CN220975921U - Feeding mechanism for printing machine - Google Patents

Abstract

The utility model relates to a feeding mechanism for a printing machine, which relates to the technical field of printing and comprises a printing machine, a frame, a feeding mechanism and a conveying mechanism, wherein the feeding mechanism comprises a bearing plate, a connecting cylinder, a sucker, a guide pipe, a suction fan and a driving assembly, the printing machine is arranged on the frame, the bearing plate is arranged on the frame in a sliding manner, the driving assembly is used for driving the bearing plate to move, the connecting cylinder is arranged on the bearing plate, the sucker is arranged at one end of the connecting cylinder, the sucker is communicated with the connecting cylinder, the suction fan is arranged on the bearing plate, one end of the guide pipe is connected with an air inlet of the suction fan, and the other end of the guide pipe is connected with one end of the connecting cylinder far away from the sucker.

Description

Feeding mechanism for printing machine

Technical Field

The utility model relates to the technical field of printing, in particular to a feeding mechanism for a printing machine.

Background

The full-automatic printer is a high-tech digital printing device of 'non-contact with objects', so that the printer is not limited by any material, and can be used for carrying out color photo-level printing on the surfaces of wood boards, paperboards, crystals, metal boards, floor tiles, ceramic tiles, compact discs, acrylic, organic glass, EVA.KT boards, leather, silica gel, plastics, PP, PE, PVC, cloth, self-adhesive, stone and the like.

At present, when the printing machine prints patterns on a large-sized paperboard, a worker is required to put the large-sized paperboard on the printing machine, the worker is required to bend frequently to pick up the paperboard, and the paperboard is put on the printing machine, so that the labor intensity of the worker is increased.

Disclosure of utility model

In order to reduce the labor intensity of workers when printing paperboards, the utility model provides a feeding mechanism for a printing machine.

The utility model provides a feeding mechanism for a printing machine, which adopts the following technical scheme:

The utility model provides a feed mechanism for printing machine includes printing machine, frame, feed mechanism and conveying mechanism, feed mechanism includes loading board, connecting cylinder, sucking disc, pipe, suction fan and drive assembly, the printing machine sets up in the frame, the loading board slides and sets up in the frame, drive assembly is used for driving the loading board and removes, the connecting cylinder sets up on the loading board, the sucking disc sets up on the one end of connecting cylinder, and sucking disc and connecting cylinder intercommunication, the suction fan sets up on the loading board, the one end of pipe is connected with the income wind gap of suction fan, the other end of pipe is connected with the one end that the sucking disc was kept away from to the connecting cylinder, conveying mechanism is used for carrying the cardboard.

Through adopting above-mentioned technical scheme, when carrying out the material loading to the cardboard, drive assembly drive loading board removes to the cardboard top, makes the sucking disc press cover on the cardboard, and the suction fan inhales through pipe and connecting cylinder, makes the sucking disc absorb the cardboard, and then drive mechanism drive loading board removes, and the loading board drives the cardboard and removes on to conveying mechanism, and conveying mechanism carries the cardboard to the printing machine and prints, but because feed mechanism's setting makes the cardboard automatic feeding, and then reduces the frequent frequency of bending up the cardboard of workman, and then reduces workman's intensity of labour.

Optionally, the drive assembly includes the support, places board and cylinder, the support sets up in the frame, the cylinder sets up on the support, the cylinder is provided with a plurality of, place the board setting on the output shaft of cylinder.

Through adopting above-mentioned technical scheme, the workman removes on placing the board with a large amount of paperboards of putting neatly, and the board upwards moves is placed in the cylinder drive, makes paperboard and sucking disc contact, and the sucking disc is sucked the paperboard and is placed on conveying mechanism.

Optionally, the drive assembly still includes guide rail, first slider, first gear motor, first gear and first rack, the guide rail sets up on the support, slider sliding connection is on the guide rail, first gear motor sets up on first slider, first gear key connects on first gear motor's output shaft, first rack sets up on first guide rail, first gear and first rack meshing transmission, the loading board sets up on first slider.

