CN111942650A

CN111942650A - Full-automatic double-sided laminating and film pasting production line

Info

Publication number: CN111942650A
Application number: CN202010986726.2A
Authority: CN
Inventors: 欧阳旭
Original assignee: Shenzhen Boshi Technology Co ltd
Current assignee: Shenzhen Boshi Technology Co ltd
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2020-11-17

Abstract

The invention discloses a full-automatic double-sided film laminating and sticking production line which comprises a feeding device, a discharging device and a plurality of material conveying devices arranged between the feeding device and the discharging device; the material conveying devices are arranged in parallel at intervals, and a double-sided film covering device is arranged at the end part of each material conveying device close to the feeding device; the end parts, close to the blanking device, of the material conveying devices are further provided with film cutting devices, a plurality of thick film pasting devices are further arranged between the film cutting devices and the double-faced film laminating devices, and each thick film pasting device corresponds to one material conveying device to be arranged. The automatic film cutting machine integrates automatic feeding, double-sided film covering, thick film pasting, film cutting and automatic discharging, and is high in automation degree, high in production efficiency, low in cost, small in occupied area and strong in practicability.

Description

Full-automatic double-sided laminating and film pasting production line

Technical Field

The invention relates to the technical field of film covering and film pasting, in particular to a full-automatic double-sided film covering and pasting production line.

Background

In the field of manufacturing of glass cover plates of mobile phones, after the glass cover plates are produced, film coating and thick film pasting are needed. The traditional process of operating the system is as follows: firstly, manually taking out cleaned mobile phone glass cover plates from a multi-channel cleaning machine, placing the mobile phone glass cover plates on a plastic sucking disc, carrying the mobile phone glass cover plates to a semi-automatic double-sided film laminating machine for manual single-plate feeding and film laminating, then manually cutting single plates (two adjacent mobile phone glass cover plates are connected together after film laminating and need to be cut off from the middle), then carrying the glass cover plates after film cutting to a thick film pasting position model on a thick film pasting platform (two pasting area of 1: 1 are drawn on the model aiming at the pasting position of the thick film), then manually peeling the single plates from a material belt, pasting thick films according to the pasting area on the position model (one glass cover plate pastes 2 thick films), and finally placing the glass cover plates with the pasted thick films into a discharging box for arrangement and assembly, wherein the whole operation process has the advantages of more users, high labor intensity, low film pasting efficiency, low film pasting precision and low film pasting precision, Large occupied area, high cost and low economic benefit.

Disclosure of Invention

The invention aims to provide a full-automatic double-sided film laminating and sticking production line which integrates automatic feeding, double-sided film laminating, thick film sticking, film cutting and automatic discharging, and has the advantages of high automation degree, high production efficiency, low cost, small occupied area and strong practicability.

In order to realize the purpose, the following technical scheme is adopted:

a full-automatic double-sided film laminating and sticking production line comprises a feeding device, a discharging device and a plurality of material conveying devices arranged between the feeding device and the discharging device; the material conveying devices are arranged in parallel at intervals, and a double-sided film covering device is arranged at the end part of each material conveying device close to the feeding device; the end parts, close to the blanking device, of the material conveying devices are further provided with film cutting devices, a plurality of thick film pasting devices are further arranged between the film cutting devices and the double-faced film laminating devices, and each thick film pasting device corresponds to one material conveying device to be arranged.

Further, the feeding device comprises a conveying roller mechanism, a plurality of first conveying belt mechanisms arranged at one end of the conveying roller mechanism, a feeding caching mechanism arranged between the first conveying belt mechanisms and the material conveying device and used for caching materials, and a feeding shifting mechanism arranged above the first conveying belt mechanisms.

