A kind of Full automatic doubler for screen sticking film
Technical field
The utility model relates to electronic production field, especially a kind of a kind of Full automatic doubler for screen sticking film that carries out pad pasting for the screen such as LED, LCD.
Background technology
Along with the application of electronic product in the middle of life is more and more, more and more extensive, the manufacturing of electronic product is also more and more advanced, this also develops the screen of electronic product and has formed variety, and for the electronic product of touch-screen series, also manually complete and be faced with the improvement of automation by current for the pad pasting of screen.
Summary of the invention
In order to solve the problems of the prior art, the utility model provides a kind of Full automatic doubler for screen sticking film.
A kind of Full automatic doubler for screen sticking film provided by the utility model, is characterized in that: by frame mechanism, left jig mechanism, right jig mechanism, CCD automatic aligning mechanism, vacuum mechanism, automatic coating mechanism and composition of the control system;
Described left jig mechanism is fixedly mounted in described frame mechanism; Described right jig mechanism is fixedly mounted in described frame mechanism, and becomes left and right with described left jig mechanism and be symmetrical arranged; Described CCD automatic aligning mechanism is fixedly mounted in described frame mechanism, and with described left jig mechanism and vertical setting of described right jig mechanism; Described vacuum mechanism is fixedly mounted in described frame mechanism, and with described left jig mechanism and vertical setting of described right jig mechanism; Described automatic coating mechanism is fixedly mounted in described frame mechanism;
Further, described frame mechanism also comprises the compositions such as frame main body, castor, fixing corner bracket, control panel, horizontal adapter plate, at right angle setting plate;
Described castor is fixedly mounted on the lower end of described frame main body, and is separately positioned on four angles of described frame main body, for the movement of integral device;
Described fixing corner bracket is fixedly mounted on the lower end of described frame main body, and is separately positioned on four angles of described frame main body, for the fixed placement to integral device;
Described control panel is located at the upper right corner of described frame, for installation control system;
Described horizontal adapter plate is fixedly mounted on the horizontal surface of described frame main body;
Described at right angle setting plate is fixedly mounted on the vertical surface of described frame main body;
Further, described left jig mechanism also comprises the compositions such as tool fixed mount, tool platform, tool limiting stopper, tool guide rail, tool ball screw control setup;
Described tool fixed mount is fixedly mounted on described tool guide rail, and be fixedly connected with the movable block of described tool ball screw control setup, by the control of described tool ball screw control setup, on described tool guide rail, carry out parallel to realize described tool fixed mount;
Described tool platform is fixedly mounted on described tool fixed mount, places for the fixed position to product;
Described tool limiting stopper is fixedly mounted on described tool platform, and can, by the movement of the relative position to described tool limiting stopper and described tool platform, can carry out big or small adjusting to described tool platform;
Described lower vacuum cavity is fixedly mounted on described horizontal adapter plate, and is arranged at the periphery of described left jig mechanism, forms hemi-closure space to realize between described left jig mechanism and described horizontal adapter plate;
Same, described right jig mechanism also comprises the compositions such as right tool fixed mount, tool platform, tool limiting stopper, tool ball screw control setup, tool guide rail;
Described right tool fixed mount is fixedly mounted on described tool guide rail, and be fixedly connected with the movable block of described tool ball screw control setup, by the control of described tool ball screw control setup, on described tool guide rail, carry out parallel to realize described right tool fixed mount;
Described tool platform is fixedly mounted on described right tool fixed mount, for the fixed placement to product;
Described tool limiting stopper is fixedly mounted on described tool platform, and can regulate by the mobile of the relative position to described tool limiting stopper and described tool platform, can regulate the size of described tool platform;
Described lower vacuum cavity is fixedly mounted on described horizontal adapter plate, and is arranged at the periphery of described left jig mechanism, forms hemi-closure space to realize between described right jig mechanism and described horizontal adapter plate;
Further, described CCD automatic aligning mechanism also comprises that CCD mounting bracket, CCD(do not indicate), the composition such as movable screw pair (do not indicate), CCD bit block;
Described CCD mounting bracket is fixedly mounted on described horizontal adapter plate;
Described movable screw pair (not indicating) is fixedly mounted on described CCD mounting bracket;
Described CCD(does not indicate) be fixedly mounted on the movable block of described movable screw pair (not indicating), and by the control of described movable screw pair, described CCD is carried out the movement of parallel position;
