CN205667923U - A kind of thin film sizer - Google Patents

Abstract

This utility model provides a kind of thin film sizer, belongs to processing film equipment technical field.It includes gumming mechanism, feed mechanism, the feeding curtain of feed mechanism is circumferentially positioned on left conveying roller and right conveying roller, driving shaft and the driven shaft of gumming mechanism are connected by the first frictional disk and the second frictional disk, first gear concentric is arranged on driving shaft, second gear concentric is arranged on control axle, first gear and the second gear engage each other, control cam to be arranged on control axle, microswitch is arranged on the upside controlling cam, first cam is arranged on driving shaft, second cam is arranged on driven shaft, the right-hand member of location bar connects electric magnet, left end is stuck on the groove of the second frictional disk, microswitch connects electric magnet, the side of the first cam and the second cam all arranges tube of glue, plastic emitting contact it is provided with in tube of glue.This utility model realizes the gluing to two pieces of thin film diverse locations simultaneously, rational in infrastructure, and production efficiency is high.

Description

A kind of thin film sizer

Technical field

This utility model relates to processing film equipment technical field, particularly to a kind of thin film sizer.

Background technology

Thin film is a kind of thin and flexible transparent sheet.Make with plastics, adhesive, rubber or other materials.Mylar Scientific it is construed to: the two-dimensional material formed at substrate surface by atom, molecule or ion deposition.Example: optical thin film, compound Thin film, superconducting thin film, mylar, nylon film, plastic sheeting etc..Thin film is widely used in electronic apparatus, machinery, printing Etc. industry.The regulation that the assortment of thin film is the most unified.The generally mode classification of people's custom has following three kinds: (1) is by thin The raw materials used classification of film molding: have polyethylene film, polypropylene film, polyvinyl chloride film and mylar etc.；(2) thin film is pressed Purpose classification: have an agricultural film, packing film and for special environment, the breathable films with specific use, water-soluble thin film and There is the thin film etc. of piezoelectric property；(3) classify by the forming method of thin film: have the thin film of extrusion plasticizing, then blow molding, claim For inflation film；Extruded plasticizing, then melting charge is from the thin film of mould mouth flow casting molding, referred to as cast film；At calender On the thin film be made up of several roller spreadings plasticizing raw materials, referred to as calendered film.Aborning, it is often required to thin film and other materials Matter is combined, it is necessary first to two pieces of thin film are first distinguished gluing, then carries out hot pressing laminating with other middle materials.Due to Two sides structure in other materials is different, so just requiring that two pieces of thin film have different glue application positions.The most common Thin film gluing sometimes uses and is accomplished manually, and part is also adopted by automatic double surface gluer and carries out gluing, but common automatic double surface gluer institute gluing Position the most identical, be not suitable for above-mentioned situation.

Utility model content

The purpose of this utility model is to provide a kind of thin film sizer, and realize two pieces of thin film diverse locations is upper simultaneously Glue, rational in infrastructure, production efficiency is high.

This utility model solves its technical problem and be the technical scheme is that

