cutting knife vertically down stretches out described cutting knife installing plate and can be inserted in
In described cutting blade groove.
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CN109461377A (en) * | 2018-12-17 | 2019-03-12 | 梅碧义 | Display screen edge sealing rubberizing equipment |
CN110509364A (en) * | 2019-08-26 | 2019-11-29 | 吴善旺 | The feeding positioning mechanism of carving and milling machine |
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Address after: No. 1, Niu Shan gate of Niu Shan, Dongcheng District, Dongcheng District, Guangdong Applicant after: Guangdong LEYBOLD intelligent equipment Limited by Share Ltd Address before: 523000 Guangdong city of Dongguan province Dongcheng District Dongguan long Lu Niu Mountain Village Gate No. 1 Campo LEYBOLD company Applicant before: DONGGUAN LAIBAO ELECTRICAL TECHNOLOGY CO., LTD. |
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