CN215620262U - Card sticking machine - Google Patents

Abstract

The utility model discloses a card pasting machine, which comprises a card pasting machine frame, wherein a paper feeding module, a carrying and shaping module, a screen printing module, a visual card pasting module and an air suction flow module are arranged on the card pasting machine frame, paper to be pasted is placed on the paper feeding module, then the paper is carried and shaped through the carrying and shaping module to form a paper box, and then the paper box sequentially passes through the screen printing module and the visual card pasting module under the action of the air suction flow module to finish card pasting operation. The card sticking machine provided by the utility model is simple in structure and convenient to use, and can be used for simultaneously forming and sticking the paper box. Meanwhile, the card sticking efficiency is high, and the requirement of large-scale production can be met.

Description

Card sticking machine

Technical Field

The utility model belongs to the technical field of production and processing of paper boxes, and particularly relates to a card sticking machine.

Background

With the development of the manufacturing industry, the production and manufacture of the paper boxes become more and more extensive, and the paper boxes are required to be stuck in a special product packaging production process. The existing card sticking equipment is usually to carry out the card sticking process and the paper box forming process by a plurality of pieces of equipment respectively. Therefore, the card pasting cost is too high, the workload of operating different devices by operators is increased, and the card pasting efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provides the card sticking machine which is simple in structure, convenient to use, low in manufacturing cost and high in card sticking efficiency.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides a card sticking machine, includes the card sticking machine frame, is equipped with paper feeding module, transport plastic module, silk screen printing module, vision card sticking module and the flowing water module that induced drafts on the card sticking machine frame, treats that the paper of card sticking is placed on the paper feeding module, then carries through transport plastic module and forms the carton after the plastic, then passes through silk screen printing module and vision card sticking module in proper order under the effect of the flowing water module that induced drafts, accomplishes the card sticking operation.

Preferably, the paper feeding module includes paper feeding bracing piece, first feed bin part, second feed bin part, feed bin switching cylinder and feed bin bottom plate, and the paper feeding bracing piece is fixed in pasting the card frame, and the cylinder end that the feed bin switched the cylinder links to each other with pasting the card frame, and the tailpiece of the piston rod of feed bin switching cylinder links to each other with the bottom of feed bin bottom plate, and the feed bin bottom plate passes through the slider and links to each other with the paper feeding bracing piece, and first feed bin part and second feed bin part are located the feed bin bottom plate, and the feed bin switches the cylinder and promotes the motion of feed bin bottom plate along the paper feeding bracing piece.

Preferably, the first bin component comprises a first bin main body, a first bin supporting plate, a first bin paper-feeding motor, a first bin paper-feeding screw rod, a first bin paper-feeding guide rod, a first bin paper-feeding upper limit sensor and a first bin paper-feeding lower limit sensor, the first bin paper-feeding motor and the first bin paper-feeding guide rod are located at the bottom of the bin bottom plate, the end of the first bin paper-feeding screw rod penetrates through the first bin paper-feeding motor and then is rotatably connected with the first bin supporting plate, the first bin supporting plate is located inside the first bin main body, the first bin paper-feeding upper limit sensor and the first bin paper-feeding lower limit sensor are located on the first bin paper-feeding guide rod, and the first bin paper-feeding motor drives the first bin paper-feeding screw rod to move so as to push the first bin supporting plate to move; the second cartridge component has the same structure as the first cartridge component.

Preferably, the carrying and shaping module comprises a carrying support, a shaping support, a carrying servo motor, a carrying cylinder, a carrying connecting piece, a carrying first sucker, a carrying second sucker, a shaping first cylinder and a shaping second cylinder, wherein the carrying cylinder is connected with the carrying support through a carrying slider, the carrying servo motor drives the carrying slider to move on the carrying support, a piston rod end of the carrying cylinder is connected with the carrying connecting piece, the carrying cylinder pushes the carrying connecting piece to move up and down, and the carrying first sucker and the carrying second sucker are positioned on the carrying connecting piece; the shaping first cylinder and the shaping second cylinder are positioned in the shaping support, a shaping first cylinder shaping piece is arranged on the shaping first cylinder, a shaping second cylinder shaping piece is arranged on the shaping second cylinder, and the shaping first cylinder and the shaping second cylinder respectively drive the shaping first cylinder shaping piece and the shaping second cylinder shaping piece to finish shaping operation on paper; after the paper is adsorbed by the first conveying sucker and the second conveying sucker, the paper moves under the work of the conveying servo motor and the conveying cylinder.