Furthermore, the loading and transferring mechanism comprises a first translation mechanism arranged along the conveying direction of the first conveying belt mechanism and close to the material conveying device, a first cross beam arranged perpendicular to the first translation mechanism and in driving connection with the first cross beam, and a plurality of clamping jaw modules arranged on the first cross beam; each clamping jaw module corresponds a first conveying belt mechanism and is arranged above the first conveying belt mechanism, and the clamping jaw modules are used for transferring materials conveyed on the corresponding first conveying belt mechanisms to the material conveying device.

Furthermore, each material conveying device comprises a second conveying belt mechanism arranged between the feeding device and the discharging device, and each double-faced film covering device comprises a film covering frame arranged on the second conveying belt mechanism, a film covering roller module arranged on the film covering frame, a first unwinding wheel arranged on the film covering frame and positioned above the film covering roller module, and a second unwinding wheel arranged below the second conveying belt mechanism.

Further, the thick film pasting device comprises an installation platform arranged above the material conveying device, a second translation mechanism arranged on the top of the installation platform along the conveying direction of the material conveying device, a first sliding seat in driving connection with the second translation mechanism, and a film placing mechanism and a film sucking and pasting mechanism which are arranged on the first sliding seat; put membrane mechanism and be used for unreeling and the rolling with the material area that carries the thick film body, inhale membrane pad pasting mechanism and be used for peeling off the thick film body from the material area after unreeling and paste on the material of material conveyer conveying.

Furthermore, the film unwinding mechanism comprises a third unwinding wheel arranged on the first sliding seat, a first winding wheel arranged below the third unwinding wheel, an unwinding platform arranged on one side between the third unwinding wheel and the first winding wheel, a tension wheel module arranged between the unwinding platform and the third unwinding wheel and between the first winding wheel and the third unwinding wheel, and a first motor in driving connection with the third unwinding wheel.

Furthermore, the film absorbing and sticking mechanism comprises a third translation mechanism, a first lifting mechanism, a rotating mechanism and a plurality of vacuum film absorbing modules, wherein the third translation mechanism is perpendicular to the second translation mechanism and arranged on the first sliding seat, the first lifting mechanism is perpendicular to the third translation mechanism and is in driving connection with the third translation mechanism, the rotating mechanism is in driving connection with the first lifting mechanism, and the vacuum film absorbing modules are arranged on the rotating mechanism and are positioned above the unreeling platform.

Furthermore, the film suction and sticking mechanism further comprises an air blowing frame arranged below one end of the unreeling platform, a position sensor arranged on the air blowing frame and a plurality of air blowing heads communicated with an external air source and used for blowing air upwards.

Furthermore, a plurality of third conveyor belt mechanisms are arranged between the plurality of material conveying devices and the blanking device, and each third conveyor belt mechanism is correspondingly arranged at one end of one material conveying device; the film cutting device comprises a second beam and a plurality of film cutting mechanisms, wherein the second beam is arranged above the vertical material conveying device, and the plurality of film cutting mechanisms are arranged on the second beam; each film cutting mechanism corresponds to one material conveying device and comprises a fourth translation mechanism and a cutting blade; the fourth translation mechanism is arranged on one side of the second cross beam along the length direction of the second cross beam, and the cutting blade is in driving connection with the fourth translation mechanism and is positioned above the position between the material conveying device and the third conveyor belt mechanism.

Furthermore, the blanking device comprises a plurality of fourth conveyor belt mechanisms arranged at one end of the material conveying device along the conveying direction of the material conveying device, a fifth translation mechanism arranged along the conveying direction of the fourth conveyor belt mechanisms, a third cross beam in driving connection with the fifth translation mechanism and positioned above the plurality of fourth conveyor belt mechanisms, a second lifting mechanism arranged on the third cross beam, and a plurality of sucker modules in driving connection with the second lifting mechanism; a third lifting mechanism is arranged between the fourth conveyor belt mechanisms and the material conveying devices and is in driving connection with a lifting supporting plate; still be equipped with a plurality of fifth conveyer belt mechanisms on the lift layer board, and a plurality of fourth conveyer belt mechanisms's below still is equipped with a plurality of sixth conveyer belt mechanisms.