Through adopting above-mentioned technical scheme, when the sucking disc absorbs the cardboard after far away from conveying mechanism, first gear motor drives first smooth quick on the guide rail through first gear and first rack and slides, and first slider drives the loading board and slides, makes the loading board remove to the direction that is close to conveying mechanism, and then makes the cardboard case conveying mechanism's on the sucking disc orientation remove, and then improves the material loading efficiency to the cardboard.

Optionally, the drive assembly still includes second slider, second gear motor, second gear and second rack, second slider sliding connection is on first slider, second gear motor sets up on the second slider, second gear key connects on the output shaft of second gear motor, the second rack sets up on first slider, second gear and first rack meshing transmission, the loading board sets up on the second slider.

Through adopting above-mentioned technical scheme, when the cardboard of sucking disc absorption and conveying mechanism control the position and do not correspond, second gear motor passes through second gear and second rack drive second slider and removes on first slider, and the second slider drives the loading board and removes, and then makes the sucking disc drive cardboard remove, and then makes the cardboard correspond with conveying mechanism, and then improves the accuracy to cardboard material loading.

Optionally, the conveying mechanism includes live roller, conveyer belt and motor, the motor sets up in the frame, the live roller rotates to be connected in the frame, the conveyer belt rotates to be connected on the live roller, and the output and the live roller transmission of conveying motor are connected.

Through adopting above-mentioned technical scheme, when feed mechanism carried the cardboard to conveying mechanism top, the suction fan stopped the operation, and the pressure of sucking disc reduces for the cardboard drops on the conveyer belt, and the motor drives the conveyer belt through driving the live-rollers and rotates, carries the cardboard to the printing machine and prints.

Optionally, the conveying mechanism further comprises a roller and a roller support, the roller support is arranged on the frame, the roller is rotationally connected to the roller support, and the roller is located above the conveying belt.

Through adopting above-mentioned technical scheme, the setting of gyro wheel makes the conveyer belt when carrying the cardboard, and the cardboard passes through between gyro wheel and the conveyer belt, and then reduces the cardboard and appear folding fold's probability when getting into the printing machine.

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

The paperboard can be automatically fed due to the arrangement of the feeding mechanism, so that the frequency of frequent bending down of a worker to pick up the paperboard is reduced, and the labor intensity of the worker is further reduced; the driving assembly is arranged to enable the paperboard to accurately move to the conveying belt, so that the accuracy of paperboard feeding is improved; the arrangement of the rollers enables the conveying belt to pass through the space between the rollers and the conveying belt when the conveying belt conveys the paper boards, and therefore the probability of folding wrinkles when the paper boards enter the printing machine is reduced.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

FIG. 2 is an enlarged view of portion A of FIG. 1;

Fig. 3 is a partial schematic view of a feeding mechanism.

Reference numerals illustrate: 100. a frame; 200. a printing machine; 300. a feeding mechanism; 310. a carrying plate; 320. a connecting cylinder; 330. a suction cup; 340. a conduit; 350. a suction fan; 360. a drive assembly; 361. a bracket; 362. placing a plate; 363. a cylinder; 364. a guide rail; 365. a first slider; 366. a first gear motor; 367. a first rack; 368. a first gear; 369. a second slider; 3601. a second gear motor; 3602. a second rack; 3603. a second gear; 400. a conveying mechanism; 410. a conveyor belt; 420. a rotating roller; 430. a motor; 440. a roller support; 450. and a roller.

Detailed Description

The present utility model will be described in further detail with reference to fig. 1 to 3.

The embodiment of the utility model discloses a feeding mechanism 300 for a printing machine 200. Referring to fig. 1-3, a feeding mechanism 300 for a printing press 200 is provided on a frame 100, the printing press 200, the feeding mechanism 300 and a conveying mechanism 400 are provided on the frame 100, the feeding mechanism 300 is used for feeding paper boards, and the conveying mechanism 400 is used for conveying the paper boards to the printing press 200 for printing.

