CN212980627U - Full-automatic multichannel double-sided laminating equipment - Google Patents

Abstract

The utility model discloses a full-automatic multichannel double-sided film laminating device, which comprises a conveying roller mechanism, a plurality of material conveying mechanisms arranged at one end of the conveying roller mechanism, a plurality of first conveying belt mechanisms arranged between the material conveying mechanisms and the conveying roller mechanism, and a feeding and transferring mechanism arranged above the first conveying belt mechanisms; the material conveying mechanisms are arranged in parallel at intervals, and each material conveying mechanism is also provided with a double-faced film coating mechanism. The utility model relates to a rationally, compact structure, can realize multichannel automatic material loading and tectorial membrane, work efficiency height, running cost hang down, and be equipped with material loading buffer memory mechanism, when two-sided tectorial membrane mechanism trouble, can carry out the buffer memory with the material, and then do not influence other two-sided tectorial membrane mechanism work, guarantee operation normal operating, and then do not influence work efficiency, practicality are strong.

Description

Full-automatic multichannel double-sided laminating equipment

Technical Field

The utility model relates to a tectorial membrane technical field especially relates to a two-sided tectorial membrane equipment of full-automatic multichannel.

Background

In the field of manufacturing of glass cover plates of mobile phones, after the glass cover plates are produced, the glass cover plates need to be coated. The traditional process of operating the system is as follows: the cleaned mobile phone glass cover plate is taken out and placed on the plastic sucking disc manually from the multi-channel cleaning machine, and then the mobile phone glass cover plate is conveyed to the semi-automatic double-sided laminating machine from the plastic sucking disc to carry out manual single-sheet feeding and laminating, so that the degree of automation is low, the laminating efficiency is low, the labor cost is high, and the economic benefit is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a two-sided laminating equipment of full-automatic multichannel, this laminating equipment reasonable in design, compact structure can realize automatic material loading and tectorial membrane of multichannel, work efficiency is high, the running cost is low, and is equipped with material loading buffer memory mechanism, when having two-sided laminating mechanism trouble, can carry out the buffer memory with the material, and then do not influence other two-sided laminating mechanism work, guarantee operation normal operating, and then do not influence work efficiency, practicality are strong.

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

a full-automatic multi-channel double-sided film laminating device comprises a conveying roller mechanism, a plurality of material conveying mechanisms arranged at one end of the conveying roller mechanism, a plurality of first conveying belt mechanisms arranged between the plurality of material conveying mechanisms and the conveying roller mechanism, and a feeding and transferring mechanism arranged above the plurality of first conveying belt mechanisms; the material conveying mechanisms are arranged in parallel at intervals, and each material conveying mechanism is also provided with a double-faced film coating mechanism.

Furthermore, a feeding buffer mechanism for buffering materials is further arranged between the first conveyor belt mechanisms and the material conveying mechanisms.

Furthermore, the material loading buffer mechanism comprises a first buffer frame arranged perpendicular to the conveying direction of the material conveying mechanism, a first conveyor belt module arranged on the first buffer frame, and a first conveying motor used for driving the first conveyor belt module to operate.

Furthermore, the plurality of first conveyor belt mechanisms are arranged in parallel at intervals along the conveying direction of the material conveying mechanism, and each first conveyor belt mechanism comprises a first conveying frame, a second conveyor belt module arranged on the first conveying frame, and a second conveying motor used for driving the second conveyor belt module to operate.

Furthermore, 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 mechanism, 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 mechanisms.

Furthermore, each double-sided film covering mechanism comprises a film covering frame arranged on the material conveying 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 material conveying mechanism.

Adopt above-mentioned scheme, the beneficial effects of the utility model are that:

1) the automatic feeding device is reasonable in design, compact in structure, capable of realizing multi-channel automatic feeding, high in working efficiency, low in operation cost and strong in practicability;

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

3) be equipped with a plurality of two-sided tectorial membrane mechanisms, can realize the automatic tectorial membrane of multichannel material, practice thrift human cost, work efficiency height.

Drawings

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

fig. 2 is a perspective view of the loading transfer mechanism and the loading buffer mechanism of the present invention;

wherein the figures identify the description:

1-a transfer roller mechanism; 2-a material conveying mechanism;

3-a first conveyor belt mechanism; 4, a loading and transferring mechanism;

5, a double-sided film laminating mechanism; 6, a feeding buffer mechanism;

41-a first translation mechanism; 42 — a first beam;

43-a jaw module; 51, a film coating frame;

52-first unwinding wheel; 53-second unwinding wheel;

61 — first cache shelf; 62-a first conveyor belt module;

63-first transfer motor.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 2, the utility model provides a full-automatic multichannel double-sided laminating device, which comprises a conveying roller mechanism 1, a plurality of material conveying mechanisms 2 arranged at one end of the conveying roller mechanism 1, a plurality of first conveying belt mechanisms 3 arranged between the plurality of material conveying mechanisms 2 and the conveying roller mechanism 1, and a feeding and transferring mechanism 4 arranged above the plurality of first conveying belt mechanisms 3; the material conveying mechanisms 2 are arranged in parallel at intervals, and each material conveying mechanism 2 is provided with a double-faced film coating mechanism 5.