By adopting the scheme, the invention has the beneficial effects that:

1) the automatic film cutting machine integrates automatic feeding, double-sided film coating, thick film pasting, film cutting and automatic discharging, and has the advantages of high automation degree, high production efficiency, low cost, small occupied area and strong practicability;

2) through the mutual matching of the plurality of first conveyor belt mechanisms and the plurality of clamping jaw modules, the automatic feeding of multi-channel materials can be realized, the feeding efficiency is high, and the feeding is stable;

3) the double-sided laminating machine is provided with a feeding caching mechanism, when a double-sided laminating device fails, materials can be cached, and further the work of other double-sided laminating devices is not influenced, so that the normal operation of the operation is ensured, and further the work efficiency is not influenced;

4) through the mutual matching of the plurality of double-sided film laminating devices, the plurality of thick film pasting devices and the plurality of film cutting devices, the automatic film laminating, thick film pasting and film cutting of multi-channel materials can be realized, the labor cost is saved, and the working efficiency is high;

5) when pasting the thick film device and pasting the thick film to the material, the gas blowing head can upwards blow, and then firmly glue the thick film body tightly on the vacuum film suction module through atmospheric pressure to guarantee that the thick film body is difficult for dropping, guarantee to inhale the stability of membrane.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of a loading device and a double-sided laminating device of the present invention;

FIG. 3 is a perspective view of the loading transfer mechanism and the loading buffer mechanism of the present invention;

FIG. 4 is a perspective view of FIG. 1 with the loading device and the double-sided laminating device omitted;

FIG. 5 is a perspective view of a thick film pasting device according to the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5;

FIG. 7 is a perspective view of the alternative view of FIG. 5;

FIG. 8 is a perspective view of the film cutting apparatus of the present invention;

FIG. 9 is a perspective view of the blanking device of the present invention;

wherein the figures identify the description:

1-a feeding device; 2, a blanking device;

3-a material conveying device; 4, a double-sided film covering device;

5, a film cutting device; 6, pasting a thick film device;

7-a third conveyor belt mechanism; 11-a transfer roller mechanism;

12-a first conveyor belt mechanism; 13-a feeding buffer mechanism;

14-a loading transfer mechanism; 21-a fourth conveyor belt mechanism;

22-a fifth translation mechanism; 23 — a third beam;

24-a second lifting mechanism; 25-a suction cup module;

26-a third lifting mechanism; 27-lifting pallet;

28-a fifth conveyor belt mechanism; 29-a sixth conveyor mechanism;

41-a film coating frame; 42 — a first unwinding wheel;

43 — a second unwinding wheel; 51-a second beam;

52-a fourth translation mechanism; 53-cutting blade;

61, mounting a platform; 62-a second translation mechanism;

63-a first sliding seat; 64-a film releasing mechanism;

65-a film absorbing and sticking mechanism; 141 — a first translation mechanism;

142 — a first beam; 143-a jaw module;

641-third unwinding wheel; 642-first wind-up wheel;

643-an unwinding platform; 644 — tensioner module;

645 — a first motor; 651 — third translation mechanism;

652 — a first lifting mechanism; 653 — a rotation mechanism;

654-vacuum film-sucking module; 655-air blowing frame;

656-position sensor; 657-air blowing head.

Detailed Description

The invention is described in detail below with reference to the figures and the specific embodiments.

Referring to fig. 1 to 9, the invention provides a full-automatic double-sided film laminating and sticking production line, which comprises a feeding device 1, a discharging device 2, and a plurality of material conveying devices 3 arranged between the feeding device 1 and the discharging device 2; the material conveying devices 3 are arranged in parallel at intervals, and a double-sided film covering device 4 is arranged at the end part of each material conveying device 3 close to the feeding device 1; the tip that a plurality of material transfer device 3 are close to unloader 2 still is equipped with cuts membrane device 5, cuts still to be equipped with a plurality of thick film device 6 of pasting between membrane device 5 and a plurality of two-sided tectorial membrane device 4, and each pastes thick film device 6 and corresponds a material transfer device 3 and arranges.

