CN216507457U - High-speed double-physical-reference-resolution digital printing machine - Google Patents

Abstract

The utility model discloses a high-speed double-physical-reference-resolution digital printing machine, and relates to the technical field of digital printing machines. The method comprises the following steps: the digital jet printing system is used for jet printing patterns on a product to be jet printed, and comprises a driven guide rail beam and a driving guide rail beam, wherein an ink suction device is arranged between the driven guide rail beam and the driving guide rail beam and used for supplying ink, a driving jet printing trolley is arranged on the driving guide rail beam, a main transmission servo motor used for driving the driving jet printing trolley is arranged at one end of the driving guide rail beam, and a first positioning guide seat is arranged on one side of the driving jet printing trolley. Through setting up the digital printing system that spouts, compare in the digital printing machine of single precision in the market, the device is a tractor serves several purposes, and the adjustable interchange of physical benchmark resolution ratio saves the manual work, saves the fixed assets resource of mill and resets, and machine structure is simple, and system convenient operation, labour saving and time saving, production efficiency is high, accords with economic benefits, and application prospect is wide.

Description

High-speed double-physical-reference-resolution digital printing machine

Technical Field

The utility model relates to the technical field of digital printing machines, in particular to a high-speed digital printing machine with double physical reference resolutions.

Background

Digital printing is the digitization of printing techniques, which broadly refers to the digitization of part or all of the entire process. For example: laser typesetting, remote plate transmission, digital proofing, computer-to-plate, digital work flow, printing factory ERP and the like belong to the category of digital printing.

At present, a common digital printer on the market only has one physical reference resolution, is special for a special printer, cannot adjust the two physical reference resolutions, is low in efficiency, and cannot meet the use requirement.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model provides the following technical scheme: a high-speed dual physical reference resolution digital printer comprising:

the digital jet printing system is used for jet printing patterns on a product to be jet printed, and comprises a driven guide rail beam and a driving guide rail beam, wherein an ink absorbing device is arranged between the driven guide rail beam and the driving guide rail beam and used for supplying ink, a driving jet printing trolley is arranged on the driving guide rail beam, one end of the driving guide rail beam is provided with a main transmission servo motor used for driving the driving jet printing trolley, one side of the driving jet printing trolley is provided with a first positioning guide seat, the other side of the driving jet printing trolley is provided with a first positioning cylinder, the driven guide rail beam is provided with a driven jet printing trolley, one side of the driven jet printing trolley is provided with a second positioning cylinder matched with the first positioning guide seat, the other side of the driven jet printing trolley is provided with a second positioning guide seat matched with the first positioning cylinder, and the main transmission servo motor is started to drive the driving jet printing trolley to move to be opposite to the driven jet printing trolley, starting the positioning cylinder II to complete linkage locking with the positioning guide seat I, and realizing linkage of the driving jet printing trolley and the driven jet printing trolley;

the material passing platform system is used for conveying and positioning a product to be sprayed and printed and comprises an air suction platform, and the driven guide rail beam and the driving guide rail beam are arranged at the top of the air suction platform;

the feeding system is used for conveying a product to be subjected to jet printing to the air suction platform;

and the material receiving transition platform system is used for guiding the product subjected to jet printing to the boxing procedure.

As a preferred technical scheme of the utility model, the driven guide rail beam and the driving guide rail beam are provided with slide rails, and the driven jet printing trolley and the driving jet printing trolley are respectively installed on the driven guide rail beam and the driving guide rail beam through the slide rails in a sliding manner.

As a preferred technical scheme of the utility model, one side of the driving guide rail beam is provided with a transmission belt, the surface of the transmission belt is fixedly connected with one side of the driving spray printing trolley, the transmission belt is driven by a main transmission servo motor, the ink absorbing device comprises a fixing plate, an ink absorbing platform and an ink supply frame, and the bottoms of the driven guide rail beam and the driving guide rail beam are respectively provided with the fixing plate.

