CN109834993B - Window patch device for color box production - Google Patents

Abstract

The invention discloses a window-sticking sheet device for color box production, which comprises a frame, a conveying pinch roller mechanism, an adsorption correction transmission platform, a rubberizing positioning transmission platform and a film supply mechanism, wherein the adsorption correction transmission platform and the rubberizing positioning transmission platform are arranged on the frame from front to back, the conveying pinch roller mechanism is arranged at the front end of the adsorption correction transmission platform, and the film supply mechanism is arranged on the rubberizing positioning transmission platform; according to the window film sticking device for color box production, provided by the invention, the color box sheets can be initially positioned and corrected in direction through the adsorption correction transmission platform, then the color box sheets are conveyed to the rubberizing positioning transmission platform, the sheets are equidistantly conveyed through the circulating cam driving device in the transmission platform, a single film can be separated from the film box mechanism through the arrangement of the film feeding mechanism and positioned through the film transfer positioning mechanism, then the film is sucked through the film transfer sucking disc mechanism, and the film is stuck with the sheets after rotation, so that the working efficiency is improved.

Description

Window patch device for color box production

Technical Field

The invention relates to the technical field of color box production, in particular to a window patch pasting device for color box production.

Background

With the increasing development of the communication industry today, the production of various mobile phones and electronic accessories is increasing. Every electronic product all needs corresponding packing carton, and a high-grade beautiful packing carton must bring good image for the product, increases user's purchase desire, and various box of high-grade all has openable lid, can clearly see the electronic product in the box through transparent window after various opening the face lid of customer, say: bluetooth headphones, chargers, and the like; such high-end packages generally have two characteristics: firstly, take the movable cover of inhaling, realize that the lid is from inhaling the principle that two ultra-thin magnet and iron sheet are pasted respectively through box body and lid and realize, secondly have the transparent window that can see inside product, transparent PPT film material's product perspective window adopts transparent thin slice and box body to pass through special glue bonding, and current window sheet process of pasting relies on the manual completion mostly, and production efficiency is low, has wasted a large amount of manpower and materials, is unfavorable for actual production.

Disclosure of Invention

In order to solve the technical problems, the technical scheme provided by the invention is as follows: the window film pasting device for color box production comprises a frame, a conveying pinch roller mechanism, an adsorption correction transmission platform, a rubberizing positioning transmission platform and a film supply mechanism, wherein the adsorption correction transmission platform and the rubberizing positioning transmission platform are arranged on the frame from front to back, the conveying pinch roller mechanism is arranged at the front end of the adsorption correction transmission platform, and the film supply mechanism is arranged on the rubberizing positioning transmission platform;

the adsorption correction transmission platform comprises a vacuum adsorption conveying belt, an adjustable guide rail and a correction blocking cylinder, wherein the adjustable guide rail is arranged on the upper part of the vacuum adsorption conveying belt along the arrangement direction of the vacuum adsorption conveying belt, one end, close to a conveying pinch roller mechanism, of the adjustable guide rail is connected with a rack through an adjustable guide rail bracket, the inner side of the other end is provided with the correction blocking cylinder, and the correction blocking cylinder is connected with the adjustable cylinder bracket through an adjustable cylinder connecting plate;

the conveying pinch roller mechanism comprises a conveying pinch roller connecting frame connected with the frame, a conveying pinch roller is arranged in the middle of the conveying pinch roller connecting frame, and an incoming material detection sensor is arranged on one side of the conveying pinch roller;

the rubberizing positioning and conveying platform comprises a support piano piece, lifting stop blocks, a feeding track and a circulating cam driving device, wherein the lifting stop blocks are arranged on two sides of the support piano piece and are connected with the feeding track, and the circulating cam driving device pushes the feeding track to move back and forth;

the film feeding mechanism comprises a mechanism support, a mechanism connecting frame, a film laminating sucking disc mechanism, a film transferring and positioning mechanism, a film transferring and sucking disc mechanism and a film box mechanism, wherein the mechanism support stretches across the upper part of the rubberizing positioning and conveying platform and is connected with the racks on two sides of the rubberizing positioning and conveying platform, the mechanism connecting frame is arranged at the rear end of the mechanism support, the film box mechanism is arranged at the top of the mechanism connecting frame, the film transferring and sucking disc mechanism is rotatably arranged at the lower part of the film transferring and sucking disc mechanism, the film transferring and positioning mechanism is arranged at the lower part of the film transferring and sucking disc mechanism so that the film transferring and sucking disc mechanism can absorb films from the bottom of the film box and rotate, the film enters the film transferring and positioning mechanism, and the film laminating sucking disc mechanism is rotatably arranged at the front end of the film transferring and positioning mechanism so that the film sucking disc mechanism can take out the films from the film transferring and turn to the rubberizing positioning and conveying platform.