The feeding device 1 comprises a conveying roller mechanism 11, a plurality of first conveying belt mechanisms 12 arranged at one end of the conveying roller mechanism 11, a feeding cache mechanism 13 arranged between the plurality of first conveying belt mechanisms 12 and the material conveying device 3 and used for caching materials, and a feeding transfer mechanism 14 arranged above the first conveying belt mechanisms 12; the feeding and transferring mechanism 14 comprises a first translation mechanism 141 arranged along the conveying direction of the first conveyor belt mechanism 12 and close to the material conveying device 3, a first cross beam 142 arranged perpendicular to the first translation mechanism 141 and in driving connection with the first cross beam, and a plurality of clamping jaw modules 143 mounted on the first cross beam 142; each clamping jaw module 143 is arranged above the corresponding first conveyor mechanism 12, and the clamping jaw module 143 is used for transferring the materials conveyed on the corresponding first conveyor mechanism 12 to the material conveying device 3; each material conveying device 3 comprises a second conveying belt mechanism arranged between the feeding device 1 and the discharging device 2, and each double-faced film covering device 4 comprises a film covering frame 41 arranged on the second conveying belt mechanism, a film covering roller module arranged on the film covering frame 41, a first unwinding wheel 42 arranged on the film covering frame 41 and positioned above the film covering roller module, and a second unwinding wheel 43 arranged below the second conveying belt mechanism.

The thick film pasting device 6 comprises a mounting platform 61 arranged above the material conveying device 3, a second translation mechanism 62 mounted at the top of the mounting platform 61 along the conveying direction of the material conveying device 3, a first sliding seat 63 in driving connection with the second translation mechanism 62, and a film placing mechanism 64 and a film sucking and pasting mechanism 65 mounted on the first sliding seat 63; the film releasing mechanism 64 is used for releasing and winding the material belt loaded with the thick film body, and the film absorbing and pasting mechanism 65 is used for peeling the thick film body from the released material belt and pasting the thick film body on the material conveyed by the material conveying device 3; the film unwinding mechanism 64 comprises a third unwinding wheel 641 mounted on the first sliding seat 63, a first winding wheel 642 arranged below the third unwinding wheel 641, an unwinding platform 643 arranged on one side between the third unwinding wheel 641 and the first winding wheel 642, a tensioning wheel module 644 arranged between the unwinding platform 643 and the third unwinding wheel 641 as well as between the first winding wheel 642, and a first motor 645 in driving connection with the third unwinding wheel 641; the film sucking and sticking mechanism 65 comprises a third translation mechanism 651 which is arranged on the first sliding seat 63 and is vertical to the second translation mechanism 62, a first lifting mechanism 652 which is arranged vertical to the third translation mechanism 651 and is in driving connection with the third translation mechanism 651, a rotating mechanism 653 which is in driving connection with the first lifting mechanism 652, and a plurality of vacuum film sucking modules 654 which are arranged on the rotating mechanism 653 and are positioned above the unreeling platform 643.