A kind of thin film sizer, it includes that gumming mechanism, feed mechanism, described feed mechanism include feeding frame, send Material curtain, left conveying roller, right conveying roller, described left conveying roller is rotatably provided in the left end of feeding frame, and described right conveying roller can Rotating the right-hand member being arranged on feeding frame, described feeding curtain is circumferentially positioned on left conveying roller and right conveying roller, described gluing machine Structure is arranged on the surface of feeding curtain, and described gumming mechanism includes gluing frame, driving shaft, driven shaft, control axle, the first band Wheel, the second belt wheel, drive belt, drive motor, the first gear, the second gear, the first frictional disk, the second frictional disk, first convex Wheel, the second cam, control cam, location bar, positioning support, spring, spring support, electric magnet, microswitch, tube of glue, go out Glue contact, described driving shaft and driven shaft be all rotatably provided in gluing frame, and described driving shaft and driven shaft concentric set Putting, one end of described driving shaft is provided with the first frictional disk, and one end of described driven shaft is provided with the second frictional disk, and described second It is provided with groove, described driving shaft and driven shaft on frictional disk to be connected by the first frictional disk and the second frictional disk, described control Axle processed is also rotatably provided in gluing frame, and described first gear concentric is arranged on driving shaft, and described second gear is same Axle center is arranged on control axle, and described first gear and the second gear engage each other, and described control cam is arranged on control axle, Described microswitch is arranged on the upside controlling cam, and described first cam is arranged on driving shaft, and described second cam is installed On driven shaft, the middle-end of described location bar is hinged on positioning support, and the right-hand member of described location bar connects electric magnet, described fixed The left end of position bar is stuck on the groove of the second frictional disk, and one end of described spring is connected to position bar, and the other end is connected to spring Support, described spring support is fixedly installed on the lower section of location bar, and described second belt wheel concentric is arranged on driving shaft, described First belt wheel is connected by driving belt and the second belt wheel, and described first belt wheel and driving motor coaxle connect, described driving electricity Machine is arranged in gluing frame, and described microswitch connects electric magnet, and described first cam and the second cam face are identical, The side of the first cam and the second cam all arranges tube of glue, and described tube of glue is provided with plastic emitting contact.

Further, the reference diameter of described first gear and the second gear is than for 1:2.

Further, the diameter of described second frictional disk is more than the diameter of the first frictional disk.

Further, described driving motor is motor.

Compared to the prior art this utility model, has the following advantages and effect: feed mechanism achieves two pieces of thin film Synchronous transport, gumming mechanism achieves the gluing of two pieces of thin film diverse locations.Drive motor by the first belt wheel, drive belt Driving driving shaft turning anticlockwise with the second belt wheel, the first gear controls axle by the second gear driven and rotates clockwise, and works as master When moving axis turns over 2 circle counterclockwise, controlling axle and turn over 1 circle, during this, driven shaft is kept transfixion by the constraint of location bar. Now, controlling cam and trigger microswitch and produce a narrow pulse signal and make electric magnet action, then location bar is swung up, and solves Except the locking to the second frictional disk, driven shaft starts to rotate with driving shaft, and after driven shaft rotates 1 circle, location bar is at spring Again it is locked under effect.Thus achieving driving shaft and rotate 3 circles, driven shaft rotates the requirement of 1 circle.First cam and Two cams first touch plastic emitting contact, and the glue extrusion in tube of glue sticks on the first cam and the second cam.Two pieces of thin film exist Under the effect of feeding curtain realize steadily transmit to the left, the first cam and the second cam by glue application on thin film.Second friction The diameter of dish is more than the diameter of the first frictional disk, it is to avoid the interference of location pole pair the first frictional disk, rational in infrastructure.Drive motor For motor, the rotating speed of motor, the position of stopping are solely dependent upon frequency and the umber of pulse of pulse signal, and are not loaded The impact of change, good reliability.This utility model realizes the gluing to two pieces of thin film diverse locations simultaneously, rational in infrastructure, produces Efficiency is high.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the A-A direction view of this utility model Fig. 1.

Fig. 3 is the B-B direction view of this utility model Fig. 1.

In figure: 1. gumming mechanism, 2. feed mechanism, 3. feeding frame, 4. feeding curtain, the most left conveying roller, the rightest conveying roller, 7. gluing frame, 8. driving shaft, 9. driven shaft, 10. control axle, 11. first belt wheels, 12. second belt wheels, and 13. drive belt, 14. driving motors, 15. first gears, 16. second gears, 17. first frictional disks, 18. second frictional disks, 19. first cams, 20. second cams, 21. control cams, 22. location bars, 23. positioning supports, 24. springs, 25. spring supports, 26. electric magnet, 27. microswitch, 28. tube of glue, 29. plastic emitting contacts, 30. grooves.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following example are right Explanation of the present utility model and this utility model is not limited to following example.

