CN113233243B

CN113233243B - Digital printing device and digital printing process

Info

Publication number: CN113233243B
Application number: CN202110572510.6A
Authority: CN
Inventors: 王勇亮
Original assignee: Henan Chenghe Printing Co ltd
Current assignee: Henan Chenghe Printing Co ltd
Priority date: 2021-05-25
Filing date: 2021-05-25
Publication date: 2024-01-16
Anticipated expiration: 2041-05-25
Also published as: CN113233243A

Abstract

The application relates to the technical field of digital printing, especially, relate to a digital printing device, including workstation and the conveyer that sets up and be used for conveying the printed matter in workstation one side, the slip is provided with the mounting panel on the workstation, be provided with the driving piece that is used for adjusting the mounting panel position on the workstation, be provided with the intermediate lamella on the mounting panel, the both sides of intermediate lamella all are provided with the receiving device that is used for receiving the material, the both sides of workstation all are provided with the conveying piece that is used for carrying the printed matter, every group the conveying piece one-to-one setting of receiving device and workstation both sides. This application has the effect that promotes production efficiency.

Description

Digital printing device and digital printing process

Technical Field

The present disclosure relates to digital printing technology, and in particular, to a digital printing device and a digital printing process.

Background

The difference between digital printing and traditional printing is that the digital printing is to transmit the image-text signal to the printer to print out the print by the system before printing, and the digital printing is characterized in that plate making, printing together, timely error correction and variable data printing are not needed, the production process is simple, the time is short, and the cost of digital printing is relatively low.

The related art relates to a digital printing device which is provided with a precoating film and a film unreeling device for feeding, wherein the precoating film is fed by the film unreeling device, and is rolled by the film rolling device after passing through a jet printing unit, a sizing unit, a composite unit, a drying device and a stripping unit; the pre-coating film is subjected to pattern transfer on a composite unit and a printing stock, the printing stock is fed by an unreeling mechanism, the printing stock is separated from the pre-coating film by a stripping unit and then passes through a glazing unit and a drying device, the printing stock is dried by the drying device after printing, a conveyor is arranged on the drying device, and the dried printing stock is conveyed to the outside of the drying device by the conveyor.

With respect to the related art, the inventor considers that after the printed products are conveyed by the conveyor, the printed products are required to be manually stacked, and the production efficiency is low.

Disclosure of Invention

In order to improve production efficiency, the application provides a digital printing device and a digital printing process.

The application provides a digital printing device adopts following technical scheme:

the utility model provides a digital printing device, includes the workstation and sets up the conveyer that is used for conveying the printed matter in workstation one side, the slip is provided with the mounting panel on the workstation, be provided with the driving piece that is used for adjusting the mounting panel position on the workstation, be provided with the intermediate lamella on the mounting panel, the both sides of intermediate lamella all are provided with the receiving device that is used for receiving the material, the both sides of workstation all are provided with the conveyer that is used for carrying the printed matter, every group the conveyer one-to-one setting of receiving device and workstation both sides.

Through adopting above-mentioned technical scheme, all be provided with the conveyer that is used for conveying the printed matter in the both sides of workstation, when receiving the material to the printed matter, drive the mounting panel through the driving piece and remove, the mounting panel removes and corresponds different receiving device and conveyer respectively, receives the material through two sets of receiving device in turn, then sends out through different conveyer, realizes the uninterrupted pay-off of conveyer, promotes production efficiency.

Optionally, the receiving device includes pin and baffle, the pin sets up in the one side that the intermediate lamella is close to the conveyer, the pin rotates the setting on the mounting panel, be provided with the adjusting part that is used for adjusting the pin position on the workstation.

Through adopting above-mentioned technical scheme, print flat component stacks between pin and intermediate lamella, highly reaches predetermined height after stacking, drives the pin through adjusting part and rotates, and the pin rotates to the horizontality to remove the printed matter to the conveying piece on, promote production efficiency.

Optionally, the adjusting component comprises an adjusting rod, a gear ring and a rack, wherein the gear ring is in a quarter ring shape; one end of the adjusting rod is fixedly connected with the rotating end of the stop lever, the other end of the adjusting rod is connected with the gear ring, the rack is arranged on the workbench, and the gear ring is meshed with the rack.

Through adopting above-mentioned technical scheme, the driving piece drives the mounting panel and removes, and the mounting panel drives pin and ring gear and removes, and the ring gear removes and rotate on the rack for the pin rotates when removing, and then adjusts the position of pin, so as to adjust the position of printed matter.