Referring to fig. 1-3, the feeding mechanism 300 includes a carrier 310, a connecting cylinder 320, a suction cup 330, a guide tube 340, a suction fan 350, and a driving assembly 360, wherein the driving assembly 360 includes a bracket 361, a placement plate 362, a cylinder 363, a guide rail 364, a first slider 365, a first gear motor 366, a first gear 368, a first rack 367, a second slider 369, a second gear motor 3601, a second gear 3603, and a second rack 3602; the support 361 is connected to the frame 100 through a bolt, the air cylinder 363 is connected to the support 361 through a bolt, the air cylinder 363 is provided with a plurality of air cylinders 362, the placing plate 362 is connected to an output shaft of the air cylinder 363 through a bolt, the guide rail 364 is connected to the support 361 through a bolt, the slide block is connected to the guide rail 364 in a sliding manner, the first speed reducing motor 366 is connected to the first slide block 365 through a bolt, the first gear 368 is connected to an output shaft of the first speed reducing motor 366 in a key manner, the first rack 367 is connected to the first guide rail 364 through a bolt, the first gear 368 is meshed with the first rack 367 for transmission, the second slide block 369 is connected to the first slide block 365 in a sliding manner, the second speed reducing motor 3601 is connected to the second slide block 369 through a bolt, the second gear 3603 is connected to the first slide block 365 through a bolt, the second gear 3603 is meshed with the first slide block 367 for transmission, the bearing plate 310 is connected to the first slide block through a bolt 369 through a bolt, the bearing plate 340 is connected to the suction drum 320 through a bolt, and is connected to one end of the suction drum 320 through a suction cup 320, and is connected to the suction cup 320 through a suction cup 330.

When feeding the paper boards, a worker moves a large amount of paper boards which are orderly placed on the placement plate 362, the air cylinder 363 drives the placement plate 362 to move upwards, so that the paper boards are in contact with the suction disc 330, when the suction disc 330 sucks the paper boards far away from the conveying mechanism 400, the first speed reducing motor 366 drives the first slide to slide on the guide rail 364 through the first gear 368 and the first rack 367, the first slide block 365 drives the bearing plate 310 to slide, the bearing plate 310 moves towards the direction close to the conveying mechanism 400, the direction of the paper board conveying mechanism 400 on the suction disc 330 is further moved, when the paper boards sucked by the suction disc 330 do not correspond to the left-right positions of the conveying mechanism 400, the second speed reducing motor 3601 drives the second slide block 369 to move on the first slide block 365 through the second gear 3603 and the second rack 3602, the second slide block 369 drives the bearing plate 310 to move, and the suction disc 330 drives the paper boards to move, so that the paper boards can correspond to the conveying mechanism 400, and the accuracy of paper board feeding is further improved.

Referring to fig. 1, the conveying mechanism 400 includes a rotating roller 420, a conveying belt 410, a motor 430, a roller 450 and a roller support 440, the motor 430 is connected to the frame 100 through bolts, the rotating roller 420 is rotatably connected to the frame 100, the conveying belt 410 is rotatably connected to the rotating roller 420, an output end of the conveying motor 430 is in transmission connection with the rotating roller 420, the roller support 440 is connected to the frame 100 through bolts, the roller 450 is rotatably connected to the roller support 440, and the roller 450 is located above the conveying belt 410.

When the feeding mechanism 300 moves to above the conveying mechanism 400 with the paper board, the suction fan 350 stops running, the pressure of the suction disc 330 is reduced, the paper board falls on the conveying belt 410, the motor 430 drives the conveying belt 410 to rotate by driving the rotating roller 420, the paper board passes between the roller 450 and the conveying belt 410, the roller 450 flattens the paper board, the conveying belt 410 conveys the paper board to the printing machine 200 for printing, and then the probability of folding wrinkles when the paper board enters the printing machine 200 is reduced.