The film sucking and sticking mechanism 65 further comprises an air blowing frame 655 arranged below one end of the unreeling platform 643, a position sensor 656 arranged on the air blowing frame 655 and a plurality of air blowing heads 657 communicated with an external air source and used for blowing air upwards; a plurality of third conveyor belt mechanisms 7 are further arranged between the plurality of material conveying devices 3 and the blanking device 2, and each third conveyor belt mechanism 7 is correspondingly arranged at one end of one material conveying device 3; the film cutting device 5 comprises a second beam 51 which is arranged above the vertical material conveying device 3, and a plurality of film cutting mechanisms which are arranged on the second beam 51; each film cutting mechanism is arranged corresponding to one material conveying device 3 and comprises a fourth translation mechanism 52 and a cutting blade 53; the fourth translation mechanism 52 is arranged at one side of the second cross beam 51 along the length direction, and the cutting blade 53 is in driving connection with the fourth translation mechanism 52 and is positioned above the space between the material conveying device 3 and the third conveyor belt mechanism 7; the blanking device 2 comprises a plurality of fourth conveyor belt mechanisms 21 arranged at one end of the material conveying device 3 along the conveying direction of the material conveying device, a fifth translation mechanism 22 arranged along the conveying direction of the fourth conveyor belt mechanisms 21, a third cross beam 23 connected with the fifth translation mechanism 22 in a driving manner and positioned above the plurality of fourth conveyor belt mechanisms 21, a second lifting mechanism 24 arranged on the third cross beam 23, and a plurality of sucker modules 25 connected with the second lifting mechanism 24 in a driving manner; a third lifting mechanism 26 is further arranged between the fourth conveyor belt mechanisms 21 and the material conveying devices 3, and the third lifting mechanism 26 is further in driving connection with a lifting supporting plate 27; a plurality of fifth conveyor belt mechanisms 28 are further arranged on the lifting supporting plate 27, and a plurality of sixth conveyor belt mechanisms 29 are further arranged below the plurality of fourth conveyor belt mechanisms 21.

The working principle of the invention is as follows:

with reference to fig. 1 to 9, in this embodiment, the feeding device 1 further includes a feeding platform, the conveying roller mechanism 11 is disposed on the feeding platform and can be directly abutted to an external multi-channel cleaning machine, and the cleaning machine cleans the material (glass cover plate) and then directly conveys the material (glass cover plate) to the conveying roller mechanism 11; in this embodiment, the number of the first conveyor mechanisms 12 is set to four (which can be freely set according to actual needs, and the number is not limited), and each first conveyor mechanism 12 includes a first conveyor frame, a first conveyor module mounted on the first conveyor frame, and a first conveyor motor for driving the first conveyor module to operate; the top of first conveyer frame is perpendicular to its length direction and still parallel interval is equipped with a plurality of material clamp plates, can carry on spacingly to the material of conveying, avoids the material to drop from first conveyer belt module.

The first translation mechanism 141 of the feeding and transferring mechanism 14 comprises two first linear motor modules which are arranged in parallel at intervals, and one end of each of the plurality of material conveying devices 3 is positioned between the two first linear motor modules; two ends of one side of the first beam 142 are respectively provided with a first upright post, and the two first upright posts are respectively arranged on a first linear motor module; a first slide rail module and a plurality of clamping jaw modules 143 (4 clamping jaw modules in the embodiment) are arranged on one side of the first cross beam 142 along the length direction of the first cross beam; each clamping jaw module 143 comprises a first translation cylinder arranged on one side of the first beam 142 along the length direction of the first beam, a clamping jaw sliding seat in driving connection with the first translation cylinder and arranged on the first slide rail module, a first lifting cylinder arranged on the clamping jaw sliding seat, a first rotating cylinder in driving connection with the first lifting cylinder, and a clamping jaw body arranged on the first rotating cylinder; the first rotary cylinder can drive the clamping jaw body to do rotary motion, so that the material conveyed by the first conveying belt mechanism 12 can be rotated by 90 ℃, and then is driven by the first translation mechanism 141 to be transferred to the material conveying device 3.