As shown in Figure 1, Figure 2 and Figure 3, a kind of thin film sizer, it includes gumming mechanism 1, feed mechanism 2, feeder Structure 2 achieves the synchronous transport to two pieces of thin film, and gumming mechanism 1 achieves the gluing of two pieces of thin film diverse locations.Described feeding Mechanism 2 includes that feeding frame 3, feeding curtain 4, left conveying roller 5, right conveying roller 6, described left conveying roller 5 are rotatably provided in feeding The left end of frame 3, described right conveying roller 6 is rotatably provided in the right-hand member of feeding frame 3, and described feeding curtain 4 is circumferentially positioned at a left side On conveying roller 5 and right conveying roller 6.Described gumming mechanism 7 is arranged on the surface of feeding curtain 4, and described gumming mechanism 7 includes gluing Frame 7, driving shaft 8, driven shaft 9, control axle the 10, first belt wheel the 11, second belt wheel 12, drive belt 13, drive motor 14, the One gear the 15, second gear the 16, first frictional disk the 17, second frictional disk the 18, first cam the 19, second cam 20, control cam 21, location bar 22, positioning support 23, spring 24, spring support 25, electric magnet 26, microswitch 27, tube of glue 28, plastic emitting are touched 29, described driving shaft 8 and driven shaft 9 are all rotatably provided in gluing frame 7, described driving shaft 8 and driven shaft 9 concentric Arranging, one end of described driving shaft 8 is provided with the first frictional disk 17, and one end of described driven shaft 9 is provided with the second frictional disk 18, Groove 30, described driving shaft 8 and driven shaft 9 it is provided with by the first frictional disk 17 and the second friction on described second frictional disk 18 Dish 18 is connected.The diameter of described second frictional disk 18 is more than the diameter of the first frictional disk 17, it is to avoid location bar 22 is to first The interference of frictional disk 17, rational in infrastructure.Described control axle 10 is also rotatably provided in gluing frame 7, described first gear 15 Concentric is arranged on driving shaft 8, and described second gear 16 concentric is arranged on control axle 10, described first gear 15 and the Two gears 16 engage each other, and the reference diameter of described first gear 15 and the second gear 16 is than for 1:2.Described control cam 21 Being arranged on control axle 10, described microswitch 27 is arranged on the upside controlling cam 21.Described first cam 19 is arranged on master On moving axis 8, described second cam 20 is arranged on driven shaft 9, and the middle-end of described location bar 22 is hinged on positioning support 23, institute The right-hand member stating location bar 22 connects electric magnet 26, and the left end of described location bar 22 is stuck on the groove 30 of the second frictional disk 18, institute The one end stating spring 24 is connected to position bar 22, and the other end is connected to spring support 25, and described spring support 25 is fixedly installed on The lower section of location bar 22.Described second belt wheel 12 concentric is arranged on driving shaft 8, and described first belt wheel 11 is by driving belt 13 and second belt wheel 12 connect, described first belt wheel 11 and drive motor 14 coaxially connected, described driving motor 14 is arranged on In glue frame 7, described driving motor 14 is motor, and the rotating speed of motor, the position of stopping are solely dependent upon pulse signal Frequency and umber of pulse, and do not changed affected by load, good reliability.Described microswitch 27 connects electric magnet 26, described First cam 19 is identical with the second cam 20 shape, and the side of the first cam 19 and the second cam 20 all arranges tube of glue 28, described tube of glue 28 is provided with plastic emitting contact 29.

