CN212393054U - Film sticking machine - Google Patents

Abstract

The utility model belongs to the technical field of circuit board production facility, especially, relate to a sticking film machine. This sticking film machine includes the frame, material book output mechanism, first feed mechanism, stock form winding mechanism, second feed mechanism, sticking film mechanism and unloading seat, the material is rolled up through material book output mechanism, first feed mechanism, the stock form winding mechanism is accomplished the blowing and is carried to placing on the seat, the circuit board is placed in the circuit board deposits the seat, and remove to middle platform through the transfer structure, then adsorb copper foil membrane material and shift to middle platform through sticking film mechanism and carry out the pad pasting operation, obtain the product spare after accomplishing the pad pasting operation, at last rethread transfer structure shifts the product spare to unloading seat and deposits, repeat the material loading with this analogizing, the pad pasting, lower whole course of working of product, constantly processing production. By the technical scheme, the problems that in the prior art, the process of pasting the copper foil membrane material on the circuit board depends on manual participation and the production efficiency is low are solved.

Description

Film sticking machine

Technical Field

The utility model belongs to the technical field of circuit board production facility, especially, relate to a sticking film machine.

Background

In the production process of the circuit board, a copper foil film material is required to be pasted on the circuit board. In the prior art, the process of mounting the copper foil membrane material on the circuit board, no matter loading, mounting and discharging, is still in a semi-automatic production state, the processing operation at each processing position can not lack manual participation, the labor intensity of workers is increased, the labor cost of enterprise production is increased, and the production efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sticking film machine aims at solving among the prior art and has the problem that relies on artifical participation, production efficiency to the process of circuit board dress copper foil membrane material to hang.

In order to achieve the above object, the utility model adopts the following technical scheme: a film laminator comprising: a frame; the material roll output mechanism comprises a loading material roll, a guide material roll and a cutting material roll, the loading material roll, the guide material roll and the cutting material roll are all rotatably arranged on the rack, the material roll sequentially bypasses the guide material roll and the cutting material roll after being drawn out of the loading material roll, and the cutting material roll cuts a copper foil of the material roll but does not cut protective paper; the first feeding mechanism comprises a placing seat and a power structure, the power structure is installed on the rack, the placing seat is connected to the rack in a sliding mode and is provided with a first station and a second station, the power structure drives the placing seat to move back and forth between the first station and the second station, a material roll passes through the placing seat after coming out of a cutter material roll, and when the placing seat moves from the first station to the second station, copper foil cut into sheets is laid on the placing seat; the roll paper winding mechanism comprises a winding material roller and a power motor, the power motor is mounted on the rack, the winding material roller is rotatably mounted on the rack, and the power motor drives the winding material roller to rotate so as to wind the protection paper; the second feeding mechanism comprises a circuit board storage seat, a middle platform and a transfer structure, the circuit board storage seat, the middle platform and the transfer structure are all arranged on the rack, and the transfer structure transfers the circuit board stored in the circuit board storage seat to the middle platform; the film sticking mechanism is assembled on the rack, and takes the flaky copper foil on the placing seat at the second station and transfers the flaky copper foil to the middle platform to be stuck with the circuit board to obtain a product piece; the blanking seat is installed on the rack, the blanking seat and the circuit board storage seat are respectively located on two sides of the middle platform, and the product piece located on the middle platform is taken by the transfer structure and transferred to the blanking seat for storage.

Optionally, the film laminator further comprises: the first detection device is arranged on the rack and is positioned between the second station and the middle platform; the control device is electrically connected with the power structure, the power motor, the transfer structure, the film sticking mechanism and the first detection device respectively; the film sticking mechanism comprises a first moving device, a horizontal adjusting device and a film sticking adsorption plate, the first moving device is installed on the rack, the horizontal adjusting device is connected to the first moving device, the film sticking adsorption plate is connected to the horizontal adjusting device, and the first moving device, the horizontal adjusting device and the film sticking adsorption plate are all electrically connected with the control device.