A feeding buffer mechanism 6 for buffering materials is arranged between the first conveyor mechanisms 3 and the material conveyor mechanisms 2; the feeding buffer mechanism 6 comprises a first buffer frame 61 arranged perpendicular to the conveying direction of the material conveying mechanism 2, a first conveyor belt module 62 arranged on the first buffer frame 61, and a first conveyor motor 63 for driving the first conveyor belt module 62 to operate; the plurality of first conveyor belt mechanisms 3 are arranged in parallel at intervals along the conveying direction of the material conveying mechanism 2, and each first conveyor belt mechanism 3 comprises a first conveying frame, a second conveyor belt module arranged on the first conveying frame and a second conveying motor used for driving the second conveyor belt module to operate; the feeding transfer mechanism 4 comprises a first translation mechanism 41 arranged along the conveying direction of the first conveyor belt mechanism 3 and close to the material conveying mechanism 2, a first cross beam 42 arranged perpendicular to the first translation mechanism 41 and in driving connection with the first cross beam, and a plurality of clamping jaw modules 43 arranged on the first cross beam 42; each clamping jaw module 43 is arranged above the corresponding first conveying belt mechanism 3, and the clamping jaw module 43 is used for transferring the materials conveyed on the corresponding first conveying belt mechanism 3 to the material conveying mechanism 2; each double-sided film covering mechanism 5 comprises a film covering frame 51 mounted on the material conveying mechanism 2, a film covering roller module mounted on the film covering frame 51, a first unwinding wheel 52 mounted on the film covering frame 51 and located above the film covering roller module, and a second unwinding wheel 53 arranged below the material conveying mechanism 2.

The utility model discloses the theory of operation:

with reference to fig. 1 to 2, in this embodiment, the apparatus further includes a feeding platform, the conveying roller mechanism 1 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 to the conveying roller mechanism 1; in this embodiment, the number of the first belt conveying mechanisms 3 is set to four (can be freely set according to actual needs, and the number is not limited), a plurality of material pressing plates are arranged on the top of the first conveying frame of each first belt conveying mechanism 3 perpendicular to the length direction of the first conveying frame at intervals, the conveyed materials can be limited, and the materials are prevented from falling off from the first belt conveying mechanisms 3.

The first translation mechanism 41 of the feeding transfer mechanism 4 comprises two first linear motor modules which are arranged in parallel at intervals, and one end of each of the material conveying mechanisms 2 is positioned between the two first linear motor modules; two ends of one side of the first cross beam 42 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 43 (4 clamping jaw modules in the embodiment) are arranged on one side of the first cross beam 42 along the length direction of the first cross beam; each clamping jaw module 43 comprises a first translation cylinder arranged on one side of the first cross beam 42 along the length direction of the first cross 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 materials conveyed by the first conveying belt mechanism 3 can be rotated by 90 ℃, and then are moved to the material conveying mechanism 2 through the driving of the first translation mechanism 41.

In addition, still be equipped with material loading buffer memory mechanism 6 between first conveyer belt mechanism 3 and material transport mechanism 2, in operation, if there is two-sided tectorial membrane mechanism 5 trouble, then with this two-sided tectorial membrane mechanism 5, the clamping jaw module 43 that material transport mechanism 2 corresponds can temporarily move the material to the first conveyer belt module 62 of material buffer memory mechanism 6, subsequently, first conveyer belt module 62 can convey the material to the tip of the material transport mechanism 2 that does not have the two-sided tectorial membrane mechanism 5 that the trouble corresponds, then, clamping jaw module 43 that corresponds with this material transport mechanism 2 can move the material on the first conveyer belt module 62 to the material transport mechanism 2, and then can guarantee the normal operating of work, and then guarantee work efficiency.

In the embodiment, the number of the material conveying mechanisms 2 is also four, so that four-channel material conveying can be realized, and the working efficiency is high; the material conveying mechanism 2 comprises a second conveying frame, a third conveying belt module arranged on the second conveying frame and a third conveying motor used for driving the third conveying belt module to operate; the tectorial membrane frame 51 of two-sided tectorial membrane mechanism 5 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 52 and the material area of second unreeling wheel 53, and then realize two-sided tectorial membrane, simple and convenient to the material.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A full-automatic multi-channel double-sided film laminating device is characterized by comprising a conveying roller mechanism, a plurality of material conveying mechanisms arranged at one end of the conveying roller mechanism, a plurality of first conveying belt mechanisms arranged between the material conveying mechanisms and the conveying roller mechanism, and a feeding and transferring mechanism arranged above the first conveying belt mechanisms; the material conveying mechanisms are arranged in parallel at intervals, and each material conveying mechanism is also provided with a double-faced film coating mechanism.

2. The full-automatic multi-channel double-sided laminating equipment according to claim 1, wherein a feeding buffer mechanism for buffering materials is further arranged between the first conveyor belt mechanisms and the material conveying mechanisms.

3. The full-automatic multi-channel double-sided laminating equipment according to claim 2, wherein the feeding buffer mechanism comprises a first buffer frame arranged perpendicular to the conveying direction of the material conveying mechanism, a first conveyor belt module arranged on the first buffer frame, and a first conveyor motor for driving the first conveyor belt module to operate.

4. The full-automatic multi-channel double-sided laminating device according to claim 1, wherein the first conveyor belt mechanisms are arranged in parallel and at intervals along a conveying direction of the material conveying mechanism, and each first conveyor belt mechanism comprises a first conveying frame, a second conveyor belt module mounted on the first conveying frame, and a second conveying motor for driving the second conveyor belt module to operate.

5. The full-automatic multi-channel double-sided laminating equipment according to claim 4, wherein 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 mechanism, 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 mechanisms.

6. The full-automatic multi-channel double-sided laminating apparatus according to claim 1, wherein each double-sided laminating mechanism comprises a laminating frame mounted on the material conveying 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 material conveying mechanism.

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