Preferably, the carrying connecting piece is in a U-shaped structure.

Preferably, the silk-screen module comprises a silk-screen module support, a silk-screen cylinder, a silk-screen guide rod, a silk-screen connecting frame, a silk-screen synchronizing wheel, a silk-screen synchronizing belt, a first cylinder of a silk-screen scraper, a second cylinder of the silk-screen scraper, a slide block of the silk-screen scraper and a silk-screen plate, the silk-screen connecting frame comprises a first support of the silk-screen connecting frame, a first cross rod of the silk-screen connecting frame, a support shaft of the silk-screen connecting frame and a second support of the silk-screen connecting frame, a piston rod end of the silk-screen cylinder penetrates through the silk-screen module support to be connected with the first support of the silk-screen connecting frame, and the silk-screen guide rod penetrates through the silk-screen module support to be connected with the first support of the silk-screen connecting frame; the two ends of a first cross rod of a silk-screen connecting frame are connected with a first support of the silk-screen connecting frame, the two ends of a support shaft of the silk-screen connecting frame penetrate through a second support of the silk-screen connecting frame and then are connected with the first support of the silk-screen connecting frame, a silk-screen plate is connected with the bottom of the second support of the silk-screen connecting frame, the number of silk-screen synchronizing wheels is two, the silk-screen synchronizing wheels are distributed at the two ends of the first support of the silk-screen connecting frame and are connected through a silk-screen synchronizing belt, a first cylinder of a silk-screen scraper and a second cylinder of the silk-screen scraper are respectively sleeved on the support shaft of the silk-screen connecting frame through a slide block of the silk-screen scraper, and the slide block of the silk-screen scraper is connected with the silk-screen synchronizing belt; the first cylinder of the silk-screen scraper is provided with a first silk-screen scraper, the second cylinder of the silk-screen scraper is provided with a second silk-screen scraper, the first cylinder of the silk-screen scraper drives the first silk-screen scraper to move, and the second cylinder of the silk-screen scraper drives the second silk-screen scraper to move.

Preferably, the vision card sticking module comprises a vision card sticking support, a vision card sticking robot, a vision card sticking light source, a vision card sticking first suction cup, a vision card sticking staggered cylinder, a vision card sticking second suction cup, a vision card sticking taking cylinder and a vision card sticking fixing part are arranged on the vision card sticking support, a base of the vision card sticking robot is fixedly connected with the vision card sticking support, the vision card sticking first suction cup is positioned at the bottom of the vision card sticking robot, a vision card sticking sliding support is arranged on the vision card sticking support and is in sliding connection with the vision card sticking support, the vision card sticking staggered cylinder is connected with a vision card sticking support sliding block, the vision card sticking taking cylinder is connected with the vision card sticking support, and a piston rod end of the vision card sticking taking cylinder is connected with the vision card sticking second suction cup; the visual card sticking robot comprises a visual card sticking fixing part, a visual card sticking taking cylinder, a visual card sticking sliding support, a visual card sticking dislocation cylinder, a visual card sticking robot body and a visual card sticking robot body.

Preferably, the air suction flow water module comprises a fan, an air suction shell, an air suction belt, an air suction motor and an air suction rotating shaft, wherein the air suction rotating shaft is distributed on the sticking and clamping machine frame in parallel and is connected through the air suction belt; be equipped with the casing hole that induced drafts on the casing that induced drafts, the belt that induced drafts moves on the casing that induced drafts, is equipped with the belt hole that induced drafts on the belt that induced drafts, and the casing that induced drafts links to each other with the fan, and the fan makes the casing inside production air suction that induced drafts to adsorb the paper through the casing hole that induced drafts and the belt hole that induced drafts.

The utility model has the beneficial effects that: the card sticking machine provided by the utility model is simple in structure and convenient to use, and can be used for simultaneously forming and sticking the paper box. Meanwhile, the card sticking efficiency is high, and the requirement of large-scale production can be met.