As an improvement, the conveying press turbine is arranged along the sheet conveying direction, and a plurality of press wheels are arranged at the bottom of the conveying press turbine.

As an improvement, the interval between the adjustable guide rail inboard reduces gradually along sheet transportation direction from front to back and makes the space between the adjustable guide rail inboard form loudspeaker form, adjustable guide rail support includes the upper rail support of being connected with both sides frame, upper rail support downside is equipped with two respectively in the adjustable lower rail support of being connected of both sides frame, adjustable guide rail outside is through connecting riser and lower rail support, upper bracket connection, the lower rail support stretches out the frame and still is connected with the regulation runner outward.

As an improvement, the surface of the vacuum adsorption conveying belt is provided with a plurality of adsorption holes.

As an improvement, the circulating cam driving device comprises a cam motor, a swing rod and a feeding track pushing piece, one end of the swing rod is arranged at the output end of the cam motor, the other end of the swing rod is hinged with the feeding track pushing piece, the feeding track is movably connected to the feeding track pushing piece, the feeding track comprises a track conveying belt component arranged on two sides of a rubberizing positioning and conveying platform and a feeding rod movably arranged on the conveying belt component, the feeding track pushing piece is slidably connected to the feeding rod, the cam motor shaft rotates for a circle, the feeding rod walks back and forth along the track conveying belt, and the liftable stop block is connected with the upper portion of the feeding rod through the stop block connecting piece.

As an improvement, the mechanism connecting frame is obliquely arranged to the rear upper side of the mechanism support, the film box mechanism comprises film box plates which are oppositely arranged, the back of each film box plate is arranged on the film box support in an adjustable mode, a film pushing rod is arranged on the upper portion of the film box mechanism along the arrangement direction of the film box mechanism, an adjusting screw connected with the film box plate is arranged in the film support, and a film box width adjusting handle is arranged at the outer end of the adjusting screw.

As an improvement, the film transfer sucker mechanism comprises a film transfer rod, the film transfer rod is provided with a film transfer sucker corresponding to the bottom of the film cartridge mechanism, and one end of the film transfer rod is also provided with a film positioning and overturning cylinder for driving the film transfer rod to overturn.

As an improvement, the film transfer positioning mechanism comprises a film transfer positioning plate, one side of the film transfer positioning plate, which is far away from the film cartridge assembly, is provided with a transfer cartridge, and the opening of the transfer cartridge gradually decreases from top to bottom so that the transfer cartridge forms a horn-shaped opening.

As an improvement, film laminating sucking disc mechanism includes the film laminating pole, be equipped with laminating sucking disc promotion cylinder and set up the laminating sucking disc on laminating sucking disc promotion cylinder end on the film laminating pole, film laminating pole one end still is equipped with the laminating sucking disc upset servo reducer that drives the upset of film laminating pole.

As improvement, the number of the attaching sucker and the transferring sucker is at least two.

After adopting the structure, the invention has the following advantages: compared with manual operation, the window film sticking device for color box production has the advantages that the structure is reasonable, the working efficiency is greatly improved, color box sheets can be initially positioned and corrected by the adsorption correction transmission platform, then the color box sheets are conveyed to the rubberizing positioning transmission platform, the sheets are equidistantly conveyed by the circulating cam driving device in the transmission platform, a single film can be separated from the film box mechanism through the arrangement of the film feeding mechanism, the film is positioned through the film transfer positioning mechanism, then the film is sucked by the film transfer sucking disc mechanism, and the film is attached to the sheets after rotation, so that the working efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of a window-sticking device for color box production according to the present invention.

Fig. 2 is a schematic structural diagram of an adsorption correction transmission platform in a window-sticking device for color box production.

Fig. 3 is a schematic structural view of a circulating cam driving device in a window-sticking device for color box production.

Fig. 4 is a schematic view showing a film feeding mechanism in a window film sticking device for color box production.

