CN214354501U - A ink and wash printer for carton production - Google Patents

Abstract

The application relates to the technical field of carton production, and discloses a wash ink printer for carton production, and it includes organism, loading platform, feeding mechanism, stock stop and stop gear, set up the feed inlet that supplies corrugated container board to get into on the organism, loading platform and organism fixed connection just are located the below of feed inlet, stop gear is located loading platform top and stop gear and is connected with the loading platform, feeding mechanism is located between stop gear and the organism and the pay-off structure is connected with the loading platform, stock stop is connected with the organism. This application has the effect that improves ink printer material loading stability.

Description

A ink and wash printer for carton production

Technical Field

The application relates to the field of carton production, especially relates to a wash ink printer for carton production.

Background

Printers are machines that print text and images. Modern printers typically consist of mechanisms for plating, inking, stamping, feeding, etc. The traditional corrugated case is the most widely used packaging product, and the consumption is always the first of various packaging products due to good physical and mechanical properties, decoration printing adaptability, economical practicality and environmental protection. From the printing point of view, corrugated boxes are classified into color printing corrugated boxes and ink printing corrugated boxes. The ink printing corrugated case directly prints patterns on the corrugated board by using the ink printer, and the ink printer is provided with a plurality of printing units, so that the requirement of printing various color patterns on the corrugated board can be met.

At present, a Chinese utility model patent with publication number CN208484370U discloses an ink-and-wash printer, which comprises a feeding part, a printing part, a drying part before oiling, an oiling part and a drying part after oiling; the drying part before oiling and the drying part after oiling both comprise drying chambers, a paper feeding roller way is arranged in each drying chamber, a heat collecting cover is arranged above each paper feeding roller way, an electric heating element is arranged in each heat collecting cover, a fan is arranged at the top of each heat collecting cover, and the bottom of each heat collecting cover is open; the printing portion comprises a plurality of printing units, each printing unit comprises a printing assembly and a hot air drying assembly, each printing assembly comprises an anilox roller, a printing roller and a printing roller, each hot air drying assembly comprises an electric heating tube arranged in an inner cavity of a heat collecting tube, a high-pressure air inlet is formed in the end portion of each heat collecting tube, and a hot air outlet extending along the length direction of the heat collecting tube is formed in the bottom of each heat collecting tube.

In view of the above-mentioned related technologies, the inventor believes that when a printer feeds materials, a stack of corrugated boards is placed at the feeding end of the printer, and a single sheet of corrugated boards is fed into the printer from the bottommost part, so that the stack of corrugated boards is easy to topple over, and the feeding is unstable.

SUMMERY OF THE UTILITY MODEL

In order to alleviate the unstable problem of ink printer material loading, this application provides an ink printer for carton production.

The application provides a wash ink printer for carton production adopts following technical scheme:

the utility model provides a china ink printer for carton production, includes organism, loading platform, feeding mechanism, stock stop and stop gear, set up the feed inlet that supplies corrugated container board to get into on the organism, loading platform and organism fixed connection just are located the below of feed inlet, stop gear is located loading platform top and stop gear and is connected with the loading platform, feeding mechanism is located between stop gear and the organism and feeding structure is connected with the loading platform, stock stop is connected with the organism.

By adopting the technical scheme, the stacked corrugated boards are placed on the feeding mechanism, the feeding mechanism conveys the corrugated boards at the lowest layer into the feeding port, the stacked corrugated boards are limited by the limiting mechanism, and the possibility that the stacked corrugated boards are toppled over when the feeding mechanism moves the corrugated boards at the lowest layer is reduced. Utilize stock stop to the corrugated container board on upper strata to block, make conveying mechanism can only carry the sola corrugated paper in to the inlet at every turn to improve the machining accuracy of printer.

It is optional, feeding mechanism includes first motor and two live-rollers, two live-roller parallel arrangement and two live-rollers are located same horizontal plane, two the live-roller all rotates with material loading platform to be connected, a plurality of delivery wheels of the coaxial fixedly connected with of live-roller, it is a plurality of the equidistant setting of length direction along the live-roller of delivery wheel, two the live-roller transmission is connected, one of them the live-roller is with the coaxial fixed connection of main shaft of first motor, first motor and material loading platform fixed connection, it is a plurality of the top of delivery wheel is located same horizontal plane and the upper surface of the top protrusion material loading platform of delivery wheel.