Drawings

FIG. 1 is a schematic view of a card affixing machine according to the present invention;

FIG. 2 is a schematic diagram of the structure of a paper feeding module according to the present invention;

FIG. 3 is a schematic structural diagram of a carrier truing module according to the present invention;

FIG. 4 is a schematic structural diagram of a silk-screen module according to the present invention;

fig. 5 is a schematic structural diagram of the visual sticker module of the present invention.

Description of reference numerals: 1. a card pasting rack; 2. a paper feeding module; 3. a carrying and shaping module; 4. a screen printing module; 5. a visual card pasting module; 6. an induced draft flow module; 20. a paper feed support bar; 21. a first bin member; 22. a second bin assembly; 23. a bin switching cylinder; 24. a bin floor; 30. carrying a servo motor; 31. a carrying cylinder; 32. carrying the connecting piece; 33. carrying the first sucker; 34. carrying the second sucker; 35. shaping the first cylinder; 36. shaping the second cylinder; 40. screen printing module support; 41. a screen printing cylinder; 42. silk-screen printing of a guide rod; 43. screen printing connecting frames; 44. printing a synchronous wheel by silk screen; 45. silk-screen printing a synchronous belt; 46. a first cylinder of a silk-screen scraper; 47. a second cylinder of the silk-screen scraper; 48. screen printing of a screen plate; 51. a vision card sticking robot; 52. a visual sticker card light source; 53. the visual sticker is clamped with a first sucker; 54. a visual sticking card staggered cylinder; 55. the visual sticker is clamped with a second sucker; 56. a vision sticking card material taking cylinder; 57. a visual sticker fastener; 61. a fan; 210. a first bin body; 211. a first bin support plate; 212. a first bin paper feeding motor; 213. a first stock bin paper feeding screw rod; 214. a first bin paper feeding guide rod; 215. a paper feeding upper limit sensor of a first stock bin; 216. a paper feeding lower limit sensor of a first stock bin; 431. a first bracket of a silk-screen connecting frame; 432. a first cross rod of the silk-screen connecting frame; 433. supporting a shaft by a silk-screen connecting frame; 434. and a second bracket of the silk-screen connecting frame.

Detailed Description

The utility model is further described with reference to the following figures and specific embodiments:

as shown in fig. 1 to 5, the card pasting machine provided by the utility model comprises a card pasting machine frame 1, wherein a paper feeding module 2, a carrying and shaping module 3, a screen printing module 4, a visual card pasting module 5 and an air suction flowing water module 6 are arranged on the card pasting machine frame 1, paper to be pasted is placed on the paper feeding module 2, then the paper is carried and shaped by the carrying and shaping module 3 to form a paper box, and then the paper box sequentially passes through the screen printing module 4 and the visual card pasting module 5 under the action of the air suction flowing water module 6 to finish card pasting operation.

The paper feeding module 2 comprises a paper feeding support rod 20, a first stock bin component 21, a second stock bin component 22, a stock bin switching cylinder 23 and a stock bin bottom plate 24, the paper feeding support rod 20 is fixed on the card sticking frame 1, and the cylinder end of the stock bin switching cylinder 23 is connected with the card sticking frame 1. The piston rod end of the bin switching cylinder 23 is connected with the bottom of the bin bottom plate 24, and the bin bottom plate 24 is connected with the paper feeding support rod 20 through a sliding block. The first and second bin members 21 and 22 are located on a bin bottom plate 24, and a bin switching cylinder 23 pushes the bin bottom plate 24 to move along the paper feeding support rod 20.

In this embodiment, the paper feeding support rods 20 are distributed in two parallel to the card pasting frame 1, and the sliding blocks connected to the bin bottom plate 24 and the paper feeding support rods 20 are arranged on the tops of the paper feeding support rods 20 in a clamping manner.

The first bin member 21 includes a first bin main body 210, a first bin support plate 211, a first bin paper-feeding motor 212, a first bin paper-feeding screw 213, a first bin paper-feeding guide rod 214, a first bin paper-feeding upper limit sensor 215, and a first bin paper-feeding lower limit sensor 216, and the first bin paper-feeding motor 212 and the first bin paper-feeding guide rod 214 are located at the bottom of the bin bottom plate 24. The end of the first bin paper feeding screw rod 213 passes through the first bin paper feeding motor 212 and then is rotatably connected with the first bin supporting plate 211, the first bin supporting plate 211 is located in the first bin main body 210, and the first bin paper feeding upper limit sensor 215 and the first bin paper feeding lower limit sensor 216 are located on the first bin paper feeding guide rod 214. The first bin paper feeding motor 212 drives the first bin paper feeding screw rod 213 to move, so as to push the first bin supporting plate 211 to move, and the structure of the second bin part 22 is the same as that of the first bin part 21.