Optionally, the film sticking machine further comprises a second detection device, the second detection device is mounted on the frame and located between the placing seat and the cutter material roller, the second detection device is electrically connected with the control device, and the material roll penetrates through the position under the second detection device.

Optionally, the film sticking machine further comprises a third detection device, the third detection device is mounted on the rack and located above the middle platform, the third detection device is electrically connected with the control device, and the third detection device is used for detecting whether the product piece is qualified or not; the blanking seat comprises a first blanking seat and a second blanking seat, and the first blanking seat is arranged right above the second blanking seat; when the third detection device detects that the product piece is qualified, the transfer structure transfers the qualified product piece to the first blanking seat for storage; when the third detection device detects that the product piece is unqualified, the transfer structure transfers the unqualified product piece to the second blanking seat for storage.

Optionally, the transfer structure includes a second moving device, a transfer sucker and a third moving device, the third moving device is installed in the rack, the second moving device is connected to the third moving device, the transfer sucker is connected to the second moving device, the second moving device drives the transfer sucker to move up and down, and the second moving device, the transfer sucker and the third moving device are all electrically connected to the control device.

Optionally, the film laminating machine further includes an intermediate conveying rail and an intermediate driving device, the intermediate conveying rail and the intermediate driving device are both mounted on the frame, an extending direction of the intermediate conveying rail is perpendicular to a moving direction of the film laminating mechanism, the intermediate platform is slidably connected to the intermediate conveying rail, the intermediate driving device is in driving connection with the intermediate platform, and the intermediate driving device is electrically connected with the control device.

Optionally, the film laminating machine further includes a detection moving device, the detection moving device is installed on the frame, the third detection device is connected to the detection moving device, at least two intermediate platforms are arranged in parallel, a corresponding intermediate transfer rail and an intermediate driving device are respectively arranged corresponding to each intermediate platform, the detection moving device drives the third detection device to move across all the intermediate platforms, and the moving direction of the third detection device is perpendicular to the extending direction of the intermediate transfer rails.

Optionally, the first detection device, the second detection device and the third detection device are all CCD camera systems.

Optionally, a through notch is formed in the placing seat, the placing seat is divided into a penetrating and winding portion and an adsorption bearing portion through the notch, the material roll is placed on the penetrating and winding portion, the protection paper and the copper foil are separated and then penetrate through the notch, the copper foil crosses the through notch to reach the adsorption bearing portion, and the protection paper penetrating through the notch is wound on the winding material roller.

Optionally, the film sticking machine further comprises a protective cover, the protective cover is assembled on the rack to form an assembly space, and the material roll output mechanism, the first feeding mechanism, the paper roll winding mechanism, the second feeding mechanism, the film sticking mechanism and the discharging seat are all located in the assembly space.

The utility model discloses following beneficial effect has at least:

use the utility model discloses a sticking film machine pastes the copper foil membrane material to the circuit board, from material book material blowing to placing slice copper foil membrane material on placing the seat, circuit board material loading, paste copper foil membrane material and unloading, whole manufacturing procedure all go on through corresponding core component module in the sticking film machine, need not to reuse any manpower at the processing operation overall process and carry out supplementary processing production, realize automatic processing production, saved the cost of labor to processing production efficiency has been improved greatly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is an assembly appearance structure diagram of a film sticking machine according to an embodiment of the present invention;

fig. 2 is an assembly structure diagram of a first viewing angle of the laminator according to the embodiment of the present invention after the protective cover is detached;

fig. 3 is an assembly structure diagram of the laminator according to the embodiment of the present invention at the second viewing angle after the protective cover is detached;

FIG. 4 is an enlarged view taken at A in FIG. 3;

fig. 5 is an assembly structure diagram of the laminator according to the embodiment of the present invention at the third viewing angle after the protective cover is detached.