Optionally, the pin with be provided with the guide assembly that is used for guiding the printed matter to remove on the intermediate plate, guide assembly includes guide arm and transfer piece, the transfer piece rotates the setting in the side of pin, transfer piece and mounting panel interval set up, the one end of guide arm rotates the setting on the intermediate plate, and the other end runs through the transfer piece setting, the guide arm slides along its length direction on the transfer piece and sets up, the guide arm card is established on the transfer piece.

By adopting the technical scheme, in the initial state, the printed matter is placed on the guide rod. When the pin rotates, drive the guide bar and rotate, the guide bar slides relative installation piece in the pivoted, and when the pin rotated to the horizontality, the guide bar rotated to incline the state for the printed matter slides on the guide bar under the effect of guide bar inclined plane and the effect of printed matter self gravity, until remove to on the conveyer, reduces manual control, promotes production efficiency simultaneously.

Optionally, a stabilizing component for improving stability of the guiding rod is arranged on the guiding rod, and the stabilizing component is connected with the middle rotating block.

Through adopting above-mentioned technical scheme, set up stable subassembly and support the position of guide arm when the guide arm rotates, promote the stability of guide arm, promote the stability of printed matter on the guide arm simultaneously, reduce the phenomenon that the skew appears in the printed matter because of the vibrations that produce when the guide arm rotates is great to carry the printed matter.

Optionally, the stabilizing component includes the stabilizer plate and is used for adjusting the stabilizer of stabilizer plate position, the stabilizer plate sets up the one end that deviates from the intermediate lamella at the guide bar, the stabilizer plate sets up the one side that is close to the mounting panel at the guide bar, the stabilizer of complaining sets up between stabilizer plate and transfer piece.

Through adopting above-mentioned technical scheme, stabilizer plate and guide bar are connected, and connect through stabilizer and stabilizer plate, through setting up stabilizer and stabilizer plate, promote the stability of complex between guide bar and the turning block, and then promote the stability when the guide bar rotates.

Optionally, the standing groove has been seted up to one side that deviates from the mounting panel on the guide arm, be provided with a plurality of gyro wheels in the standing groove, a plurality of the gyro wheels are along the length direction interval setting of standing groove.

Through adopting above-mentioned technical scheme, set up the guide arm and pass through gyro wheel and printed matter butt, reduce the printed matter when removing with the frictional force between the guide arm to adjust the position of printed matter.

Optionally, a relief groove is formed in a position, corresponding to the guide rod, on the mounting plate, and the guide rod is buckled with the relief groove.

Through adopting above-mentioned technical scheme, set up the groove of stepping down to guide bar rotates to incline state along with the pin, reduces the mounting panel and appears interfering guide bar pivoted phenomenon.

Optionally, a side of the guide rod facing away from the mounting plate and a side of the transfer block facing away from the mounting plate are disposed in the same plane.

Through adopting above-mentioned technical scheme, set up the side of guide arm and the side setting of transfer piece and follow the coplanar in to the printed matter slides on the guide arm, reduces the transfer piece and appears interfering the gliding phenomenon of printed matter on the guide arm.

A digital printing process of a printing device, comprising the steps of:

firstly, conveying a printed matter between a middle plate and a stop lever through a conveyor, and supporting through a guide rod;

secondly, after the stacking height of the printed matters reaches a certain height, the driving piece drives the mounting plate to move, the gear ring and the rack drive the stop lever to rotate, and the guide rod rotates to an inclined state;

thirdly, the printed matter enters a conveying piece to be conveyed to the next procedure under the action of a roller;

and fourthly, when the mounting plate rotates, the other group of baffles are moved to the position corresponding to the conveyor while conveying the printed matter, and material collection is alternately performed.

Through adopting above-mentioned technical scheme, set up two sets of receiving devices, set up the driving piece simultaneously and adjust the position of mounting panel for incessantly receive the material, receive the material operation to the receiving device of different sets of respectively simultaneously, promote production efficiency.

Drawings

Fig. 1 is a schematic structural view of a digital printing apparatus according to an embodiment of the present application.

Fig. 2 is a partial view in an expanded state in the digital printing device of the embodiment of the present application.

Fig. 3 is a partial view in a digital printing apparatus of an embodiment of the present application.

Fig. 4 is a structural view of a receiving device in the digital printing device according to the embodiment of the present application.