First feed bin main part 210 includes four first feed bin main part backup pads, and four first feed bin main part backup pads enclose into the middle structure that is the rectangle, and the bottom of first feed bin main part backup pad passes through the bolt with feed bin bottom plate 24 and links to each other. First feed bin main part backup pad is the indent structure, and the terminal surface of first feed bin main part backup pad is trapezoidal form.

First feed bin paper feed motor 212 is the run-through motor, and first feed bin paper feed lead screw 213 wears to locate first feed bin paper feed motor 212. The first bin paper feeding motor 212 drives the first bin paper feeding screw rod 213 to move up and down when working.

Spacing inductor 215 is gone up to first feed bin paper feeding and spacing inductor 216 is down connected with first feed bin paper feeding motor 212 electricity under first feed bin paper feeding inductor 215 and the first feed bin paper feeding when first feed bin paper feeding lead screw 213 motion in-process, be close to respectively on the first feed bin paper feeding spacing inductor 215 and the first feed bin paper feeding during spacing inductor 216, first feed bin paper feeding motor 212 all stop work, then avoid surpassing the dangerous situation appearance of design range. The paper is placed on first bin support plate 211, and is spacing through first bin main body support plate.

The conveying shaping module 3 comprises a conveying support, a shaping support, a conveying servo motor 30, a conveying cylinder 31, a conveying connecting piece 32, a first conveying suction cup 33, a second conveying suction cup 34, a first shaping cylinder 35 and a second shaping cylinder 36, wherein the conveying cylinder 31 is connected with the conveying support through a conveying sliding block, the conveying servo motor 30 drives the conveying sliding block to move on the conveying support, a piston rod end of the conveying cylinder 31 is connected with the conveying connecting piece 32, the conveying cylinder 31 pushes the conveying connecting piece 32 to move up and down, and the first conveying suction cup 33 and the second conveying suction cup 34 are located on the conveying connecting piece 32. The shaping first cylinder 35 and the shaping second cylinder 36 are located in the shaping support, a shaping first cylinder shaping piece is arranged on the shaping first cylinder 35, a shaping second cylinder shaping piece is arranged on the shaping second cylinder 36, and the shaping first cylinder shaping piece and the shaping second cylinder shaping piece are driven by the shaping first cylinder 35 and the shaping second cylinder 36 respectively to finish shaping operation of paper. The sheet is attracted by the first suction pad 33 and the second suction pad 34 and then moved by the operation of the conveyance servomotor 30 and the conveyance cylinder 31.

The conveying support is provided with a conveying support rotating shaft and a conveying support belt, the conveying servo motor 30 is connected with the conveying support rotating shaft, the conveying support rotating shaft penetrates through the conveying support belt, and the conveying support belt is fixedly connected with the conveying sliding block. The carrying servo motor 30 drives the carrying support rotating shaft to rotate when working, so as to drive the carrying support belt and the carrying sliding block to move, and then drive the carrying cylinder 31 to move.

The first and second conveyance suction pads 33 and 34 are connected to a conventional device capable of generating vacuum suction force, and the carton is sucked by air suction. In the embodiment, the carrying connecting member 32 has a "U" shape, and the carrying first suction cup 33 and the carrying second suction cup 34 are respectively disposed at two ends of the carrying connecting member 32. The number of the carrying first suction cups 33 and the number of the carrying second suction cups 34 are plural and are arranged in parallel on the carrying link 32, respectively, so that the cartons can be stably sucked.

When the conveying connecting piece 32 places the adsorbed paper on the shaping support, the shaping first air cylinder 35 and the shaping second air cylinder 36 work, and the shaping operation of the paper box is carried out on the paper through the shaping first air cylinder shaping piece and the shaping second air cylinder shaping piece, so that the shaping operation is completed. The shaped paper box is placed on the air suction flow line module 6 through the carrying connecting piece 32, and subsequent production operation is carried out.