Wherein, in the figures, the respective reference numerals:

10. a frame; 21. a material roll output mechanism; 211. a loading roller; 212. a guide material roller; 213. a cutter material roller; 221. a placing seat; 2211. a threading part; 2212. an adsorption bearing part; 222. a power structure; 223. passing through the gap; 231. a material winding roller; 40. a second feeding mechanism; 41. a circuit board storage seat; 42. an intermediate platform; 421. a middle transfer rail; 43. transferring the structure; 431. a second mobile device; 432. transferring the sucker; 433. a third mobile device; 50. a film pasting mechanism; 51. a first mobile device; 52. a horizontal adjustment device; 53. sticking a film adsorption plate; 61. a blanking seat; 611. a first blanking seat; 612. a second blanking seat; 70. a first detection device; 31. a second detection device; 32. a third detection device; 33. detecting a mobile device; 80. a control device; 200. a protective cover.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1 to 5, the film sticking machine according to the embodiment of the present invention includes a frame 10, a material roll output mechanism 21, a first material loading mechanism, a roll paper winding mechanism, a second material loading mechanism 40, a film sticking mechanism 50 and a material unloading seat 61, wherein these core modules constitute the core components of the film sticking machine, the material roll output mechanism 21 includes a material loading roller 211, a material guiding roller 212 and a material cutting roller 213, a material roll (not shown, the material roll is combined by a copper foil and a protective paper) is mounted on the material loading roller 211, the first material loading mechanism includes a placing seat 221 and a power structure 222, the roll paper winding mechanism includes a material rolling roller 231 and a power motor (not shown), the second material loading mechanism 40 includes a circuit board storage seat 41, an intermediate platform 42 and a transfer structure 43. In the specific assembly process, the loading roller 211, the guiding roller 212 and the cutting roller 213 are all rotatably mounted on the frame 10, the material roll is drawn out from the loading roller 211 and then sequentially bypasses the guiding roller 212 and the cutting roller 213, and the cutting roller 213 cuts the copper foil of the material roll but does not cut the protective paper. The power structure 222 is installed on the machine frame 10, the placing seat 221 is connected to the machine frame 10 in a sliding manner, the placing seat 221 is provided with a first station (not shown) and a second station (not shown), the power structure 222 drives the placing seat 221 to move back and forth between the first station and the second station, a material roll passes through the placing seat 221 after coming out of the cutting material roll 213, and when the placing seat 221 moves from the first station to the second station, copper foil cut into sheets is flatly laid on the placing seat 221. Power motor installs in frame 10, and rolling material roller 231 rotationally installs in frame 10, when placing seat 221 and getting back to first station from the second station, power motor drives rolling material roller 231 and rotates in order to the rolling protection paper. Further, the circuit board storage 41, the intermediate platform 42 and the transfer structure 43 are all mounted on the rack 10, and the transfer structure 43 transfers the circuit boards (not shown) stored in the circuit board storage 41 to the intermediate platform 42. The film pasting mechanism 50 is assembled on the frame 10, the film pasting mechanism 50 takes the sheet-shaped copper foil on the placing seat 221 of the second station and transfers the sheet-shaped copper foil to the middle platform 42 to be pasted with the circuit board to obtain a product piece (not shown), the blanking seat 61 is installed on the frame 10, the blanking seat 61 and the circuit board storage seat 41 are respectively located on two sides of the middle platform 42, and the transfer structure 43 takes the product piece on the middle platform 42 and transfers the product piece to the blanking seat 61 for storage.

Use the utility model discloses a sticking film machine pastes the copper foil membrane material to the circuit board, from material book material blowing to placing slice copper foil membrane material on placing seat 221, circuit board material loading, paste copper foil membrane material and unloading, whole manufacturing procedure all go on through corresponding core component module in the sticking film machine, need not to reuse any manpower at the processing operation overall process and carry out supplementary processing production, realize automated processing production, saved the cost of labor to processing production efficiency has been improved greatly.