Fig. 5 is a schematic view showing an internal structure of a film feeding mechanism in a window film sticking device for color box production according to the present invention.

As shown in the figure: 1. the device comprises a frame, 2, a conveying pinch roller mechanism, 21, a conveying pinch roller connecting frame, 22, a conveying pinch roller, 23, an incoming material detecting sensor, 3, an adsorption correction transmission platform, 31, a vacuum adsorption conveying belt, 32, an adjustable guide rail, 33, a correction blocking cylinder, 34, an adjustable guide rail bracket, 341, an upper guide rail bracket, 342, a lower guide rail bracket, 343, a connecting vertical plate, 344, an adjusting rotating wheel, 35, an adjustable cylinder connecting plate, 36, an adjustable cylinder bracket, 4, a rubberizing positioning transmission platform, 41, a support piece piano piece, 42, a liftable stop block, 43, a feeding rail, 431, a conveying belt assembly, 432, a feeding rod assembly, 44, a circulating cam driving device, 441, a cam motor, 442, a swinging rod, 443 and a feeding rail pushing piece, 45, a stop connecting piece, 451, a transverse stop connecting rod, 452, a vertical stop connecting block, 5, a film supply mechanism, 51, a mechanism support, 52, a mechanism connecting frame, 53, a film attaching sucker mechanism, 531, a film attaching rod, 532, an attaching sucker pushing cylinder 533, an attaching sucker 534, an attaching sucker overturning servo speed reducer, 54, a film transferring and positioning mechanism, 541, a film transferring and positioning plate, 542, a transferring box, 55, a film transferring sucker mechanism, 551, a film transferring rod, 552, a film transferring sucker, 553, a film positioning and overturning cylinder, 56, a film box mechanism, 561, a film box plate, 562, a film box support, 563, a film pushing rod, 564, an adjusting screw, 565 and a film box width adjusting handle.

Description of the embodiments

Referring to fig. 1-5, a window film sticking device for color box production comprises a frame 1, a conveying pinch roller mechanism 2, an adsorption correction transmission platform 3, a rubberizing positioning transmission platform 4 and a film supply mechanism 5, wherein the adsorption correction transmission platform 3 and the rubberizing positioning transmission platform 4 are arranged on the frame 1 from front to back, the conveying pinch roller mechanism 2 is arranged at the front end of the adsorption correction transmission platform 3, and the film supply mechanism 5 is arranged on the rubberizing positioning transmission platform 4;

the adsorption correction transmission platform 3 comprises a vacuum adsorption conveying belt 31, an adjustable guide rail 32 and a correction blocking cylinder 33, wherein the adjustable guide rail 32 is arranged at the upper part of the vacuum adsorption conveying belt 31 along the arrangement direction of the vacuum adsorption conveying belt 31, one end, close to the conveying pinch roller mechanism 2, of the adjustable guide rail 32 is connected with the frame 1 through an adjustable guide rail bracket 34, the inner side of the other end is provided with the correction blocking cylinder 33, and the correction blocking cylinder 33 is connected with an adjustable cylinder bracket 36 through an adjustable cylinder connecting plate 35;

the conveying pinch roller mechanism 2 comprises a conveying pinch roller connecting frame 21 connected with the frame 1, a conveying pinch roller 22 is arranged in the middle of the conveying pinch roller connecting frame 21, and an incoming material detection sensor 23 is arranged on one side of the conveying pinch roller 22;

the rubberizing positioning and conveying platform 4 comprises a support piano piece 41, a liftable stop block 42, a feeding track 43 and a circulating cam driving device 44, wherein the liftable stop block 42 is arranged on two sides of the support piano piece 41 and is connected with the feeding track 43, and the circulating cam driving device 44 pushes the feeding track 43 to move back and forth;

the film feeding mechanism 5 comprises a mechanism support 51, a mechanism connecting frame 52, a film attaching sucker mechanism 53, a film transferring and positioning mechanism 54, a film transferring sucker mechanism 55 and a film box mechanism 56, wherein the mechanism support 52 spans over the upper part of the film attaching and positioning transmission platform 4 and is connected with the machine frame 1 on two sides of the film attaching and positioning transmission platform 4, the mechanism connecting frame 52 is arranged at the rear end of the mechanism support 51, the film box mechanism 56 is arranged at the top of the mechanism connecting frame 52, the film transferring sucker mechanism 55 is rotatably arranged at the lower part of the film box mechanism 56, the film transferring and positioning mechanism 54 is arranged at the lower part of the film transferring sucker mechanism 55, so that the film transferring sucker mechanism 55 can absorb film from the bottom of the film box mechanism 56 and rotate, the film enters the film transferring and positioning mechanism 54, and the film attaching sucker mechanism 53 is rotatably arranged at the front end of the film transferring and positioning mechanism 54, so that the film attaching sucker mechanism 53 can take out of the film transferring and positioning mechanism 54 and turn to the film attaching and positioning transmission platform 4.