By technique scheme, when this utility model one thin film sizer uses, drive motor 14 by first Belt wheel 11, driving belt 13 and the second belt wheel 12 drive driving shaft 8 turning anticlockwise, the first gear 15 to be carried by the second gear 16 The dynamic axle 10 that controls rotates clockwise, and when driving shaft 8 turns over 2 circle counterclockwise, controls axle 10 and turns over 1 circle, driven shaft 9 during this Transfixion is kept by the constraint of location bar 22.Now, control cam 21 to trigger microswitch 27 and produce a burst pulse letter Number making electric magnet 26 action, then location bar 22 is swung up, and releases the locking to the second frictional disk 18, driven shaft 9 start with Driving shaft 8 rotates, and after driven shaft 9 rotates 1 circle, location bar 22 is locked under the effect of spring 24 again.Thus real Having showed driving shaft 8 and rotated 3 circles, driven shaft 9 rotates the requirement of 1 circle.First cam 19 and the second cam 20 first touch plastic emitting contact 29, the glue extrusion in tube of glue 28 sticks on the first cam 19 and the second cam 20.Two pieces of thin film are in the effect of feeding curtain 4 Lower realization transmits the most to the left, the first cam 19 and the second cam 20 by glue application on thin film.This utility model is the most real Now the gluing to two pieces of thin film diverse locations, rational in infrastructure, and production efficiency is high.

Above content described in this specification is only to this utility model example explanation.This utility model Described specific embodiment can be made various amendment or supplements or use class by person of ordinary skill in the field As mode substitute, without departing from the content of this utility model description or surmount model defined in the claims Enclose, protection domain of the present utility model all should be belonged to.

Claims (4)

1. a thin film sizer, it is characterised in that: it includes that gumming mechanism, feed mechanism, described feed mechanism include sending Material frame, feeding curtain, left conveying roller, right conveying roller, described left conveying roller is rotatably provided in the left end of feeding frame, the described right side Conveying roller is rotatably provided in the right-hand member of feeding frame, and described feeding curtain is circumferentially positioned on left conveying roller and right conveying roller, institute State gumming mechanism and be arranged on the surface of feeding curtain, described gumming mechanism include gluing frame, driving shaft, driven shaft, control axle, First belt wheel, the second belt wheel, drive belt, drive motor, the first gear, the second gear, the first frictional disk, the second frictional disk, First cam, the second cam, control cam, location bar, positioning support, spring, spring support, electric magnet, microswitch, glue Pipe, plastic emitting contact, described driving shaft and driven shaft be all rotatably provided in gluing frame, and described driving shaft and driven shaft are coaxial The heart is arranged, and one end of described driving shaft is provided with the first frictional disk, and one end of described driven shaft is provided with the second frictional disk, described It is provided with groove, described driving shaft and driven shaft on second frictional disk to be connected by the first frictional disk and the second frictional disk, institute Stating control axle to be also rotatably provided in gluing frame, described first gear concentric is arranged on driving shaft, described second tooth Wheel concentric is arranged on control axle, and described first gear and the second gear engage each other, and described control cam is arranged on control On axle, described microswitch is arranged on the upside controlling cam, and described first cam is arranged on driving shaft, described second cam Being arranged on driven shaft, the middle-end of described location bar is hinged on positioning support, and the right-hand member of described location bar connects electric magnet, institute The left end stating location bar is stuck on the groove of the second frictional disk, and one end of described spring is connected to position bar, and the other end is connected to Spring support, described spring support is fixedly installed on the lower section of location bar, and described second belt wheel concentric is arranged on driving shaft, Described first belt wheel by driving belt and the second belt wheel to connect, described first belt wheel and drive motor coaxle to connect, described in drive Galvanic electricity machine is arranged in gluing frame, and described microswitch connects electric magnet, and described first cam and the second cam face are complete Identical, the side of the first cam and the second cam all arranges tube of glue, and described tube of glue is provided with plastic emitting contact.

A kind of thin film sizer the most according to claim 1, it is characterised in that: described first gear and the second gear Reference diameter is than for 1:2.

A kind of thin film sizer the most according to claim 1, it is characterised in that: the diameter of described second frictional disk is more than The diameter of the first frictional disk.

A kind of thin film sizer the most according to claim 1, it is characterised in that: described driving motor is motor.