Through adopting above-mentioned technical scheme, utilize a plurality of delivery wheels to support corrugated container board, the main shaft of first motor rotates and drives two live rollers synchronous rotation, and the live roller rotates and drives the delivery wheel and rotate to carry corrugated container board.

Optionally, two be provided with the backing roll between the live-rollers, the backing roll is parallel with the live-rollers, the coaxial rotation of backing roll is connected with a plurality of supporting wheels and sets up along the length direction of backing roll equidistant, the top of supporting wheel and the top of delivery wheel are located same horizontal plane, backing roll and material loading platform fixed connection.

By adopting the technical scheme, the corrugated board is supported by the supporting wheel, so that the conveying stability of the feeding mechanism is improved. The supporting wheels are rotatably connected with the supporting rollers, so that the friction force between the supporting wheels and the corrugated board is reduced, the resistance borne by the conveying wheels when the corrugated board is conveyed is reduced, and the energy consumption is reduced.

Optionally, stock stop includes two baffles that are used for keeping off upper corrugated container board, two the baffle is located same vertical plane, feeding mechanism's direction of delivery perpendicular to baffle plane at place, the length direction that the baffle is rectangular shape board and baffle is perpendicular with the material loading platform, two waist type holes have been seted up on the baffle, two the length direction setting along the baffle in waist type hole, the length direction in waist type hole is parallel with the length direction of baffle, wear to be equipped with the first bolt that is used for restricting the baffle removal in the waist type hole, first bolt passes waist type hole and organism threaded connection.

By adopting the technical scheme, the corrugated board on the upper layer is blocked by the two baffles, so that the possibility of deflection of the corrugated board is reduced. Through seting up waist type hole on the baffle, first bolt passes waist type hole and is connected with the organism, when carrying the corrugated container board to different thickness, can adjust the distance between baffle lower extreme and the material loading platform according to the thickness of corrugated container board to improve the spacing stability of baffle to upper corrugated container board.

Optionally, stop gear includes two-way lead screw, second motor, first limiting plate and two second limiting plates, two-way lead screw is located one side that feeding mechanism kept away from the feed inlet, the length direction perpendicular to pay-off structure's of two-way lead screw level setting and two-way lead screw direction of delivery, two-way lead screw rotates with the material loading platform to be connected, the main shaft and the coaxial fixed connection of two-way lead screw of second motor, second motor and material loading platform fixed connection, two-way lead screw threaded connection has two screw of opposite motion, two the relative setting of second limiting plate and two second limiting plates are connected with two screw respectively, first limiting plate is connected between two second limiting plates, first limiting plate is located the position that the organism was kept away from to the second limiting plate.

Through adopting above-mentioned technical scheme, utilize first limiting plate and second limiting plate to carry on spacingly to the removal of the corrugated container board that becomes the buttress, reduce because of the corrugated container board of lower floor removes and leads to the possibility that upper corrugated container board emptys to improve the stability of material loading. When corrugated boards with different sizes are conveyed, the second motor rotates to drive the bidirectional screw rod to move, so that the distance between the two second limiting plates is adjusted

Optionally, a plurality of bar-shaped observation holes are formed in the first limiting plate, and the bar-shaped observation holes are vertically arranged.

Through adopting above-mentioned technical scheme, set up the bar on first limiting plate and observe the hole, the staff of being convenient for observes corrugated container board's the material loading condition. Through with the vertical setting of bar inspection hole, reduce the influence of bar inspection hole to the spacing ability of first limiting plate.

Optionally, a cleaning brush for cleaning one side of the corrugated board far away from the feeding platform is arranged above the feeding hole.

Through adopting above-mentioned technical scheme, set up above the feed inlet and clean the brush, utilize and clean the brush and keep away from one side of material loading platform to corrugated container board and clear up, improve the bright and clean degree of corrugated container board printing face to improve the printing effect of printer.