As a preferred embodiment of the present example, the conveying press wheel 22 is disposed along the sheet conveying direction, and a plurality of pressing wheels are disposed at the bottom of the conveying press wheel 22.

As a preferred embodiment of this example, the distance between the inner sides of the adjustable guide rails 32 gradually decreases from front to back along the sheet conveying direction so that the space between the inner sides of the adjustable guide rails 32 forms a horn shape, the adjustable guide rail bracket 34 includes an upper guide rail bracket 341 connected to the two side frames 1, two lower guide rail brackets 342 adjustably connected to the two side frames 1 are disposed at the lower side of the upper guide rail bracket 341, the outer sides of the adjustable guide rails 32 are connected to the lower guide rail brackets 342 and the upper brackets 341 through connecting vertical plates 343, and the lower guide rail brackets 342 extend out of the frames 1 and are further connected with adjusting wheels 344.

As a preferred embodiment of this example, the surface of the vacuum adsorption conveyor belt 31 is provided with a plurality of adsorption holes.

As a preferred embodiment of the present embodiment, the circulating cam driving device 44 includes a cam motor 441, a swing rod 442, and a feeding rail pushing member 443, one end of the swing rod 442 is disposed at an output end of the cam motor 441, the other end is hinged to the feeding rail pushing member 443, the feeding rail 43 is movably connected to the feeding rail pushing member 443, the feeding rail 43 includes a rail conveyor belt assembly 431 disposed at two sides of the rubberizing positioning and conveying platform 4 and a feeding rod assembly 432 movably disposed on the conveyor belt assembly 431, the feeding rail pushing member 443 is slidably connected to the feeding rod assembly 432, so that the feeding rod assembly 432 is rotated by the cam motor 441 to travel one round along the rail conveyor belt 431, and the liftable stop 42 is connected to an upper portion of the feeding rod 432 through the stop connection member 45. The stopper link 45 includes a lateral stopper link 451 provided laterally along the tray piano piece 41 and a vertical stopper link 452 connected with the feed lever 432.

As a preferred embodiment of this example, the mechanism connecting frame 52 is disposed obliquely to the upper rear of the mechanism support 51, the film cassette mechanism 56 includes a film cassette plate 561 disposed opposite to the film cassette plate 561, the back of the film cassette plate 561 is adjustably disposed on the film cassette support 562, the upper portion of the film cassette mechanism 56 is provided with a film push rod 563 along the arrangement direction of the film cassette mechanism 56, the film support 562 is provided with an adjusting screw 564 connected to the film cassette plate 561, and the outer end of the adjusting screw 564 is provided with a film cassette width adjusting handle 565.

As a preferred embodiment of this example, the film transfer chuck mechanism 55 includes a film transfer rod 551, the film transfer rod 551 is provided with a film transfer chuck 552 corresponding to the bottom of the film cartridge mechanism 56, and one end of the film transfer rod 551 is further provided with a film positioning and turning cylinder 553 for driving the film transfer rod 551 to turn.

As a preferred embodiment of the present embodiment, the film transferring and positioning mechanism 54 includes a film transferring and positioning plate 541, and a transferring cartridge 542 is disposed on a side of the film transferring and positioning plate 541 away from the film cartridge mechanism 56, and an opening of the transferring cartridge 542 gradually decreases from top to bottom so that the transferring cartridge 542 forms a horn-shaped opening.

As the preferred implementation of this embodiment, the film laminating sucking disc mechanism 53 includes a film laminating rod 531, a laminating sucking disc pushing cylinder 532 is arranged on the film laminating rod 531 and a laminating sucking disc 533 is arranged at the end of the laminating sucking disc pushing cylinder 532, and a laminating sucking disc overturning servo reducer 534 for driving the film laminating rod 531 to overturn is further arranged at one end of the film laminating rod 531.