The implementation principle of the feeding mechanism 300 for the printing machine 200 according to the embodiment of the utility model is as follows:

When feeding the paper boards, a worker moves a large amount of paper boards which are orderly placed on the placing plate 362, the air cylinder 363 drives the placing plate 362 to move upwards, so that the paper boards are in contact with the suction cups 330, when the suction cups 330 suck the paper boards and are far away from the conveying mechanism 400, the first speed reducing motor 366 drives the first slide to slide on the guide rail 364 through the first gear 368 and the first rack 367, the first slide 365 drives the bearing plate 310 to slide, so that the bearing plate 310 moves towards the direction close to the conveying mechanism 400, the direction of the paper box conveying mechanism 400 on the suction cups 330 is further moved, when the paper boards sucked by the suction cups 330 do not correspond to the left-right position of the conveying mechanism 400, the second speed reducing motor 3601 drives the second slide 369 to move on the first slide 365 through the second gear 3603 and the second rack 3602, when the feeding mechanism 300 moves above the conveying mechanism 400, the suction fan 350 stops running, the suction cups 330 reduces in pressure, so that the paper boards 430 drop on the conveying belt 410, the paper boards 430 rotate from the conveying belt 410 to the printing roller 450, and the printing roller 450 is carried out between the paper boards and the conveying belt 410, and the printing roller 450 is carried out on the paper boards.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (4)

1. Feeding mechanism for printing machine, its characterized in that: the paper board feeding device comprises a printing machine (200), a frame (100), a feeding mechanism (300) and a conveying mechanism (400), wherein the feeding mechanism (300) comprises a bearing plate (310), a connecting cylinder (320), a sucker (330), a guide pipe (340), a suction fan (350) and a driving assembly (360), the printing machine (200) is arranged on the frame (100), the bearing plate (310) is arranged on the frame (100) in a sliding mode, the driving assembly (360) is used for driving the bearing plate (310) to move, the connecting cylinder (320) is arranged on the bearing plate (310), the sucker (330) is arranged at one end of the connecting cylinder (320), the sucker (330) is communicated with the connecting cylinder (320), the suction fan (350) is arranged on the bearing plate (310), one end of the guide pipe (340) is connected with an air inlet of the suction fan (350), and the other end of the guide pipe (340) is connected with one end, far away from the sucker (330), of the connecting cylinder (320), and the conveying mechanism (400) is used for conveying paper boards; the driving assembly (360) comprises a bracket (361), a placement plate (362) and a cylinder (363), wherein the bracket (361) is arranged on the frame (100), the cylinder (363) is arranged on the bracket (361), the plurality of cylinders (363) are arranged, and the placement plate (362) is arranged on an output shaft of the cylinder (363); the driving assembly (360) further comprises a guide rail (364), a first sliding block (365), a first gear motor (366), a first gear (368) and a first rack (367), wherein the guide rail (364) is arranged on the support (361), the sliding blocks are slidably connected to the guide rail (364), the first gear motor (366) is arranged on the first sliding block (365), the first gear (368) is connected to an output shaft of the first gear motor (366) in a key mode, the first rack (367) is arranged on the first guide rail (364), the first gear (368) is in meshed transmission with the first rack (367), and the bearing plate (310) is arranged on the first sliding block (365).

2. The feeding mechanism for a printing press according to claim 1, wherein: the driving assembly (360) further comprises a second sliding block (369), a second gear motor (3601), a second gear (3603) and a second rack (3602), the second sliding block (369) is slidably connected to the first sliding block (365), the second gear motor (3601) is arranged on the second sliding block (369), the second gear (3603) is in key connection with an output shaft of the second gear motor (3601), the second rack (3602) is arranged on the first sliding block (365), the second gear (3603) is in meshed transmission with the first rack (367), and the bearing plate (310) is arranged on the second sliding block (369).

3. The feeding mechanism for a printing press according to claim 1, wherein: the conveying mechanism (400) comprises a rotating roller (420), a conveying belt (410) and a motor (430), wherein the motor (430) is arranged on the frame (100), the rotating roller (420) is rotationally connected to the frame (100), the conveying belt (410) is rotationally connected to the rotating roller (420), and the output end of the conveying motor (430) is in transmission connection with the rotating roller (420).

4. The feeding mechanism for a printing press according to claim 1, wherein: the conveying mechanism (400) further comprises rollers (450) and roller supports (440), the roller supports (440) are arranged on the frame (100), the rollers (450) are rotatably connected to the roller supports (440), and the rollers (450) are located above the conveying belt (410).