Optionally, be provided with adsorption apparatus on the material loading platform, adsorption apparatus includes negative-pressure tank and negative-pressure air fan, the negative-pressure tank is hollow cuboid box structure, the negative-pressure tank is located one side that feed mechanism is close to the feed inlet, the negative-pressure tank inlays to be established in the material loading platform and negative-pressure tank the top and material loading platform upper surface parallel and level, a plurality of air inlets have been seted up to the negative-pressure tank upper end, negative-pressure tank and negative-pressure air fan intercommunication.

By adopting the technical scheme, the adsorption mechanism is arranged between the feeding mechanism and the feeding hole, when the feeding mechanism conveys the corrugated board into the feeding hole, the negative pressure fan works to enable the negative pressure box to be in a negative pressure environment, and the part of the corrugated board, which leaves the feeding mechanism, is abutted against the feeding platform under the action of air flow, so that the possibility that the corrugated board is warped and blocked by the baffle is reduced, and the stability of conveying the corrugated board by the feeding mechanism is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the limiting mechanism is arranged above the feeding platform, and is used for limiting the stacked corrugated boards, so that the possibility that the stacked corrugated boards topple over when the feeding mechanism moves the lowest corrugated board is reduced;

2. the cleaning brush is arranged above the feeding hole, and the cleaning brush is used for cleaning one side of the corrugated board, which is far away from the feeding platform, so that the smoothness of the printing surface of the corrugated board is improved, and the printing effect of the printer is improved;

3. through setting up adsorption equipment between feed mechanism and feed inlet, when feed mechanism carried the carton board in to the feed inlet, negative-pressure fan work made the negative pressure environment in the negative-pressure box, and corrugated container board left the partly butt with the material loading platform under the effect of air current of feed mechanism, reduces the corrugated container board warpage and receives the possibility that the baffle blockked, improves the stability that feed mechanism carried corrugated container board.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a feeding mechanism and a material stop mechanism part according to an embodiment of the application;

fig. 3 is a schematic structural diagram of a limiting mechanism portion according to an embodiment of the present application.

Description of reference numerals: 100. a body; 110. a feed inlet; 200. a feeding platform; 300. a feeding mechanism; 320. a rotating roller; 330. a delivery wheel; 340. a support roller; 350. a support wheel; 400. a stock stop mechanism; 410. a baffle plate; 420. a kidney-shaped hole; 430. a first bolt; 500. a limiting mechanism; 510. a bidirectional lead screw; 511. a nut; 512. a second bolt; 530. a first limit plate; 531. a strip-shaped observation hole; 540. a second limiting plate; 600. cleaning a brush; 700. an adsorption mechanism; 710. a negative pressure tank; 711. an air inlet; 720. a negative pressure fan.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a wash ink printer for carton production. Referring to fig. 1 and 2, an ink printer for carton production includes a machine body 100, a feeding platform 200 is fixedly connected to the machine body 100, a feeding hole 110 for corrugated cardboard to enter is formed in the machine body 100, and the feeding platform 200 is located below the feeding hole 110. The feeding platform 200 is rotatably connected with a feeding mechanism 300 for conveying corrugated boards into the feeding hole 110, the stacked corrugated boards are placed on the feeding mechanism 300, and the feeding mechanism 300 conveys the corrugated boards at the lowest layer into the feeding hole 110. One side of the feeding platform 200 close to the feeding hole 110 is fixedly connected with a limiting mechanism 500, and the stacked corrugated boards are limited by the limiting mechanism 500, so that the possibility that the stacked corrugated boards topple over when the feeding mechanism 300 moves the lowest corrugated board is reduced. The machine body 100 is fixedly connected with a material blocking mechanism 400, the material blocking mechanism 400 is located at the position of the feed inlet 110, and corrugated boards on the upper layer are blocked by the material blocking mechanism 400, so that the conveying mechanism can only convey single corrugated paper into the feed inlet 110 at each time, and the processing accuracy of the printer is improved. An adsorption mechanism 700 is arranged between the feeding mechanism and the feeding hole 110, the adsorption mechanism 700 is fixedly connected with the feeding platform 200, the adsorption mechanism 700 is used for improving the close fit between the corrugated board and the feeding platform 200, the possibility that the corrugated board is warped and blocked by the baffle 410 is reduced, and the stability of the corrugated board conveyed by the feeding mechanism 300 is improved.