Described CCD bit block is fixedly mounted on described CCD(and does not indicate) upper, and control the corresponding of induction system on mechanism and described right jig mechanism by described CCD bit block and described left and right, to realize the automatic aligning of described CCD;
Further, described vacuum mechanism also comprises the compositions such as cylinder, cylinder mounting blocks, motor, vacuum cavity, slide rail, motor ball wire bar pair, spring, pipe link, contiguous block (not indicating);
Described cylinder is fixedly mounted on described at right angle setting plate;
Described motor is fixedly mounted on described cylinder mounting blocks, and controls the perpendicular movement up and down of described motor by the activity of described cylinder;
Described vacuum cavity is connected with described cylinder mounting blocks by described pipe link, and is also provided with described spring on described pipe link, by the control of described motor, described vacuum cavity is moved up and down vertically;
Described slide rail is fixedly mounted on described at right angle setting plate;
Described motor ball wire bar pair is fixedly mounted on described at right angle setting plate, and be fixedly connected with described cylinder and described slide rail by described contiguous block (not indicating), and by the control of described motor ball wire bar pair, described vacuum cavity is carried out to the movement of horizontal direction;
Further, described automatic coating mechanism also comprises the compositions such as thin-film unreeling, automatic attaching, cutting knife;
Described film, and automatically unreels by described thin-film unreeling device with the form fixed placement of rolling on described thin-film unreeling device;
Described automatic attaching for by film automatic attaching at product, and by described cutting knife, film is cut off automatically;
Further, a kind of Full automatic doubler for screen sticking film provided by the utility model, by manually product being positioned on tool platform, and move to automatic film-laminating device place by the tool that the ball screw subcontrol of tool is placed with product, and product is carried out to film on surface, after pad pasting completes, the ball screw subcontrol tool by tool moves to CCD automatic aligning mechanism place again, and by the automatic aligning of CCD automatic aligning mechanism, tool is fixed to location, after realizing location, by vacuum mechanism, the product that is pasted with film is vacuumized again, by vacuumizing the seamless applying and bubble-free laminating of realizing between product and film, the last artificial product that takes out.
The beneficial effects of the utility model are: a kind of Full automatic doubler for screen sticking film that the utility model provides, whole process using automation completes, and adopt the placement of left and right pair of tool to product, to realize unremitting running, and the product that completes pad pasting is vacuumized, to realize seamless applying and bubble-free laminating.
[accompanying drawing explanation]
Fig. 1 is integral structure shaft side figure of the present utility model;
Fig. 2 is integral structure front view of the present utility model;
Fig. 3 is jig structure front view of the present utility model;
Fig. 4 is vacuum mechanism front view of the present utility model.
[specifically implementing formula]
For to provided by the utility model be a kind of Full automatic doubler for screen sticking film, for this technology is explained clearlyer, special described in detail with accompanying drawing.
As shown in Fig. 1 and Fig. 4, provided by the utility model is a kind of Full automatic doubler for screen sticking film.It is characterized in that: formed by frame mechanism 100, left jig mechanism 200, right jig mechanism 300, CCD automatic aligning mechanism 400, vacuum mechanism 500, automatic coating mechanism 600 and control system (not indicating) etc.;
Described left jig mechanism 200 is fixedly mounted in described frame mechanism 100; Described right jig mechanism 300 is fixedly mounted in described frame mechanism 100, and with 200 one-tenth left and right being symmetrical arranged of described left jig mechanism; Described CCD automatic aligning mechanism 400 is fixedly mounted in described frame mechanism 100, and with described left jig mechanism 200 and the vertical setting of described right jig mechanism 300; Described vacuum mechanism 500 is fixedly mounted in described frame mechanism 100, and with described left jig mechanism 200 and the vertical setting of described right jig mechanism 300; Described automatic coating mechanism 600 is fixedly mounted in described frame mechanism 100;
Further, described frame mechanism 100 also comprises the compositions such as frame main body 101, castor 102, fixing corner bracket 103, control panel 104, horizontal adapter plate 105, at right angle setting plate 106;
Described castor 102 is fixedly mounted on the lower end of described frame main body 101, and is separately positioned on four angles of described frame main body 101, for the movement of integral device;
Described fixing corner bracket 103 is fixedly mounted on the lower end of described frame main body 101, and is separately positioned on four angles of described frame main body 101, for the fixed placement to integral device;
Described control panel 104 is located at the upper right corner of described frame, for installation control system;
Described horizontal adapter plate 105 is fixedly mounted on the horizontal surface of described frame main body 101;