The silk-screen module 4 comprises a silk-screen module support 40, a silk-screen cylinder 41, a silk-screen guide rod 42, a silk-screen connecting frame 43, a silk-screen synchronizing wheel 44, a silk-screen synchronizing belt 45, a silk-screen scraper first cylinder 46, a silk-screen scraper second cylinder 47, a silk-screen scraper sliding block and a silk-screen plate 48, the silk-screen connecting frame 43 comprises a silk-screen connecting frame first support 431, a silk-screen connecting frame first cross rod 432, a silk-screen connecting frame supporting shaft 433 and a silk-screen connecting frame second support 434, a piston rod end of the silk-screen cylinder 41 penetrates through the silk-screen module support 40 to be connected with the silk-screen connecting frame first support 431, and the silk-screen guide rod 42 penetrates through the silk-screen module support 40 to be connected with the silk-screen connecting frame first support 431. The both ends of the first horizontal pole 432 of silk screen connection frame link to each other with the first support 431 of silk screen connection frame, the both ends of silk screen connection frame back shaft 433 pass behind silk screen connection frame second support 434 and link to each other with the first support 431 of silk screen connection frame, silk screen net plate 48 links to each other with the bottom of silk screen connection frame second support 434, the quantity of silk screen synchronizing wheel 44 is two and distributes at the both ends of the first support 431 of silk screen connection frame and link to each other through silk screen hold-in range 45, the first cylinder 46 of silk screen scraper and silk screen scraper second cylinder 47 are established respectively on silk screen connection frame back shaft 433 through silk screen scraper slider cover, silk screen scraper slider links to each other with silk screen hold-in range 45. Be equipped with the first scraper of silk screen printing on the first cylinder 46 of silk screen printing scraper, be equipped with the silk screen printing second scraper on the silk screen printing scraper second cylinder 47, the first cylinder 46 of silk screen printing scraper drives the first scraper motion of silk screen printing, and silk screen printing scraper second cylinder 47 drives the motion of silk screen printing second scraper.

A screen printing connecting frame motor is arranged on the screen printing connecting frame 43 and connected with the screen printing synchronous wheel 44, and a screen printing synchronous belt 45 is sleeved on the screen printing synchronous wheel 44. When the screen printing connecting frame motor works, the screen printing synchronous wheel 44 is driven to rotate, and then the screen printing synchronous belt 45 is driven to move. The screen printing scraper sliding block is fixedly connected with the screen printing synchronous belt 45, and the screen printing scraper first air cylinder 46 and the screen printing scraper second air cylinder 47 on the screen printing scraper sliding block are driven to move when the screen printing synchronous belt 45 moves, so that the screen printing first scraper and the screen printing second scraper slide on the upper portion of the screen printing screen plate 48.

After the paper box moves to the position below the silk screen module bracket 40 through the air suction flow module 6, the silk screen air cylinder 41 works to push the silk screen connecting frame 43 to move downwards, and the silk screen gluing operation is completed on the paper box through the silk screen plate 48. The screen printing plate 48 is of a groove-shaped structure, and the bottom of the screen printing plate 48 is provided with small holes in a net structure. When the bottom of the screen printing screen plate 48 is in contact with the surface of the paper box, the screen printing first scraper and the screen printing second scraper move in the groove in the screen printing screen plate 48, so that the viscose is scraped to the paper box through the small holes at the bottom of the screen printing screen plate 48. The viscose in the groove of the screen printing screen plate 48 is in the screen printing screen plate 48, and due to the diameter of the small holes at the bottom of the screen printing screen plate 48 and the distribution density of the small holes, the viscose can not flow out of the screen printing screen plate 48 under the condition of no scraping of a scraper. And in the scraping process of the screen printing first scraper and the screen printing second scraper, the silk screen printing first scraper and the screen printing second scraper enter the surface of the paper box through small holes at the bottom of the groove of the screen printing screen plate 48. The glue on the screen plate 48 is a prior art device used for screen printing glue application.