As a preferred technical scheme of the utility model, the opposite surfaces of the two fixed plates are provided with guide rails, the two sides of the ink suction table are provided with slide seats, one ends of the guide rails far away from the fixed plates extend into the slide seats, the number of the ink supply frames is two, the two ink supply frames are respectively arranged on the opposite surfaces of the driven guide rail beam and the driving guide rail beam, and the ink supply tank communicated with the ink suction table is arranged in the ink supply frames.

As a preferred technical scheme of the utility model, the output end of the first positioning cylinder is provided with a first positioning bolt, the output end of the second positioning cylinder is provided with a second positioning bolt, when the driven jet printing trolley moves to be opposite to the driving jet printing trolley, the first positioning bolt and the second positioning guide seat are coaxially arranged, and the second positioning bolt and the first positioning guide seat are coaxially arranged.

As a preferred technical scheme of the utility model, at least one air suction cover plate and at least one second conveying belt are arranged in the air suction platform, one side of the air suction platform is provided with a conveying motor, two groups of transmission shafts are arranged in the air suction platform and are in transmission connection through the second conveying belt, and the output end of the conveying motor is in transmission connection with one group of transmission shafts.

As a preferable technical scheme, the feeding system comprises a feeding frame arranged on one side of the air suction platform, an installation frame is arranged at the top of the feeding frame, and at least one pressing roller is arranged inside the installation frame.

As a preferred technical scheme, the material receiving transition platform system comprises a guide frame arranged on one side, away from the feeding frame, of the air suction platform, a second conveying belt is arranged inside the guide frame, and protective enclosing blocks are arranged on two sides of the guide frame.

Compared with the prior art, the utility model provides a high-speed double-physical-reference-resolution digital printer which has the following beneficial effects:

this high-speed two physical benchmark resolution ratio digital printing machine, through setting up the digital printing system that spouts, compare in the digital printing machine of single precision in market, the device is a tractor serves several purposes, and the adjustable interchange of physical benchmark resolution ratio, multiple printing precision saves artifically, saves the fixed asset resource of mill and resets, and machine structure is simple, and system operation is convenient, labour saving and time saving, and production efficiency is high, accords with economic benefits, and application prospect is wide.

Drawings

FIG. 1 is a schematic structural diagram of a high-speed dual physical reference resolution digital printer according to the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic structural diagram of a digital jet printing system of a high-speed dual-physical reference resolution digital printer according to the present invention;

FIG. 4 is a schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic view of the structure at B in FIG. 3;

FIG. 6 is a schematic diagram showing the staggered positions of the driving spray printing trolley and the driven spray printing trolley of the high-speed digital printer with dual physical reference resolutions;

FIG. 7 is an enlarged view of the structure at A in FIG. 6;

FIG. 8 is an enlarged view of the structure at B in FIG. 6;

FIG. 9 is a structural side view of a driving jet printing trolley and a driven jet printing trolley of the high-speed dual-physical reference resolution digital printer according to the present invention;

fig. 10 is a schematic diagram of a casing of a high-speed dual-physical reference resolution digital printer according to the present invention.

In the figure: 1. a digital jet printing system; 11. a driven guide rail beam; 12. a drive rail beam; 13. an ink absorbing device; 131. a fixing plate; 132. an ink suction table; 133. a guide rail; 134. a slide base; 135. an ink supply frame; 136. an ink supply tank; 14. a slide rail; 15. a main drive servo motor; 16. actively spraying and printing a trolley; 161. a first positioning guide seat; 162. a first positioning cylinder; 163. a first positioning bolt; 17. a driven jet printing trolley; 171. a second positioning cylinder; 172. a second positioning bolt; 173. a second positioning guide seat; 2. a feeding platform system; 21. an air suction platform; 22. an air suction cover plate; 23. a first conveying belt; 24. a conveying motor; 25. a drive shaft; 3. a feeding system; 31. a feeding frame; 32. a mounting frame; 33. a compression roller; 4. a material receiving transition platform system; 41. a guide frame; 42. a protective enclosure; 43. and a second conveying belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, a high-speed dual physical reference resolution digital printer includes:

the digital jet printing system 1 is used for jet printing patterns on a product to be jet printed, the digital jet printing system 1 comprises a driven guide rail beam 11 and a driving guide rail beam 12, an ink absorbing device 13 is arranged between the driven guide rail beam 11 and the driving guide rail beam 12 and used for supplying ink, a driving jet printing trolley 16 is arranged on the driving guide rail beam 12, a main transmission servo motor 15 used for driving the driving jet printing trolley 16 is arranged at one end of the driving guide rail beam 12, a first positioning guide seat 161 is arranged at one side of the driving jet printing trolley 16, a first positioning cylinder 162 is arranged at the other side of the driving jet printing trolley 16, a driven jet printing trolley 17 is arranged on the driven guide rail beam 11, a second positioning cylinder 171 matched with the first positioning guide seat 161 is arranged at one side of the driven jet printing trolley 17, a second positioning guide seat 173 matched with the second positioning cylinder 171 is arranged at the other side of the driven jet printing trolley 17, and starting the main transmission servo motor 15 to drive the driving jet printing trolley 16 to move to be opposite to the driven jet printing trolley 17, and starting the positioning cylinder II 171 to complete linkage locking with the positioning guide seat I161 so as to realize linkage of the driving jet printing trolley 16 and the driven jet printing trolley 17.

Punishment in advance platform system 2 for treat the product of spouting the seal carry and fix a position, punishment in advance platform system 2 is including the platform 21 that induced drafts, driven guide rail roof beam 11 and initiative guide rail roof beam 12 all set up in the top of the platform 21 that induced drafts, and feeding system 3 is used for the product of waiting to spout the seal carry extremely on the platform 21 that induced drafts, receive material transition platform system 4 for product direction to vanning process after will spouting the seal and accomplish, figure 10 is the structure sketch behind the device's the complete machine installation shell, and the appearance is more pleasing to the eye, and it is more convenient to use.

As a specific technical solution of this embodiment, the slide rails 14 are respectively disposed on the driven guide rail beam 11 and the driving guide rail beam 12 for relative selling of the driven guide rail beam 11 and the driving guide rail beam 12, the driven inkjet printing trolley 17 and the driving inkjet printing trolley 16 are respectively slidably mounted on the driven guide rail beam 11 and the driving guide rail beam 12 through the slide rails 14, and the movement of the driving inkjet printing trolley 16 and the driven inkjet printing trolley 17 is more stable due to the arrangement of the slide rails 14.

As a specific technical solution of this embodiment, a transmission belt having a surface fixedly connected to one side of the active inkjet printing cart 16 is disposed on one side of the active guide rail beam 12, the transmission belt is driven by the main transmission servo motor 15, the ink absorbing device 13 includes a fixing plate 131, an ink absorbing table 132 and an ink supply rack 135, the fixing plates 131 are disposed at the bottoms of the driven guide rail beam 11 and the active guide rail beam 12, guide rails 133 are disposed on opposite surfaces of the two fixing plates 131, sliding bases 134 are disposed on both sides of the ink absorbing table 132, one end of the guide rail 133 away from the fixing plate 131 extends into the sliding bases 134, the number of the ink supply racks 135 is two, the two ink supply racks 135 are respectively mounted on opposite surfaces of the driven guide rail beam 11 and the active guide rail beam 12, an ink supply tank 136 communicated with the ink absorbing table 132 is disposed inside the ink supply rack 135, the main transmission servo motor 15 is started to drive the active inkjet printing cart 16 to move through the transmission belt, slide 134 cooperation guide rail 133, movable connected mode for ink sucking table 132's height can be adjusted through motor or bolt in the later stage, has guaranteed ink sucking table 132's stability simultaneously, has made things convenient for initiative to spout seal dolly 16 and driven to spout seal dolly 17 and has carried out the chinese ink and supply.