Fig. 5 is a structural view of a guide assembly in the digital printing device of the embodiment of the present application.

Reference numerals: 1. a work table; 11. a conveyor; 12. a driving member; 2. a material receiving device; 21. a stop lever; 22. a baffle; 3. a mounting plate; 31. an intermediate plate; 4. a transfer member; 5. an adjustment assembly; 51. an adjusting rod; 52. a gear ring; 53. a rack; 6. a guide assembly; 61. a guide rod; 611. a placement groove; 62. a transfer block; 7. a stabilizing assembly; 71. a stabilizing plate; 72. a stabilizer; 8. a roller; 9. and (5) giving way.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The application discloses a digital printing device and a digital printing process.

Example 1

Referring to fig. 1 and 2, the digital printing apparatus includes a table 1 and a conveyor 11 provided at one side of the table 1 for conveying printed matters, a receiving device 2 for placing the printed matters is provided on the table 1, and the printed matters are conveyed to the receiving device 2 through the conveyor 11 and processed by the receiving device 2.

Referring to fig. 2 and 3, a mounting plate 3 is disposed on a workbench 1, a middle plate 31 is fixedly disposed on one side of the mounting plate 3 away from the workbench 1 in a welded manner, a receiving device 2 comprises two stop bars 21 and two baffle plates 22, the two stop bars 21 are disposed on the plane and the middle plate 31 in parallel and at intervals, the middle plate 31 and the stop bars 21 are disposed on two sides of a conveyor 11, the baffle plates 22 and the conveying are correspondingly disposed, a printed matter is conveyed to the position between the middle plate 31, the stop bars 21 and the baffle plates 22 through the conveyor 11, and the printed matter is stacked along the direction perpendicular to the mounting bar along with continuous conveying of the conveyor 11 so as to facilitate subsequent production and processing.

Referring to fig. 1 and 3, a conveyor 4 for conveying printed matters is provided at one side of a table 1, the conveyor 4 may be provided as a belt conveyor, a bar 21 is provided near the conveyor 4 at one side of the table 1 adjacent to a conveyor 11, in order to facilitate the conveyance of stacked printed matters by placing the stacked printed matters on the conveyor 4, the bar 21 is rotatably provided on a mounting bar, the mounting bar 3 is slidably provided on the table 1 in a direction toward the conveyor 4, the bar 21 is provided near a side of the conveyor 4, and an adjusting assembly 5 for adjusting a position of the bar 21 is provided on the mounting bar and the table 1.

Referring to fig. 2 and 3, a driving member 12 for adjusting the position of the mounting plate 3 is provided on the table 1, the driving member 12 may be provided as an air cylinder, the cylinder body of the air cylinder is connected with the table 1, the piston rod is connected with the mounting plate 3, the adjusting assembly 5 includes two adjusting rods 51, a gear ring 52 and a rack 53, the adjusting rods 51 are provided with two, the gear ring 52 is in a quarter ring shape, one sides of the two adjusting rods 51 are welded and fixed, the other ends of the two adjusting rods are respectively connected with the end of the gear ring 52, the two adjusting rods 51 are mutually perpendicular, one end of the adjusting rod 51, which is far away from the gear ring 52, is fixedly connected with the rotating end of the stop lever 21, the rack 53 is provided on one side, close to the ground, of the table 1, and the gear ring 52 is meshed with the rack 53. In the initial state, the stop lever 21 is in a vertical state, then when the position of a printed matter needs to be adjusted, the driving piece 12 drives the mounting plate 3 to move, and then drives the adjusting rod 51 to move, and meanwhile, the gear ring 52 rotates and drives the stop lever 21 to rotate along the direction towards the conveying piece 4 until the stop lever 21 rotates to a horizontal state, so that the printed matter is taken out from the stop lever 21 and the middle plate 31.

Referring to fig. 1 and 2, the blocking rods 21 and the blocking plates 22 are provided with two groups, each group of blocking rods 21 and blocking plates 22 are respectively arranged on two sides of the middle plate 31, the conveying member 4 is also provided with two groups and respectively arranged on two corresponding sides of the workbench 1, each group of blocking rods 21 and blocking plates 22 are respectively arranged corresponding to the adjusting component 5, when the mounting plate 3 moves, the blocking rods 21 in the two groups are simultaneously adjusted, one group of blocking rods 21 is in a vertical state and is correspondingly arranged with the conveyor 11 in an initial state, the other group of blocking rods 21 is in a horizontal state, after a printed matter is stacked between the middle plate 31 and the blocking rods 21 to reach a preset height, the driving member 12 drives the mounting plate 3 to move, the other group of blocking rods 21 are correspondingly arranged with the conveyor 11, meanwhile, the stacked printed matter is conveyed to the conveying member 4, and continuous material connection is realized, and the production efficiency is improved.