As a preferred embodiment of the present embodiment, the number of the attaching suction cups 533 and the transferring suction cups 552 is at least two.

When the feeding detection sensor detects that the color box sheets come, the correction blocking cylinder is downward, and the vacuum adsorption conveying belt can rapidly run, so that the sheets are tightly attached to the platform and conveyed together for advancing due to the effects of the conveying pinch roller and the vacuum adsorption; the two guide rails with adjustable width are in a horn mouth shape, the positions of the sheets are deviated like left and right after the sheets enter the guide rails, and the horn mouth-shaped guide rails can be guided to the width positions of the rails along with the guide rails; when the sheet material moves to the position of the correction blocking cylinder, the two correction blocking cylinders can block the sheet material and correct the skew; after correction in two directions, the blocking cylinder is lifted, and the sheet is quickly conveyed to the rubberizing positioning and conveying platform under the adsorption action of the vacuum adsorption conveying belt; repeating the above actions if the incoming material is detected again;

in the rubberizing positioning transmission platform, a cam servo speed reducing motor is used as driving power, a cam rotation mode is adopted to push a feeding rod assembly to move back and forth, equidistant liftable stop blocks are arranged on the feeding rod assembly, a servo speed reducing shaft rotates for one circle, and the feeding rod assembly walks back and forth; when the feeding rod assembly is at the final limit, the stop block is synchronously lifted and pushes the color box sheet to the forefront limit along with the feeding rod assembly; then the stop block descends, the pushing track returns to the final limit, and the sheet is delivered forwards in a circulating step manner;

in the film feeding mechanism, a film transferring sucker mechanism swings to a film box mechanism (film taking position), vacuum sucks the film and swings to a film transferring positioning mechanism position; the film transferring sucker mechanism releases, and the film freely falls into the transferring box, because the transferring box is in a horn mouth shape, the film is automatically guided and positioned after falling into the transferring box; the film attaching sucker mechanism waits at the transferring and taking position at the moment, and after the film falls into the transferring and taking position, the attaching sucker pushes the air cylinder to stretch out to suck the film and then returns, and the film is pulled out of the transferring box; the film attaching sucker mechanism is turned down for 90 degrees, then the attaching sucker pushes the air cylinder to extend out so that the film is attached to the upper surface of the color box sheet, and the specific attaching position is adjusted in advance through the whole part mechanism; after the lamination is completed, the lamination sucker pushes the air cylinder to return, and then the air cylinder is turned upwards to the position of transferring the film to wait, so that the one-time lamination is completed.

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

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present invention, unless explicitly specified and limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is less level than the first feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives, and variations may be made in the above embodiments by those skilled in the art without departing from the spirit and principles of the invention.

Claims (8)

1. A paste window piece device for various box production, its characterized in that: the device comprises a frame, a conveying pinch roller mechanism, an adsorption correction transmission platform, a rubberizing positioning transmission platform and a film supply mechanism, wherein the adsorption correction transmission platform and the rubberizing positioning transmission platform are arranged on the frame from front to back, the conveying pinch roller mechanism is arranged at the front end of the adsorption correction transmission platform, and the film supply mechanism is arranged on the rubberizing positioning transmission platform;

the adsorption correction transmission platform comprises a vacuum adsorption conveying belt, an adjustable guide rail and a correction blocking cylinder, wherein the adjustable guide rail is arranged on the upper part of the vacuum adsorption conveying belt along the arrangement direction of the vacuum adsorption conveying belt, one end, close to a conveying pinch roller mechanism, of the adjustable guide rail is connected with a rack through an adjustable guide rail bracket, the inner side of the other end is provided with the correction blocking cylinder, and the correction blocking cylinder is connected with the adjustable cylinder bracket through an adjustable cylinder connecting plate;

the conveying pinch roller mechanism comprises a conveying pinch roller connecting frame connected with the frame, a conveying pinch roller is arranged in the middle of the conveying pinch roller connecting frame, and an incoming material detection sensor is arranged on one side of the conveying pinch roller;

the rubberizing positioning and conveying platform comprises a support piano piece, lifting stop blocks, a feeding track and a circulating cam driving device, wherein the lifting stop blocks are arranged on two sides of the support piano piece and are connected with the feeding track, and the circulating cam driving device pushes the feeding track to move back and forth;