As a specific technical solution of this embodiment, the output end of the first positioning cylinder 162 is provided with a first positioning pin 163, the output end of the second positioning cylinder 171 is provided with a second positioning pin 172, when the driven inkjet printing cart 17 moves to be opposite to the driving inkjet printing cart 16, the first positioning pin 163 and the second positioning guide seat 173 are coaxially arranged, the second positioning pin 172 and the first positioning guide seat 161 are coaxially arranged, when the driving inkjet printing cart 16 moves to a certain position to be opposite to the driven inkjet printing cart 17, the first positioning cylinder 162 and the second positioning cylinder 171 on the driven inkjet printing cart 17 and the driving inkjet printing cart 16 are started, the first positioning pin 163 is inserted into the second positioning guide seat 173, and the second positioning pin 172 is inserted into the first positioning guide seat 161, so as to complete the linkage between the driving inkjet printing cart 16 and the driven inkjet printing cart 17.

As a specific technical scheme of this embodiment, the inside of the platform 21 that induced drafts is provided with the apron 22 and two 43 of conveyer belts that induced draft of quantity is no less than one, the one side of the platform 21 that induced drafts is provided with conveying motor 24, the inside of the platform 21 that induced drafts is provided with two sets of transmission shafts 25 and two sets of transmission shafts 25 pass through two 43 transmissions of conveyer belt are connected, conveying motor 24's output and one of them 25 transmissions of a set of transmission shaft are connected, and the inside of the platform 21 that induced drafts is provided with the equipment that induced drafts, adsorbs the product of waiting to spout the seal through the apron 22 that induced drafts for the product keeps good stability when spouting the seal, has further guaranteed to spout the seal precision, spouts the seal completion back, starts conveying motor 24 and drives conveyer belt 23 and carries the product to leading truck 41 on.

As a specific technical scheme of this embodiment, feeding system 3 is including setting up in the pay-off frame 31 of induced draft platform 21 one side, the top of pay-off frame 31 is provided with mounting bracket 32, the inside of mounting bracket 32 is provided with the compression roller 33 that a quantity is no less than one, places the product of treating the jet printing in pay-off frame 31 department to with product propelling movement to induced draft platform 21 on, compression roller 33 has continuously pushed down the product, has guaranteed the planarization of product.

As a specific technical scheme of this embodiment, receive material transition platform system 4 is including setting up in the leading truck 41 that induced drafts platform 21 and keep away from pay-off frame 31 one side, the inside of leading truck 41 is provided with second conveyer belt 43, the both sides of leading truck 41 all are provided with the protection and enclose fender 42, refer to fig. 3, and second conveyer belt 43 inside leading truck 41 can use the belt to be connected with transmission shaft 25, realizes the synchronous rotation of first conveyer belt 23 and second conveyer belt 43, has made things convenient for the product after the transport jet printing more.

When in use, the working precision of the device mainly has two modes:

in a first mode: 600DPI, wide width digital printing, this mode is to decompose 1200DPI into two 600DPI, and the precision reduces half, but the printable pattern width increases one time, and this mode is mainly applied to general precision pattern, and the printing pattern can be printed transversely and can be printed vertically, can transversely print when the jet printing pattern is great, and jet printing is fast, and production efficiency is high.

And a second mode: 1200DPI, high-precision digital printing, wherein two 600 DPIs are combined into one 1200DPI, the precision is doubled and the width of a printable pattern is reduced by half compared with a 600DPI mode, the mode is applied to high-precision pattern jet printing, mainly jet printing is carried out on coated paper with a coating, and the printed pattern is mainly vertically printed and has high precision.