Referring to fig. 4 and 5, in order to facilitate moving the printed matter onto the transfer member 4, the upper surface of the transfer member 4 is disposed flush with the upper surface of the mounting plate 3, a guide assembly 6 is disposed on the bar 21 and the intermediate plate 31, the guide assembly 6 includes a guide rod 61 and a transfer block 62, the transfer block 62 is rotatably disposed on the side of the bar 21 and is disposed at a distance from the rotation end of the bar 21, one end of the guide rod 61 is rotatably disposed on the intermediate rod, the other end is disposed through the transfer block 62, the guide rod 61 is stuck on the transfer block 62, and is slidably disposed on the transfer block 62 in a direction toward the guide rod 61. In the initial state, the stop lever 21 is in a vertical state, the guide rod 61 and the mounting plate 3 are arranged at intervals in parallel, a printed matter is placed between the middle plate 31 and the stop lever 21, the printed matter is supported by the guide rod 61, and when the stop lever 21 rotates to a horizontal state, the guide rod 61 is driven to rotate to an inclined state so as to guide the printed matter to move until the printed matter is transferred onto the conveying member 4. One side of the guide rod 61, which is away from the mounting plate 3, and one side of the transfer block 62, which is away from the mounting plate 3, are arranged in the same plane, so that the phenomenon that the transfer block 62 interferes with the movement of the printed matter when the printed matter slides on the guide rod 61 is reduced.

Referring to fig. 4 and 5, a stabilizing assembly 7 is provided on the guide rod 61, the stabilizing assembly 7 includes a stabilizing plate 71 and a stabilizing member 72, the stabilizing plate 71 is disposed at one end of the guide rod 61 facing away from the middle plate 31 and disposed at one side near the transfer block 62, the stabilizing member 72 is disposed at an interval between the stabilizing plate 71 and the transfer block 62, the stabilizing member 72 can be provided as a spring, one end of the spring is connected with the stabilizing plate 71, the other end is connected with the transfer block 62, the guide rod 61 pulls the spring when sliding on the transfer block 62, the position of the guide rod 61 is limited, the shaking phenomenon of the guide rod 61 relative to the stop rod 21 when rotating is reduced, and the stability when transferring printed matters is improved.

Referring to fig. 5, a placement groove 611 is provided on one side of the guide rod 61 facing away from the mounting plate 3, the placement groove 611 is provided along the length direction of the guide rod 61, a plurality of rollers 8 are provided in the placement groove 611, the plurality of roller rollers 8 are provided at intervals along the length direction of the placement groove 611, and the guide rod 61 is contacted with a printed matter through the rollers 8, so that the printed matter slides on the guide rod 61, and then the position of the printed matter is adjusted.

Referring to fig. 2 and 4, a relief groove 9 is formed in a position on the mounting plate 3 corresponding to the guide rod 61, the guide rod 61 can rotate into the relief groove 9, so that the guide rod 61 rotates along with the stop rod 21, and when the stop rod 21 rotates to a horizontal state, the guide rod 61 rotates into the relief groove 9, thereby reducing the phenomenon that the mounting plate 3 interferes with the rotation of the guide rod 61.

Through setting up two sets of pin 21 and baffle 22 on mounting panel 3, when removing mounting panel 3, adjust two sets of pin 21 and baffle 22 respectively with conveyer 11 correspond, realize incessant receipts material, simultaneously under the effect of guide bar 61 gyro wheel 8, with the printed matter conveying to conveying piece 4 on, reduce manual control, promote production efficiency.