In addition, a feeding buffer mechanism 13 is further arranged between the first conveyor belt mechanism 12 and the material conveying device 3, and the feeding buffer mechanism 13 comprises a first buffer frame arranged perpendicular to the conveying direction of the first conveyor belt mechanism 12, a second conveyor belt module arranged on the first buffer frame, and a second conveying motor for driving the second conveyor belt module to operate; during operation, if there is two-sided tectorial membrane device 4 trouble, then with this two-sided tectorial membrane device 4, the clamping jaw module 143 that material transfer device 3 corresponds can move the material to the second conveyer belt module that material buffer memory device was moved temporarily on, subsequently, the second conveyer belt module can convey the material to the tip that other two-sided tectorial membrane device 4 that do not have the trouble correspond material transfer device 3, then, the clamping jaw module 143 that corresponds with this material transfer device 3 can move the material on the second conveyer belt module to material transfer device 3 on, and then can guarantee the normal operating of work, and then guarantee work efficiency.

In the embodiment, the number of the material conveying devices 3 is 4, so that four-channel material conveying, film sticking and film cutting can be realized, and the working efficiency is high; the second conveyor belt mechanism of the material conveying device 3 comprises a second conveying frame, a third conveyor belt module arranged on the second conveying frame, and a third conveying motor used for driving the third conveyor belt module to operate; the tectorial membrane frame 41 of two-sided tectorial membrane device 4 is installed on the second conveying frame, and tectorial membrane gyro wheel module is located the top of third conveyer belt module, when third conveyer belt module conveying material passes through tectorial membrane gyro wheel module, can be attached in material top surface and bottom surface respectively with the material area of first unreeling wheel 42 and the material area of second unreeling wheel 43, and then realize two-sided tectorial membrane, simple and convenient to the material.

In this embodiment, the number of the thick film pasting devices 6 is also set to 4, and the unwinding platform 643 of each thick film pasting device 6 is arranged above the corresponding material conveying device 3; the second translation mechanism 62 of the thick film pasting device 6 comprises a first screw rod module and a second slide rail module which are arranged on the mounting platform 61, and a first translation motor which is in driving connection with the first screw rod module; the first sliding seat 63 is arranged on the second sliding rail module and is in driving connection with the first lead screw module, the third translation mechanism 651 of the film sucking and pasting mechanism 65 comprises a second linear motor module arranged on the first sliding seat 63, the first lifting mechanism 652 comprises a third linear motor module in driving connection with the second linear motor module, the rotating mechanism 653 comprises a second rotating cylinder in driving connection with the third linear motor module, and the number of the vacuum film sucking modules 654 (vacuum chucks) is two and is in driving connection with the second rotating cylinder; in operation, as shown in fig. 5 to 7, first, the first motor 645 drives the third unwinding wheel 641 to unwind the material tape, when the position sensor 656 on the blowing frame 655 senses that the thick film body to be peeled moves to the edge of the unwinding platform 643, the third translation mechanism 651 and the first lifting mechanism 652 cooperate with each other to drive the two vacuum film suction modules 654 to descend, so as to suck and peel the two thick film bodies on the material tape from the material tape, a pressure sensor is disposed inside the vacuum film suction module 654, if the vacuum negative pressure value is smaller than the set negative pressure value, it is determined that the thick film body is not sucked, the apparatus alarms to remind the operator, if the vacuum negative pressure value exceeds the set value, it is determined that the thick film body is sucked, then the thick film body is driven to rotate by the rotation mechanism 653 for 90 ℃, and then the third translation mechanism 651 and the first lifting mechanism 652 cooperate with each other to paste the thick film body onto the material conveyed by the material conveying apparatus 3, the method is simple, convenient and efficient; in addition, a plurality of blowing heads 657 communicated with an external air source are further arranged on the blowing frame 655, when the vacuum film suction module 654 adsorbs the thick film body, the blowing heads 657 can blow upwards, and then the thick film body is firmly adhered to the vacuum film suction module 654 through air pressure, so that the thick film body is ensured not to drop easily.