The vision card sticking module 5 comprises a vision card sticking support, a vision card sticking robot 51, a vision card sticking light source 52, a vision card sticking first suction cup 53, a vision card sticking dislocation cylinder 54, a vision card sticking second suction cup 55, a vision card sticking material taking cylinder 56 and a vision card sticking fixing piece 57 which are arranged on the vision card sticking support, wherein the base of the vision card sticking robot 51 is fixedly connected with the vision card sticking support, and the vision card sticking first suction cup 53 is positioned at the bottom of the vision card sticking robot 51. The visual sticker card support is provided with a visual sticker card sliding support which is connected with the visual sticker card support in a sliding mode, and the visual sticker card dislocation cylinder 54 is connected with the visual sticker card support sliding block. The vision card-sticking material-taking cylinder 56 is connected with the vision card-sticking support, and the piston rod end of the vision card-sticking material-taking cylinder 56 is connected with the vision card-sticking second suction cup 55.

The card to be pasted is placed on the visual pasting card fixing member 57, and the visual pasting card taking cylinder 56 is placed on the visual pasting card sliding support after adsorbing the pasting card through the visual pasting card second suction cup 55. Then will paste the card and move the bottom of vision card sticking robot 51 under the motion of vision card sticking dislocation cylinder 54, be equipped with the vision camera on the vision card sticking robot 51, after the vision camera was shot the location to the carton, the vision card sticking robot 51 will paste the card and adsorb the back through the first sucking disc 53 of vision card sticking and attach on the carton, vision card sticking robot 51 has self rotation and the flexible function of tip, the first sucking disc 53 of vision card sticking is located the scalable tip of vision card sticking robot 51 bottom. The vision pastes card machine people 51 is adsorbing the card of subsides after, and the top of rotatory carton, then drives the first sucking disc 53 adsorbed card of pasting of vision card through the concertina movement of tip and moves to carton inside to will paste the card and place on the carton, accomplish and paste the card operation. The visual card attaching light source 52 plays a role of illumination, so that the card attaching work is more accurate and stable.

In this embodiment, the vision card sticking robot 51 is a robot device in the prior art, when the vision card sticking dislocation cylinder 54 conveys the stuck card to the bottom of the vision card sticking robot 51, the first suction disc 53 of the vision card sticking is connected to the existing device capable of generating vacuum suction force, and the vacuum suction device transmits the vacuum suction force to the first suction disc 53 of the vision card sticking, so as to adsorb the stuck card.

The air suction flow water module 6 comprises a fan 61, an air suction shell, an air suction belt, an air suction motor and an air suction rotating shaft, the air suction rotating shaft is distributed on the sticking machine frame 1 in parallel and is connected with the air suction belt, the air suction rotating shaft is connected with the air suction motor, and the air suction motor drives the air suction rotating shaft to rotate, so that the air suction belt rotates synchronously. Be equipped with the casing hole that induced drafts on the casing that induced drafts, the belt that induced drafts moves on the casing that induced drafts, is equipped with the belt hole that induced drafts on the belt that induced drafts, and the casing that induced drafts links to each other with fan 61, and fan 61 makes the casing inside production air suction that induced drafts to adsorb the paper through the casing hole that induced drafts and the belt hole that induced drafts.

The fan 61 is a prior art device capable of generating vacuum suction. The air suction belt holes are communicated with the air suction shell holes, and vacuum suction generated by the fan 61 can adsorb the paper box through the air suction belt holes. The card pasting rack 1 is provided with a vacuum generator which is a device in the prior art and can generate vacuum suction. The vacuum generator is respectively communicated with the first and second carrying suction cups 33 and 34, the first and second vision sticking card suction cups 53 and 55, thereby generating vacuum suction force.

In the using process of the paper box sticking machine, paper is placed in the paper feeding module 2, then the paper box is formed through the carrying and shaping module 3, then the paper box is placed on the air suction flow module 6, and the silk-screen printing and sticking operation is performed through the silk-screen printing module 4 and the vision sticking module 5 in sequence, so that multiple processes of forming and sticking the paper box are completed, the labor cost is saved, and the production efficiency is high.

It will be appreciated by those of ordinary skill in the art that the embodiments described herein are intended to assist the reader in understanding the principles of the utility model and are to be construed as being without limitation to such specifically recited embodiments and examples. Those skilled in the art can make various other specific changes and combinations based on the teachings of the present invention without departing from the spirit of the utility model, and these changes and combinations are within the scope of the utility model.