Referring to fig. 1 and 2, the feeding mechanism 300 includes two rotating rollers 320, the two rotating rollers 320 are disposed in parallel, the two rotating rollers 320 are located in the same horizontal plane, and both the two rotating rollers 320 are rotatably connected to the feeding platform 200. The rotating roller 320 is coaxially and fixedly connected with a plurality of conveying wheels 330, the plurality of conveying wheels 330 are arranged at equal intervals along the length direction of the rotating roller 320, the uppermost ends of the plurality of conveying wheels 330 are positioned in the same horizontal plane, the uppermost ends of the conveying wheels 330 protrude out of the upper surface of the feeding platform 200, and the corrugated board is supported by the conveying wheels 330. The feeding platform 200 is fixedly connected with a first motor, a main shaft of the first motor is coaxially and fixedly connected with the rotating rollers 320, and the two rotating rollers 320 are in transmission connection. The main shaft of the first motor rotates to drive the two rotating rollers 320 to rotate synchronously, and the rotating rollers 320 rotate to drive the conveying wheel 330 to rotate, so that the corrugated board is conveyed.

Referring to fig. 1 and 2, the feeding platform 200 is fixedly connected with a supporting roller 340, the supporting roller 340 is parallel to the rotating rollers 320, and the supporting roller 340 is located between the two rotating rollers 320. The supporting roller 340 is coaxially and rotatably connected with a plurality of supporting wheels 350, the supporting wheels 350 are arranged at equal intervals along the length direction of the supporting roller 340, and the uppermost ends of the supporting wheels 350 and the uppermost ends of the conveying wheels 330 are positioned on the same horizontal plane. The corrugated board is supported by the supporting wheels 350, so that the conveying stability of the feeding mechanism 300 is improved. By rotatably connecting the supporting wheel 350 with the supporting roller 340, the friction force between the supporting wheel 350 and the corrugated cardboard is reduced, so that the resistance force applied when the conveying wheel 330 conveys the corrugated cardboard is reduced, and the energy consumption is reduced.

Referring to fig. 1 and 3, the limiting mechanism 500 includes a bidirectional screw 510, the bidirectional screw 510 is located on one side of the feeding mechanism 300 away from the feeding port 110, the bidirectional screw 510 is horizontally disposed, the length direction of the bidirectional screw 510 is perpendicular to the conveying direction of the feeding mechanism, and the bidirectional screw 510 is rotatably connected to the feeding platform 200. The feeding platform 200 is fixedly connected with a second motor, and a main shaft of the second motor is coaxially and fixedly connected with the bidirectional screw 510. The bidirectional screw 510 is in threaded connection with two nuts 511 moving in opposite directions, one side of each of the two nuts 511 far away from the ground is fixedly connected with a second limiting plate 540 through a second bolt 512, the two second limiting plates 540 are arranged oppositely, a first limiting plate 530 is connected between the two second limiting plates 540, the first limiting plate 530 is in sliding connection with the second limiting plates 540, and the first limiting plate 530 is located at a position where the second limiting plate 540 is far away from the machine body 100. The first limiting plate 530 and the second limiting plate 540 are used for limiting the movement of the corrugated boards, so that the possibility that the corrugated boards on the upper layer topple over due to the movement of the corrugated boards on the lower layer is reduced, and the stability of feeding is improved. When corrugated boards with different sizes are conveyed, the second motor rotates to drive the bidirectional screw 510 to move, so that the distance between the two second limiting plates 540 is adjusted.

Referring to fig. 1 and 3, the first limiting plate 530 is provided with a plurality of bar-shaped observation holes 531, and the bar-shaped observation holes 531 are vertically arranged. Through set up bar inspection hole 531 on first limiting plate 530, the staff of being convenient for observes corrugated container board's the material loading condition. Through with the vertical setting of bar inspection hole 531, reduce the influence of bar inspection hole 531 to the spacing ability of first limiting plate 530.