Described at right angle setting plate 106 is fixedly mounted on the vertical surface of described frame main body 101;
Further, described left jig mechanism 200 also comprises the compositions such as tool fixed mount 201, tool platform 202, tool limiting stopper 203, tool guide rail 204, tool ball screw control setup 205, lower vacuum cavity 206;
Described tool fixed mount 201 is fixedly mounted on described tool guide rail 204, and be fixedly connected with the movable block of described tool ball screw control setup 205, by the control of described tool ball screw control setup 205, on described tool guide rail 204, carry out parallel to realize described tool fixed mount 201;
Described tool platform 202 is fixedly mounted on described tool fixed mount 201, places for the fixed position to product;
Described tool limiting stopper 203 is fixedly mounted on described tool platform 202, and can, by the movement with the relative position of described tool platform 202 to described tool limiting stopper 203, can carry out big or small adjusting to described tool platform 202;
Described lower vacuum cavity 206 is fixedly mounted on described horizontal adapter plate 105, and is arranged at the periphery of described left jig mechanism 200, forms hemi-closure space to realize between described left jig mechanism 200 and described horizontal adapter plate 105;
Same, described right jig mechanism also comprises the compositions such as right tool fixed mount 201, tool platform 202, tool limiting stopper 203, tool ball screw control setup 205, tool guide rail 204;
Described right tool fixed mount 201 is fixedly mounted on described tool guide rail 204, and be fixedly connected with the movable block of described tool ball screw control setup 205, by the control of described tool ball screw control setup 205, on described tool guide rail 204, carry out parallel to realize described right tool fixed mount 201;
Described tool platform 202 is fixedly mounted on described right tool fixed mount 201, for the fixed placement to product;
Described tool limiting stopper 203 is fixedly mounted on described tool platform 202, and can, by described tool limiting stopper 203 and the mobile of relative position of described tool platform 202 are regulated, can regulate the size of described tool platform 202;
Described lower vacuum cavity 206 is fixedly mounted on described horizontal adapter plate 105, and is arranged at the periphery of described left jig mechanism 200, forms hemi-closure space to realize between described right jig mechanism 300 and described horizontal adapter plate 105;
Further, described CCD automatic aligning mechanism 400 also comprises that CCD mounting bracket 401, CCD(do not indicate), the composition such as movable screw pair (do not indicate), CCD bit block 404;
Described CCD mounting bracket 401 is fixedly mounted on described horizontal adapter plate 105;
Described movable screw pair (not indicating) is fixedly mounted on described CCD mounting bracket 401;
Described CCD(does not indicate) be fixedly mounted on the movable block of described movable screw pair (do not indicate), and by the control of described movable screw pair (not sign), described CCD(is not indicated) carry out the movement of parallel position;
Described CCD bit block 404 is fixedly mounted on described CCD(and does not indicate) upper, and control the corresponding of induction system on mechanism and described right jig mechanism 300 by described CCD bit block 404 and described left and right, do not indicate to realize described CCD() automatic aligning;
Further, described vacuum mechanism 500 also comprises the compositions such as cylinder 501, cylinder mounting blocks 502, motor 503, vacuum cavity 504, slide rail 505, motor ball wire bar pair 506, spring 507, pipe link 508, vacuum machine 509;
Described cylinder 501 is fixedly mounted on described at right angle setting plate 106;
Described motor 503 is fixedly mounted on described cylinder mounting blocks 502, and controls the perpendicular movement up and down of described motor 503 by the activity of described cylinder 501;
Described vacuum cavity 504 is connected with described cylinder mounting blocks 502 by described pipe link, and on described pipe link, is also provided with described spring 507, by the control of described motor 503, described vacuum cavity 504 is moved up and down vertically;
Described slide rail 505 is fixedly mounted on described at right angle setting plate 106;
Described motor ball wire bar pair 506 is fixedly mounted on described at right angle setting plate 106, and do not indicate by described contiguous block 508() be fixedly connected with described cylinder 501 and described slide rail 505, and by the control of described motor ball wire bar pair 506, described vacuum cavity 504 is carried out to the movement of horizontal direction;
Further, described automatic coating mechanism 600 also comprises the compositions such as thin-film unreeling 601, automatic attaching 602, cutting knife 603;
Described film is upper in described thin-film unreeling 601 devices with the form fixed placement of rolling, and automatically unreels by described thin-film unreeling 601 devices;
Described automatic attaching 602 for by film automatic attaching 602 at product, and by described cutting knife 603, film is cut off automatically.
Above content is in conjunction with concrete preferred implementation further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, without departing from the concept of the premise utility, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.