Claims (8)

1. The utility model provides a card sticking machine which characterized in that: including pasting card frame (1), be equipped with paper feeding module (2) on pasting card frame (1), transport plastic module (3), silk screen printing module (4), vision pastes card module (5) and induced draft flowing water module (6), the paper of waiting to paste the card is placed on paper feeding module (2), then carry through transport plastic module (3) and form the carton after the plastic, then paste card module (5) through silk screen printing module (4) and vision in proper order under the effect of induced draft flowing water module (6), accomplish and paste the card operation.

2. The card sticking machine according to claim 1, characterized in that: paper feeding module (2) are including paper feeding bracing piece (20), first feed bin part (21), second feed bin part (22), feed bin switching cylinder (23) and feed bin bottom plate (24), paper feeding bracing piece (20) are fixed on pasting card frame (1), the cylinder end that feed bin switching cylinder (23) links to each other with pasting card frame (1), the tailpiece of the piston rod of feed bin switching cylinder (23) links to each other with the bottom of feed bin bottom plate (24), feed bin bottom plate (24) link to each other with paper feeding bracing piece (20) through the slider, first feed bin part (21) and second feed bin part (22) are located feed bin bottom plate (24), feed bin switching cylinder (23) promote feed bin bottom plate (24) and move along paper feeding bracing piece (20).

3. The card sticking machine according to claim 1, characterized in that: the first bin component (21) comprises a first bin main body (210), a first bin supporting plate (211), a first bin paper feeding motor (212), a first bin paper feeding screw rod (213), a first bin paper feeding guide rod (214), a first bin paper feeding upper limit sensor (215) and a first bin paper feeding lower limit sensor (216), the first bin paper feeding motor (212) and the first bin paper feeding guide rod (214) are positioned at the bottom of the bin bottom plate (24), the end part of the first bin paper feeding screw rod (213) penetrates through the first bin paper feeding motor (212) and then is rotatably connected with the first bin supporting plate (211), the first bin supporting plate (211) is positioned in the first bin main body (210), the first bin paper feeding upper limit sensor (215) and the first bin paper feeding lower limit sensor (216) are positioned on the first bin paper feeding guide rod (214), the first bin paper feeding motor (212) drives the first bin paper feeding screw rod (213) to move, thereby pushing the first bin support plate (211) to move; the second magazine part (22) has the same structure as the first magazine part (21).

4. The card sticking machine according to claim 1, characterized in that: the conveying shaping module (3) comprises a conveying support, a shaping support, a conveying servo motor (30), a conveying cylinder (31), a conveying connecting piece (32), a conveying first suction cup (33), a conveying second suction cup (34), a shaping first cylinder (35) and a shaping second cylinder (36), wherein the conveying cylinder (31) is connected with the conveying support through a conveying sliding block, the conveying servo motor (30) drives the conveying sliding block to move on the conveying support, a piston rod end of the conveying cylinder (31) is connected with the conveying connecting piece (32), the conveying cylinder (31) pushes the conveying connecting piece (32) to move up and down, and the conveying first suction cup (33) and the conveying second suction cup (34) are located on the conveying connecting piece (32). The shaping first cylinder (35) and the shaping second cylinder (36) are positioned in the shaping support, a shaping first cylinder shaping piece is arranged on the shaping first cylinder (35), a shaping second cylinder shaping piece is arranged on the shaping second cylinder (36), and the shaping first cylinder (35) and the shaping second cylinder (36) respectively drive the shaping first cylinder shaping piece and the shaping second cylinder shaping piece to finish shaping operation on paper; after the paper is adsorbed by the first conveying sucker 33 and the second conveying sucker 34, the paper moves under the actions of the conveying servo motor 30 and the conveying cylinder 31.

5. The card sticking machine according to claim 1, characterized in that: the carrying connecting piece (32) is in a U-shaped structure.