Referring to fig. 1 and 2, the material blocking mechanism 400 includes two baffles 410 for blocking the upper corrugated cardboard, the two baffles 410 are located in the same vertical plane, the plane of the baffles 410 is perpendicular to the conveying direction of the feeding mechanism 300, the baffles 410 are rectangular plates, and the length direction of the baffles 410 is perpendicular to the feeding platform 200. By blocking the upper corrugated cardboard with two baffles 410, the possibility of the corrugated cardboard deflecting is reduced.

Two waist-shaped holes 420 are formed in the baffle plate 410, the two waist-shaped holes 420 are arranged along the length direction of the baffle plate 410, the length direction of the waist-shaped holes 420 is parallel to the length direction of the baffle plate 410, first bolts 430 used for limiting the baffle plate 410 to move penetrate through the waist-shaped holes 420, and the first bolts 430 penetrate through the waist-shaped holes 420 to be in threaded connection with the machine body 100. Through seting up waist type hole 420 on baffle 410, first bolt 430 passes waist type hole 420 and is connected with organism 100, when carrying the corrugated container board of different thickness, can adjust the distance between baffle 410 lowermost end and material loading platform 200 according to the corrugated container board thickness to improve the spacing stability of baffle 410 to upper corrugated container board.

Referring to fig. 1 and 2, the suction mechanism 700 includes a negative pressure tank 710 and a negative pressure fan 720, the negative pressure tank 710 is a hollow rectangular parallelepiped box structure, the negative pressure tank 710 is located on one side of the feeding mechanism close to the feeding port 110, the negative pressure tank 710 is embedded in the feeding platform 200, the uppermost end of the negative pressure tank 710 is flush with the upper surface of the feeding platform 200, a plurality of air inlets 711 are provided at the upper end of the negative pressure tank 710, and the negative pressure tank 710 is communicated with the negative pressure fan 720. By arranging the adsorption mechanism 700 between the feeding mechanism and the feeding hole 110, when the feeding mechanism conveys the corrugated cardboard plates into the feeding hole 110, the negative pressure fan 720 works to enable the inside of the negative pressure box 710 to be in a negative pressure environment, and the part of the corrugated cardboard, which is away from the feeding mechanism 300, is abutted against the feeding platform 200 under the action of air flow, so that the possibility that the corrugated cardboard is warped and blocked by the baffle 410 is reduced, and the stability of the feeding mechanism 300 in conveying the corrugated cardboard is improved.

Referring to fig. 1, a cleaning brush 600 is disposed above the feeding hole 110, and the cleaning brush 600 is fixedly connected to the machine body 100. The cleaning brush 600 is arranged above the feeding hole 110, one side of the corrugated board far away from the feeding platform 200 is cleaned by the cleaning brush 600, the smoothness of the printing surface of the corrugated board is improved, and therefore the printing effect of the printer is improved.

The implementation principle of the ink printer for producing the cartons in the embodiment of the application is as follows: when the ink-jet printer works, the stacked corrugated boards are placed on the feeding mechanism 300, the first limiting plate 530 and the second limiting plate 540 are used for limiting the corrugated boards, when the feeding mechanism 300 works, under the synergistic effect of the baffle 410, the first limiting plate 530 and the second limiting plate 540, the lowest corrugated boards are conveyed through the feeding mechanism and enter the machine body 100 through the feeding hole 110, the upper corrugated boards are kept stable, and the possibility that the stacked corrugated boards are toppled over when the feeding mechanism 300 moves the lowest corrugated boards is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an ink and water printer for carton production which characterized in that: including organism (100), material loading platform (200), feeding mechanism (300), stock stop (400) and stop gear (500), set up feed inlet (110) that supply corrugated container board to get into on organism (100), feeding platform (200) and organism (100) fixed connection just are located the below of feed inlet (110), stop gear (500) are located feeding platform (200) top and stop gear (500) and are connected with material loading platform (200), feeding mechanism (300) are located between stop gear (500) and organism (100) and the pay-off structure is connected with material loading platform (200), stock stop (400) are connected with organism (100).