Example 2

A printing process of a digital printing device, comprising the steps of:

a first step of transferring the printed matter between the intermediate plate 31 and the bar 21 by the conveyor 11 while being supported by the guide bar 61;

secondly, after the stacking height of the printed matters reaches a certain height, the driving piece 12 drives the mounting plate 3 to move, the gear ring 52 and the rack 53 drive the stop lever 21 to rotate, and the guide rod 61 rotates to an inclined state;

thirdly, the printed matter enters the conveying member 4 to be conveyed to the next working procedure under the action of the roller 8;

fourth, when the mounting plate 3 rotates, the other group of baffles 22 are moved to the position corresponding to the conveyor 11 while conveying the printed matter, and the material is alternately received.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. A digital printing device comprising a workbench (1) and a conveyor (11) arranged on one side of the workbench (1) for conveying printed matter, characterized in that: the automatic printing machine is characterized in that a mounting plate (3) is arranged on the workbench (1) in a sliding manner, a driving piece (12) for adjusting the position of the mounting plate (3) is arranged on the workbench (1), a middle plate (31) is arranged on the mounting plate (3), material receiving devices (2) for receiving materials are arranged on two sides of the middle plate (31), conveying pieces (4) for conveying printed matters are arranged on two sides of the workbench (1), each group of conveying pieces (4) on two sides of the material receiving devices (2) and the workbench (1) are arranged in a one-to-one correspondence manner, the material receiving devices (2) comprise a stop lever (21) and a baffle plate (22), the stop lever (21) is arranged on one side, close to the conveying pieces (4), of the middle plate (31) is rotatably arranged on the mounting plate (3), an adjusting component (5) for adjusting the position of the stop lever (21) is arranged on the workbench (1), the adjusting component (5) comprises an adjusting rod (51), a gear ring (52) and a gear ring (53), and the gear ring (52) are in a quarter ring shape; one end of the adjusting rod (51) is fixedly connected with the rotating end of the stop lever (21), the other end of the adjusting rod is connected with the gear ring (52), the gear rack (53) is arranged on the workbench (1), the gear ring (52) is meshed with the gear rack (53), the stop lever (21) and the middle plate (31) are provided with a guide assembly (6) for guiding a printed matter to move, the guide assembly (6) comprises a guide rod (61) and a transfer block (62), the transfer block (62) is rotatably arranged on the side face of the stop lever (21), and the transfer block (62) and the mounting plate (3) are arranged at intervals; one end of the guide rod (61) is rotatably arranged on the middle plate (31), the other end of the guide rod penetrates through the transfer block (62), the guide rod (61) is slidably arranged on the transfer block (62) along the length direction of the guide rod, the guide rod (61) is clamped on the transfer block (62), and when the stop lever (21) rotates to a horizontal state, the guide rod (61) is driven to rotate to an inclined state.

2. The digital printing apparatus of claim 1, wherein: the guide rod (61) is provided with a stabilizing component (7) for improving the stability of the guide rod (61), and the stabilizing component (7) is connected with the middle rotating block (62).

3. The digital printing apparatus of claim 2, wherein: the stabilizing assembly (7) comprises a stabilizing plate (71) and a stabilizing piece (72) for adjusting the position of the stabilizing plate (71), wherein the stabilizing plate (71) is arranged at one end of the guide rod (61) deviating from the middle plate (31), the stabilizing plate (71) is arranged at one side of the guide rod (61) close to the mounting plate (3), and the stabilizing piece (72) is arranged between the stabilizing plate (71) and the middle rotating block (62).

4. A digital printing device according to claim 3, wherein: a placing groove (611) is formed in one side, away from the mounting plate (3), of the guide rod (61), a plurality of rollers (8) are arranged in the placing groove (611), and the rollers (8) are arranged at intervals along the length direction of the placing groove (611).

5. The digital printing apparatus of claim 4, wherein: and a yielding groove (9) is formed in the position, corresponding to the guide rod (61), of the mounting plate (3), and the guide rod (61) is buckled with the yielding groove (9).

6. The digital printing apparatus of claim 5, wherein: one side of the guide rod (61) deviating from the mounting plate (3) and one side of the transfer block (62) deviating from the mounting plate (3) are arranged in the same plane.

7. The digital printing process of a digital printing device according to claim 6, comprising the steps of:

firstly, conveying printed matters between an intermediate plate (31) and a stop lever (21) through a conveyor (11), and supporting through a guide rod (61);

secondly, after the stacking height of the printed matters reaches a certain height, the driving piece (12) drives the mounting plate (3) to move, the gear ring (52) and the rack (53) drive the stop lever (21) to rotate, and the guide rod (61) rotates to an inclined state;

thirdly, the printed matter enters a conveying piece (4) to be conveyed to the next working procedure under the action of a roller (8);

and fourthly, when the mounting plate (3) rotates, the other group of baffles (22) are moved to the position corresponding to the conveyor (11) while conveying the printed matter, and material collection is alternately performed.