the film feeding mechanism comprises a mechanism support, a mechanism connecting frame, a film laminating sucking disc mechanism, a film transferring and positioning mechanism, a film transferring sucking disc mechanism and a film box mechanism, wherein the mechanism support stretches across the upper part of the rubberizing positioning and conveying platform and is connected with the racks on two sides of the rubberizing positioning and conveying platform, the mechanism connecting frame is arranged at the rear end of the mechanism support, the film box mechanism is arranged at the top of the mechanism connecting frame, the film transferring sucking disc mechanism is rotatably arranged at the lower part of the film box mechanism, the film transferring and positioning mechanism is arranged at the lower part of the film transferring sucking disc mechanism so that the film transferring sucking disc mechanism can suck films from the bottom of the film box and rotate, the films enter the film transferring and positioning mechanism, and the film attaching sucking disc mechanism is rotatably arranged at the front end of the film transferring and positioning mechanism so that the film attaching sucking disc mechanism can take out the films from the film transferring and turn to the rubberizing positioning and conveying platform;

the space between the inner sides of the adjustable guide rails gradually decreases from front to back along the sheet conveying direction to enable the space between the inner sides of the adjustable guide rails to form a horn shape, the adjustable guide rail brackets comprise upper guide rail brackets connected with the machine frames at two sides, two lower guide rail brackets which are respectively connected with the machine frames at two sides in an adjustable manner are arranged at the lower sides of the upper guide rail brackets, the outer sides of the adjustable guide rails are connected with the lower guide rail brackets and the upper brackets through connecting vertical plates, and the lower guide rail brackets extend out of the machine frames and are also connected with adjusting rotating wheels;

the circulating cam driving device comprises a cam motor, a swing rod and a feeding track pushing piece, one end of the swing rod is arranged at the output end of the cam motor, the other end of the swing rod is hinged to the feeding track pushing piece, the feeding track is movably connected to the feeding track pushing piece, the feeding track comprises a track conveying belt component arranged on two sides of a rubberizing positioning and conveying platform and a feeding rod movably arranged on the conveying belt component, the feeding track pushing piece is slidably connected to the feeding rod component, the cam motor shaft rotates for a circle, the feeding rod component walks back and forth along the track conveying belt, and the liftable stop block is connected with the upper portion of the feeding rod component through the stop block connecting piece.

2. A window-covering sheet apparatus for color box production as claimed in claim 1, wherein: the conveying press turbine is arranged along the sheet conveying direction, and a plurality of pinch rollers are arranged at the bottom of the conveying press turbine.

3. A window-covering sheet apparatus for color box production as claimed in claim 1, wherein: the surface of the vacuum adsorption conveying belt is provided with a plurality of adsorption holes.

4. A window-covering sheet apparatus for color box production as claimed in claim 1, wherein: the film box mechanism comprises a film box plate, wherein the back of the film box plate is arranged on the film box support in an adjustable mode, a film pushing rod is arranged on the upper portion of the film box mechanism along the arrangement direction of the film box mechanism, an adjusting screw connected with the film box plate is arranged in the film support, and a film box width adjusting handle is arranged at the outer end of the adjusting screw.

5. A window-covering sheet apparatus for color box production as claimed in claim 1, wherein: the film transfer sucker mechanism comprises a film transfer rod, the film transfer rod is provided with a film transfer sucker corresponding to the bottom of the film cartridge mechanism, and one end of the film transfer rod is also provided with a film positioning and overturning cylinder for driving the film transfer rod to overturn.

6. A window-covering sheet apparatus for color box production as claimed in claim 1, wherein: the film transfer positioning mechanism comprises a film transfer positioning plate, one side of the film transfer positioning plate, which is far away from the film box component, is provided with a transfer box, and the opening of the transfer box gradually reduces from top to bottom so that the transfer box forms a horn-shaped opening.

7. A window-covering sheet apparatus for color box production as claimed in claim 1, wherein: the film laminating sucking disc mechanism includes the film laminating pole, be equipped with laminating sucking disc promotion cylinder on the film laminating pole and set up the laminating sucking disc on laminating sucking disc promotion cylinder end, film laminating pole one end still is equipped with the laminating sucking disc upset servo reducer of drive film laminating pole upset.

8. A window-covering sheet apparatus for color box production as claimed in claim 1, wherein: the number of the attaching suction disc and the transferring suction disc is at least two.