The number of the film cutting mechanisms is four, so that the four-channel material film cutting can be realized, and the film cutting efficiency is high; the fourth translation mechanism 52 of the film cutting mechanism comprises a second translation cylinder arranged on the second beam 51, and the cutting blade 53 is in driving connection with the second translation cylinder; when two adjacent materials are on the third conveyor belt mechanism 7 and the other is on the material conveying device 3, the second air cylinder drives the cutting blade 53 to move, so that the two adjacent materials are separated; in addition, four first pressing modules are further arranged on the second beam 51, and each first pressing module is correspondingly arranged above one material conveying device 3; a second pressing module is arranged above each third conveyor belt mechanism 7, and the first pressing module and the second pressing module are used for pressing the material conveying device 3 and the third conveyor belt mechanisms 7 so as to facilitate film cutting of the film cutting mechanism and improve the stability of the film cutting; the first compressing module and the second compressing module comprise compressing cylinders and compressing blocks in driving connection with the compressing cylinders.

As shown in fig. 9, when the discharging device 2 works, firstly, a plurality of empty material boxes are manually placed on the sixth conveyor belt mechanism 29, then, the sixth conveyor belt mechanism 29 conveys the material boxes to the fifth conveyor belt mechanism 28 on the lifting supporting plate 27, then, the third lifting mechanism 26 drives the lifting supporting plate 27 to ascend, so that the fifth conveyor belt mechanism 28 and the fourth conveyor belt mechanism 21 are level, then, the fifth translation mechanism 22 and the second lifting mechanism 24 cooperate with each other to drive the suction cup module 25 to transfer the cut materials into the empty material boxes on the lifting supporting plate 27, after the material boxes are filled, the fifth conveyor belt mechanism 28 conveys the material boxes to the fourth conveyor belt mechanism 21, and finally, the material frames can be moved away by a manual or external manipulator to complete discharging, so that discharging is convenient, simple and efficient; in this embodiment, the fifth translation mechanism 22 includes two parallel fourth linear motor modules arranged at intervals, and a plurality of fourth conveyor belt mechanisms 21 are arranged between the two fourth linear motor modules; the third beam 23 is arranged on the fourth linear motor module through two support columns, the second lifting mechanism 24 comprises a fifth linear motor module arranged on the third beam 23, the number of the sucker modules 25 is set to be 4, and each sucker module 25 is correspondingly arranged above one fourth conveyor belt mechanism 21; the third lifting mechanism 26 includes a second lead screw module, and a lifting motor drivingly connected to the second lead screw module, and the lifting support plate 27 is disposed on the second lead screw module.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A full-automatic double-sided film laminating and sticking production line is characterized by comprising a feeding device, a discharging device and a plurality of material conveying devices arranged between the feeding device and the discharging device; the material conveying devices are arranged in parallel at intervals, and a double-sided film covering device is arranged at the end part of each material conveying device close to the feeding device; the end parts, close to the blanking device, of the material conveying devices are further provided with film cutting devices, a plurality of thick film pasting devices are further arranged between the film cutting devices and the double-faced film laminating devices, and each thick film pasting device corresponds to one material conveying device to be arranged.

2. The full-automatic double-sided laminating and pasting production line of claim 1, wherein the feeding device comprises a conveying roller mechanism, a plurality of first conveyor belt mechanisms arranged at one end of the conveying roller mechanism, a feeding buffer mechanism arranged between the plurality of first conveyor belt mechanisms and the material conveying device and used for buffering materials, and a feeding transfer mechanism arranged above the first conveyor belt mechanisms.

3. The full-automatic double-sided film laminating and pasting production line of claim 2, wherein the feeding and transferring mechanism comprises a first translation mechanism arranged along the conveying direction of the first conveying belt mechanism and close to the material conveying device, a first cross beam arranged perpendicular to the first translation mechanism and in driving connection with the first translation mechanism, and a plurality of clamping jaw modules arranged on the first cross beam; each clamping jaw module corresponds a first conveying belt mechanism and is arranged above the first conveying belt mechanism, and the clamping jaw modules are used for transferring materials conveyed on the corresponding first conveying belt mechanisms to the material conveying device.