In order to perform the film pasting operation more precisely to paste the copper foil film material on the circuit board, the film pasting machine further includes a first detection device 70 and a control device 80, as shown in fig. 1 and 5, the first detection device 70 is installed on the frame 10, the first detection device 70 is located between the second station and the intermediate platform 42, and the power structure 222, the power motor, the transfer structure 43, the film pasting mechanism 50 and the first detection device 70 are respectively electrically connected with the control device 80. In the process that the film sticking mechanism 50 extracts the copper foil film material and transfers the copper foil film material to the intermediate platform 42 from the second station, the first detection device 70 detects the position of the copper foil film material, and since the circuit board is positioned by the positioning structure which is pre-designed on the intermediate platform 42 after being placed on the intermediate platform 42, when the first detection device 70 detects that the position of the copper foil film material is incorrect, the control device 80 controls the film sticking mechanism 50 to adjust the position of the copper foil film material, and then the film sticking operation is continued. In the present embodiment, the film sticking mechanism 50 includes a first moving device 51, a horizontal adjustment device 52 and a film sticking absorption plate 53, the first moving device 51 is installed on the frame 10, the horizontal adjustment device 52 is connected to the first moving device 51, the film sticking absorption plate 53 is connected to the horizontal adjustment device 52, and the first moving device 51, the horizontal adjustment device 52 and the film sticking absorption plate 53 are all electrically connected to the control device 80. When the copper foil membrane material comes from the first station to the second station along with the placing seat 221, the copper foil membrane material at the second station is just under the film sticking adsorption plate 53, the control device 80 is used for wrapping the film sticking adsorption plate 53 and vacuumizing to adsorb the copper foil membrane material, then the control device 80 controls the first moving device 51 to drive the film sticking adsorption plate 53 to move from the second station to the middle platform 42, when the copper foil membrane material is moved to pass through the first detection device 70, the control device 80 controls the first detection device 70 to detect the position of the copper foil membrane material on the film sticking adsorption plate 53, if the position of the copper foil membrane material is detected to be deviated, the control device 80 controls the horizontal adjusting device 52 to adjust the position of the copper foil membrane material, then the copper foil membrane material is continuously moved to the middle platform 42, if the position of the copper foil membrane material is detected to be correct, the control device 80 directly controls the first moving device 51 to drive the copper foil membrane material to move to the middle platform 42 to carry out the film sticking operation, the purpose of real-time monitoring and adjustment is achieved, the film sticking accuracy is improved, and waste products caused by film sticking deviation are reduced.

As shown in fig. 2 and fig. 3, the film sticking machine further includes a second detecting device 31, the second detecting device 31 is mounted on the frame 10 and located between the placing seat 221 and the cutting material roller 213, the second detecting device 31 is electrically connected to the control device 80, and the material roll passes through the second detecting device 31. The second detection device 31 is used for detecting the material roll so as to monitor whether the material roll exists or not and simultaneously detect whether the material roll has position deviation in the discharging and conveying process. If the second detecting device 31 detects that the material roll has a position deviation during the feeding and conveying process, the control device 80 controls an alarm (not shown) to give an alarm sound to prompt a worker, so that the worker can correct the position deviation of the material roll, thereby always ensuring that the film material is correctly conveyed to the placing seat 221.

Further, the film laminator further comprises a third detection device 32, the third detection device 32 is installed on the frame 10 and located above the middle platform 42, the third detection device 32 is electrically connected with the control device 80, and the third detection device 32 is used for detecting whether the product is qualified. As shown in fig. 2 and 5, the blanking seat 61 includes a first blanking seat 611 and a second blanking seat 612, and the first blanking seat 611 is disposed right above the second blanking seat 612. When the third detecting device 32 detects that the product is qualified, the transferring structure 43 transfers the qualified product to the first blanking seat 611 for storage; when the third detecting device 32 detects that the product piece is unqualified, the transferring structure 43 transfers the unqualified product piece to the second blanking seat 612 for storage.