6. The card sticking machine according to claim 1, characterized in that: the silk-screen module (4) comprises a silk-screen module support (40), a silk-screen cylinder (41), a silk-screen guide rod (42), a silk-screen connecting frame (43), a silk-screen synchronizing wheel (44), a silk-screen synchronous belt (45), a first cylinder (46) of a silk-screen scraper, a second cylinder (47) of the silk-screen scraper, a silk-screen scraper sliding block and a silk-screen plate (48), wherein the silk-screen connecting frame (43) comprises a first support (431) of the silk-screen connecting frame, a first cross rod (432) of the silk-screen connecting frame, a support shaft (433) of the silk-screen connecting frame and a second support (434) of the silk-screen connecting frame, a piston rod end of the silk-screen cylinder (41) penetrates through the silk-screen module support (40) to be connected with the first support (431) of the silk-screen connecting frame, and the silk-screen guide rod (42) penetrates through the silk-screen module support (40) to be connected with the first support (431) of the silk-screen connecting frame; the two ends of a first cross rod (432) of a silk-screen connecting frame are connected with a first support (431) of the silk-screen connecting frame, the two ends of a supporting shaft (433) of the silk-screen connecting frame penetrate through a second support (434) of the silk-screen connecting frame and then are connected with the first support (431) of the silk-screen connecting frame, a silk-screen plate (48) is connected with the bottom of the second support (434) of the silk-screen connecting frame, the number of silk-screen synchronizing wheels (44) is two, the silk-screen synchronizing wheels are distributed at the two ends of the first support (431) of the silk-screen connecting frame and are connected through a silk-screen synchronizing belt (45), a first cylinder (46) of a silk-screen scraper and a second cylinder (47) of the silk-screen scraper are respectively sleeved on the supporting shaft (433) of the silk-screen connecting frame through a silk-screen scraper sliding block, and the silk-screen scraper sliding block is connected with the silk-screen synchronizing belt (45); be equipped with the first scraper of silk screen printing on silk screen printing scraper first cylinder (46), be equipped with the silk screen printing second scraper on silk screen printing scraper second cylinder (47), the first cylinder of silk screen printing scraper (46) drive the first scraper motion of silk screen printing, and silk screen printing scraper second cylinder (47) drive the motion of silk screen printing second scraper.

7. The card sticking machine according to claim 1, characterized in that: the visual card sticking module (5) comprises a visual card sticking support, a visual card sticking robot (51), a visual card sticking light source (52), a visual card sticking first suction cup (53), a visual card sticking dislocation cylinder (54), a visual card sticking second suction cup (55), a visual card sticking taking cylinder (56) and a visual card sticking fixing piece (57) are arranged on the visual card sticking support, the base of the visual card sticking robot (51) is fixedly connected with a visual card sticking support, a first visual card sticking sucker (53) is positioned at the bottom of the visual card sticking robot (51), the visual card sticking support is provided with a visual card sticking sliding support, the visual card sticking sliding support is in sliding connection with the visual card sticking support, a visual card sticking dislocation cylinder (54) is connected with a visual card sticking support sliding block, a visual card sticking and taking cylinder (56) is connected with the visual card sticking support, and the piston rod end of the visual card sticking and taking cylinder (56) is connected with a visual card sticking second sucker (55); the card pasting machine is characterized in that a card to be pasted is placed on a visual card pasting fixing part (57), a visual card pasting material taking cylinder (56) adsorbs the pasted card through a visual card pasting second sucking disc (55) and then is placed on a visual card pasting sliding support, then the pasted card moves to the bottom of a visual card pasting robot (51) under the movement of a visual card pasting dislocation cylinder (54), then the visual card pasting robot (51) adsorbs the pasted card through a visual card pasting first sucking disc (53) and then is pasted on a paper box, and a visual card pasting light source (52) plays a role in illumination.

8. The card sticking machine according to claim 1, characterized in that: the air suction flow module (6) comprises a fan (61), an air suction shell, an air suction belt, an air suction motor and an air suction rotating shaft, wherein the air suction rotating shaft is distributed on the sticking and clamping machine frame (1) in parallel and is connected through the air suction belt, the air suction rotating shaft is connected with the air suction motor, and the air suction motor drives the air suction rotating shaft to rotate, so that the air suction belt synchronously rotates; be equipped with the casing hole that induced drafts on the casing that induced drafts, the belt that induced drafts moves on the casing that induced drafts, is equipped with the belt hole that induced drafts on the belt that induced drafts, and the casing that induced drafts links to each other with fan (61), and fan (61) make the casing inside production air suction that induced drafts to adsorb the paper through the casing hole that induced drafts and the belt hole that induced drafts.

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