2. An ink and wash printer for carton production as claimed in claim 1, characterised in that: feeding mechanism (300) includes first motor and two live-rollers (320), two live-rollers (320) parallel arrangement and two live-rollers (320) are located same horizontal plane, two live-rollers (320) all rotate with material loading platform (200) and are connected, a plurality of delivery wheels (330) of live-rollers (320) coaxial fixedly connected with, it is a plurality of the length direction equidistance setting of live-rollers (320) is followed in delivery wheel (330), two live-rollers (320) transmission is connected, one of them live-rollers (320) and the coaxial fixed connection of main shaft of first motor, first motor and material loading platform (200) fixed connection, it is a plurality of the top of delivery wheel (330) is located same horizontal plane and the upper surface of the top protrusion material loading platform (200) of delivery wheel (330).

3. An ink and wash printer for carton production as claimed in claim 2, characterised in that: two be provided with backing roll (340) between live-rollers (320), backing roll (340) are parallel with live-rollers (320), backing roll (340) coaxial rotation is connected with a plurality of supporting wheels (350) and a plurality of supporting wheel (350) along the equidistant setting of length direction of backing roll (340), the top of supporting wheel (350) and the top of delivery wheel (330) are located same horizontal plane, backing roll (340) and material loading platform (200) fixed connection.

4. An ink and wash printer for carton production as claimed in claim 1, characterised in that: stop mechanism (400) include two baffle (410) that are used for keeping off upper corrugated container board, two baffle (410) are located same vertical plane, the plane at direction of delivery perpendicular to baffle (410) place of feeding mechanism (300), baffle (410) are rectangular board and baffle (410)'s length direction and material loading platform (200) perpendicular, two waist type hole (420) have been seted up on baffle (410), two waist type hole (420) set up along the length direction of baffle (410), the length direction of waist type hole (420) is parallel with the length direction of baffle (410), wear to be equipped with first bolt (430) that are used for restricting baffle (410) and remove in waist type hole (420), waist type hole (420) and organism (100) threaded connection are passed in first bolt (430).

5. An ink and wash printer for carton production as claimed in claim 1, characterised in that: the limiting mechanism (500) comprises a bidirectional screw rod (510), a second motor, a first limiting plate (530) and two second limiting plates (540), the bidirectional screw rod (510) is located on one side, away from the feed inlet (110), of the feeding mechanism (300), the bidirectional screw rod (510) is horizontally arranged, the length direction of the bidirectional screw rod (510) is perpendicular to the conveying direction of the feeding structure, the bidirectional screw rod (510) is rotatably connected with the feeding platform (200), a spindle of the second motor is fixedly connected with the bidirectional screw rod (510) in a coaxial mode, the second motor is fixedly connected with the feeding platform (200), the bidirectional screw rod (510) is in threaded connection with two nuts (511) moving in opposite directions, the two second limiting plates (540) are oppositely arranged, the two second limiting plates (540) are respectively connected with the two nuts (511), the first limiting plate (530) is connected between the two second limiting plates (540), the first limiting plate (530) is located at a position where the second limiting plate (540) is far away from the machine body (100).

6. An ink and wash printer for carton production according to claim 5, characterised in that: a plurality of bar-shaped observation holes (531) are formed in the first limiting plate (530), and the bar-shaped observation holes (531) are vertically arranged.

7. An ink and wash printer for carton production as claimed in claim 1, characterised in that: and a cleaning brush (600) used for cleaning one side of the corrugated board far away from the feeding platform (200) is arranged above the feeding hole (110).

8. An ink and wash printer for carton production as claimed in claim 1, characterised in that: be provided with adsorption apparatus structure (700) on material loading platform (200), adsorption apparatus structure (700) includes negative pressure tank (710) and negative pressure fan (720), negative pressure tank (710) are hollow cuboid box structure, negative pressure tank (710) are located one side that material loading platform (200) are close to feed inlet (110), negative pressure tank (710) inlay establish in material loading platform (200) and negative pressure tank (710) the top and material loading platform (200) upper surface parallel and level, a plurality of air inlets (711) have been seted up to negative pressure tank (710) upper end, negative pressure tank (710) and negative pressure fan (720) intercommunication.

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