In this embodiment, in order to more accurately detect the qualified rate of the product pieces that have been subjected to the film laminating operation and are still located on the intermediate platform 42, the film laminating machine further includes an intermediate conveying rail 421 and an intermediate driving device (not shown), wherein the intermediate conveying rail 421 and the intermediate driving device are both mounted on the frame 10, the extending direction of the intermediate conveying rail 421 is perpendicular to the moving direction of the film laminating mechanism 50, the intermediate platform 42 is slidably connected to the intermediate conveying rail 421, the intermediate driving device is in driving connection with the intermediate platform 42, and the intermediate driving device is electrically connected to the control device 80. Further, the film laminator further includes a detection moving device 33, the detection moving device 33 is installed on the frame 10, the third detection device 32 is connected to the detection moving device 33, at least two middle platforms 42 are arranged in parallel, corresponding middle conveying rails 421 and middle driving devices are respectively arranged corresponding to each middle platform 42, the detection moving device 33 drives the third detection device 32 to move across all the middle platforms 42, and the moving direction of the third detection device 32 is perpendicular to the extending direction of the middle conveying rails 421. In the process of detecting the qualified rate of the product pieces, the control device 80 controls the middle driving device to drive the middle platform 42 to move along the middle conveying rail 421, and the control device 80 controls the detection moving device 33 to drive the third detection device 32 to move in cooperation with the movement of the middle platform 42, so that the purpose of detecting the product pieces on the middle platform 42 in the full range is achieved, and the condition of missing detection is prevented.

Preferably, the first detecting device 70, the second detecting device 31 and the third detecting device 32 are all CCD camera systems. Moreover, the control device 80 of the embodiment may be assembled by using a widely-used and mature MCU control module in the prior art, or may be assembled by using a mature PLC control module in the industry, or may be assembled by using a control microcomputer, or may be assembled by using a control module developed autonomously, again without limitation, as long as the control module is capable of implementing and completing the control function required by the film sticking machine.

Specifically, as shown in fig. 2, 3 and 5, the transfer structure 43 includes a second moving device 431, a transfer chuck 432 and a third moving device 433, the third moving device 433 is installed on the rack 10, the second moving device 431 is connected to the third moving device 433, the third moving device 433 drives the second moving device 431 to horizontally move on the installation table of the rack 10, the transfer chuck 432 is connected to the second moving device 431, the second moving device 431 drives the transfer chuck 432 to move up and down, and the second moving device 431, the transfer chuck 432 and the third moving device 433 are all electrically connected to the control device 80. Work through third mobile device 433 to drive transfer sucking disc 432 and can just face circuit board storage holder 41, middle platform 42 and unloading seat 61 respectively, drive transfer sucking disc 432 lift through second mobile device 431 and remove, just can adsorb when transfer sucking disc 432 is just facing circuit board storage holder 41 and draw the circuit board, or can adsorb when transfer sucking disc 432 is just facing middle platform 42 and draw the product piece, or can deposit qualified product piece when transfer sucking disc 432 moves to first unloading seat 611, or can place unqualified product piece in second unloading seat 612 in order to wait for the recovery when transfer sucking disc 432 moves to second unloading seat 612.

In order to ensure that the copper foil of the material roll is separated from the protective paper during the process of winding the material roll, the placement base 221 is provided with a through notch 223, and the placement base 221 is divided into a winding portion 2211 and an adsorption carrying portion 2212 by the notch 223, as shown in fig. 4. The roll is placed on the passing portion 2211, and the protection paper is separated from the copper foil and then passes through the passing gap 223, and a turning roll (not shown) is disposed under the passing portion 2211, the copper foil passes through the passing gap 223 to reach the suction bearing portion 2212, and the protection paper passing through the passing gap 223 passes around the turning roll to change the direction before being wound on the take-up roll 231.