4. The full-automatic double-sided laminating and pasting production line of claim 1, wherein each material conveying device comprises a second conveyor belt mechanism arranged between a feeding device and a discharging device, each double-sided laminating device comprises a laminating frame mounted on the second conveyor belt mechanism, a laminating roller module mounted on the laminating frame, a first unwinding wheel mounted on the laminating frame and located above the laminating roller module, and a second unwinding wheel arranged below the second conveyor belt mechanism.

5. The full-automatic double-sided laminating and film-pasting production line according to claim 1, wherein the thick film pasting device comprises a mounting platform arranged above the material conveying device, a second translation mechanism mounted on the top of the mounting platform along the conveying direction of the material conveying device, a first sliding seat in driving connection with the second translation mechanism, and a film placing mechanism and a film sucking and film pasting mechanism mounted on the first sliding seat; put membrane mechanism and be used for unreeling and the rolling with the material area that carries the thick film body, inhale membrane pad pasting mechanism and be used for peeling off the thick film body from the material area after unreeling and paste on the material of material conveyer conveying.

6. The full-automatic double-sided laminating and film-sticking production line according to claim 5, wherein the film-releasing mechanism comprises a third releasing wheel installed on the first sliding seat, a first winding wheel arranged below the third releasing wheel, an releasing platform arranged on one side between the third releasing wheel and the first winding wheel, a tensioning wheel module arranged between the releasing platform and the third releasing wheel and between the first winding wheel, and a first motor in driving connection with the third releasing wheel.

7. The full-automatic double-sided laminating and film-pasting production line of claim 6, wherein the film-sucking and film-pasting mechanism comprises a third translation mechanism arranged on the first sliding base perpendicular to the second translation mechanism, a first lifting mechanism arranged perpendicular to the third translation mechanism and in driving connection with the third translation mechanism, a rotating mechanism in driving connection with the first lifting mechanism, and a plurality of vacuum film-sucking modules arranged on the rotating mechanism and above the unreeling platform.

8. The full-automatic double-sided laminating and film-sticking production line of claim 7, wherein the film-sucking and film-sticking mechanism further comprises an air blowing frame arranged below one end of the unreeling platform, a position sensor arranged on the air blowing frame, and a plurality of air blowing heads communicated with an external air source and used for blowing air upwards.

9. The full-automatic double-sided film laminating and sticking production line according to claim 1, wherein a plurality of third conveyor belt mechanisms are further arranged between the plurality of material conveying devices and the blanking device, and each third conveyor belt mechanism is correspondingly arranged at one end of one material conveying device; the film cutting device comprises a second beam and a plurality of film cutting mechanisms, wherein the second beam is arranged above the vertical material conveying device, and the plurality of film cutting mechanisms are arranged on the second beam; each film cutting mechanism corresponds to one material conveying device and comprises a fourth translation mechanism and a cutting blade; the fourth translation mechanism is arranged on one side of the second cross beam along the length direction of the second cross beam, and the cutting blade is in driving connection with the fourth translation mechanism and is positioned above the position between the material conveying device and the third conveyor belt mechanism.

10. The full-automatic double-sided film laminating and pasting production line of claim 1, wherein the blanking device comprises a plurality of fourth conveyor belt mechanisms arranged at one end of the material conveying device in the conveying direction of the material conveying device, a fifth translation mechanism arranged in the conveying direction of the fourth conveyor belt mechanisms, a third cross beam in driving connection with the fifth translation mechanism and positioned above the plurality of fourth conveyor belt mechanisms, a second lifting mechanism arranged on the third cross beam, and a plurality of sucker modules in driving connection with the second lifting mechanism; a third lifting mechanism is arranged between the fourth conveyor belt mechanisms and the material conveying devices and is in driving connection with a lifting supporting plate; still be equipped with a plurality of fifth conveyer belt mechanisms on the lift layer board, and a plurality of fourth conveyer belt mechanisms's below still is equipped with a plurality of sixth conveyer belt mechanisms.