As shown in fig. 1, prevent dust for each part of sticking film machine to guarantee the cleanness of processing environment, prevent to drop on the surface of product work piece and cause the pollution at the process dust of the copper foil coating membrane material of pasting, consequently, the utility model discloses a, sticking film machine still includes safety cover 200, and safety cover 200 assembles and forms the assembly space in frame 10, and material roll output mechanism 21, first feed mechanism, stock form winding mechanism, second feed mechanism 40, sticking film mechanism 50 and unloading seat 61 all are located the assembly space.

The utility model discloses in, the absorption portion of bearing 2212 of placing seat 221, pad pasting adsorption plate 53, middle platform 42 and transfer sucking disc 432 all adsorb and stabilize the copper foil membrane material above that through the evacuation mode, therefore, this pad pasting machine is provided with vacuum pump (not shown) and many branch control solenoid valve (not shown), vacuum pump and many branch control solenoid valve respectively with controlling means 80 electric connection, adsorb the portion of bearing 2212, pad pasting adsorption plate 53, middle platform 42 and transfer sucking disc 432 are linked together with one of them branch road of many branch control solenoid valve respectively. Therefore, the control device 80 controls the multiple branches of the electromagnetic valves to be turned on and off, so as to perform vacuum suction or stop on the suction carrying portion 2212, the film sticking suction plate 53, the intermediate stage 42, and the transfer chuck 432.

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

Claims (10)

1. A film laminator, comprising:

a frame (10);

the material roll output mechanism (21) comprises a loading roller (211), a guiding roller (212) and a cutting roller (213), the loading roller (211), the guiding roller (212) and the cutting roller (213) are all rotatably mounted on the frame (10), the material roll is drawn out from the loading roller (211) and then sequentially bypasses the guiding roller (212) and the cutting roller (213), and the cutting roller (213) cuts the copper foil of the material roll but does not cut the protective paper;

the first feeding mechanism comprises a placing seat (221) and a power structure (222), the power structure (222) is installed on the rack (10), the placing seat (221) is connected to the rack (10) in a sliding mode, the placing seat (221) is provided with a first station and a second station, the power structure (222) drives the placing seat (221) to move back and forth between the first station and the second station, the material roll passes through the placing seat (221) after coming out of the cutting material roll (213), and when the placing seat (221) moves from the first station to the second station, the copper foil cut into sheets is flatly laid on the placing seat (221);

the roll paper winding mechanism comprises a winding material roller (231) and a power motor, the power motor is installed on the rack (10), the winding material roller (231) is rotatably installed on the rack (10), and the power motor drives the winding material roller (231) to rotate so as to wind the protection paper;

the second feeding mechanism (40), the second feeding mechanism (40) comprises a circuit board storage seat (41), an intermediate platform (42) and a transfer structure (43), the circuit board storage seat (41), the intermediate platform (42) and the transfer structure (43) are all installed on the rack (10), and the transfer structure (43) transfers the circuit board stored in the circuit board storage seat (41) to the intermediate platform (42);

the film sticking mechanism (50) is assembled on the rack (10), and the film sticking mechanism (50) takes the flaky copper foil on the placing seat (221) at the second station and transfers the flaky copper foil to the middle platform (42) to stick a film on a circuit board to obtain a product piece;

the blanking seat (61), the blanking seat (61) install in frame (10), blanking seat (61) with circuit board deposits seat (41) and is located respectively the both sides of middle platform (42), transfer structure (43) get be located on middle platform (42) the product spare and transfer to blanking seat (61) are deposited.

2. The film laminator according to claim 1,

the laminator still includes:

a first detection device (70), said first detection device (70) being mounted to said frame (10), said first detection device (70) being located between said second station and said intermediate platform (42);

the control device (80), the power structure (222), the power motor, the transfer structure (43), the film sticking mechanism (50) and the first detection device (70) are respectively and electrically connected with the control device (80);

the film sticking mechanism (50) comprises a first moving device (51), a horizontal adjusting device (52) and a film sticking adsorption plate (53), the first moving device (51) is installed on the rack (10), the horizontal adjusting device (52) is connected to the first moving device (51), the film sticking adsorption plate (53) is connected to the horizontal adjusting device (52), and the first moving device (51), the horizontal adjusting device (52) and the film sticking adsorption plate (53) are electrically connected with the control device (80).

3. The film laminator according to claim 2,

the film sticking machine further comprises a second detection device (31), the second detection device (31) is installed on the rack (10) and located between the placing seat (221) and the cutting material roller (213), the second detection device (31) is electrically connected with the control device (80), and the material roll penetrates through the position under the second detection device (31).

4. The film laminator according to claim 3,

the film sticking machine further comprises a third detection device (32), the third detection device (32) is installed on the rack (10) and located above the middle platform (42), the third detection device (32) is electrically connected with the control device (80), and the third detection device (32) is used for detecting whether the product is qualified or not;

the blanking seat (61) comprises a first blanking seat (611) and a second blanking seat (612), and the first blanking seat (611) is arranged right above the second blanking seat (612);

when the third detection device (32) detects that the product pieces are qualified, the transfer structure (43) transfers the qualified product pieces to the first blanking seat (611) for storage; when the third detection device (32) detects that the product pieces are unqualified, the transfer structure (43) transfers the unqualified product pieces to the second blanking seat (612) for storage.

5. The film laminator according to claim 2,

the transfer structure (43) comprises a second moving device (431), a transfer sucker (432) and a third moving device (433), the third moving device (433) is installed on the rack (10), the second moving device (431) is connected to the third moving device (433), the transfer sucker (432) is connected to the second moving device (431), the second moving device (431) drives the transfer sucker (432) to move up and down, and the second moving device (431), the transfer sucker (432) and the third moving device (433) are all electrically connected with a control device (80).

6. The film laminator according to claim 4,

the laminator still includes middle transfer rail (421) and middle drive arrangement, middle transfer rail (421) with middle drive arrangement all install in frame (10), the extending direction perpendicular to of middle transfer rail (421) the moving direction of pad pasting mechanism (50), middle platform (42) slidable connect in middle transfer rail (421), middle drive arrangement with middle platform (42) drive connection, middle drive arrangement with controlling means (80) electric connection.

7. The film laminator according to claim 6,

the film sticking machine is still including detecting mobile device (33), it installs to detect mobile device (33) on frame (10), third detection device (32) are connected detect mobile device (33) on, be provided with two at least side by side middle platform (42), corresponding to every middle platform (42) are equipped with the correspondence respectively middle transfer rail (421) with middle drive arrangement, it drives to detect mobile device (33) third detection device (32) span all middle platform (42) remove, please the moving direction perpendicular to of third detection device (32) the extending direction of middle transfer rail (421).

8. The film laminator according to claim 4,

the first detection device (70), the second detection device (31) and the third detection device (32) are all CCD camera systems.

9. The film laminator according to claim 1,

it passes through breach (223) to be equipped with on placing seat (221), will through breach (223) place seat (221) divide into around portion (2211) and adsorb carrier portion (2212), the material is rolled up and is placed on wearing around portion (2211), just protection paper with the copper foil passes after separating pass through breach (223), the copper foil is crossed reach through breach (223) adsorb carrier portion (2212), pass through breach (223) protection paper wind in on material roller (231) of rolling.

10. The film laminator according to claim 1,

the laminator still includes safety cover (200), safety cover (200) assembly is in form the assembly space on frame (10), material book output mechanism (21) first feed mechanism stock form winding mechanism second feed mechanism (40) laminating mechanism (50) with unloading seat (61) all are located the assembly space.

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