The device is automatically controlled by a jet printing system, a product to be jet printed is pushed to an air suction platform 21 through a feeding frame 31, when a 600DPI precision mode is selected in an operating system, a control system signals a main transmission servo motor 15, the main transmission servo motor 15 drives a driving jet printing trolley 16 to move leftwards to leave an original point through a transmission belt, when the driving jet printing trolley 16 moves to a certain position to be opposite to a driven jet printing trolley 17, the driven jet printing trolley 17 and a first positioning air cylinder 162 and a second positioning air cylinder 171 on the driving jet printing trolley 16 are started, a first positioning bolt 163 is inserted into a second positioning guide seat 173, a second positioning bolt 172 is inserted into a first positioning guide seat 161, the driving jet printing trolley 16 continuously moves to drive the driven jet printing trolley 17 to move to a corresponding position to jet print patterns on the product, and whether the driving jet printing trolley 16 drives the driven jet printing trolley 17 to move or not, the method is determined according to the width of a pattern to be sprayed in an input control system, when the width of the pattern to be sprayed is smaller than the width of the pattern sprayed by the driving spray printing trolley 16, the driving spray printing trolley 16 does not need to drive the driven spray printing trolley 17, namely, the first positioning cylinder 162 and the second positioning cylinder 171 do not act, the driving spray printing trolley 16 directly moves to a corresponding position to spray the pattern on a product, and conversely, when the width of the pattern to be sprayed is larger than the width of the pattern sprayed by the driving spray printing trolley 16, the driven spray printing trolley 17 and the first positioning cylinder 162 and the second positioning cylinder 171 on the driving spray printing trolley 16 are started, so that the driving spray printing trolley 16 is linked with the driven spray printing trolley 17; when a 1200DPI precision mode II is selected in the operating system, the driving spray printing trolley 16 and the driven spray printing trolley 17 do not move at the original point, the positioning cylinder I162 and the positioning cylinder II 171 are started to complete linkage locking of the driving spray printing trolley 16 and the driven spray printing trolley 17, the main transmission servo motor 15 can be started to drive the driving spray printing trolley 16 and the driven spray printing trolley 17 to move from the original point position to the corresponding position to spray print patterns on a product, after the spray printing is completed, the conveying motor 24 drives the conveying belt I23 to convey the product, and a worker can carry the product at the guide frame 41 to carry out product boxing, so that the operation of the device is completed through the above steps.

In conclusion, by arranging the digital jet printing system 1, compared with the digital printing machine with single precision in the market, the high-speed double-physical-reference-resolution digital printing machine has the advantages that the machine is multipurpose, the physical reference resolution can be adjusted and interchanged, various printing precisions are realized, manpower is saved, factory fixed asset resource resetting is saved, the machine structure is simple, the system is convenient to operate, time and labor are saved, the production efficiency is high, economic benefits are met, and the application prospect is wide.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A high speed dual physical reference resolution digital printer comprising:

the digital jet printing system (1) is used for jet printing patterns on a product to be jet printed, the digital jet printing system (1) comprises a driven guide rail beam (11) and a driving guide rail beam (12), an ink absorbing device (13) is arranged between the driven guide rail beam (11) and the driving guide rail beam (12) and used for supplying ink, a driving jet printing trolley (16) is arranged on the driving guide rail beam (12), a main transmission servo motor (15) used for driving the driving jet printing trolley (16) is arranged at one end of the driving guide rail beam (12), a first positioning guide seat (161) is arranged at one side of the driving jet printing trolley (16), a first positioning cylinder (162) is arranged at the other side of the driving jet printing trolley (16), a driven jet printing trolley (17) is arranged on the driven guide rail beam (11), a second positioning cylinder (171) matched with the first positioning guide seat (161) is arranged at one side of the driven jet printing trolley (17), a second positioning guide seat (173) matched with a second positioning air cylinder (171) is arranged on the other side of the driven jet printing trolley (17), the main transmission servo motor (15) is started to drive the driving jet printing trolley (16) to move to be opposite to the driven jet printing trolley (17), the second positioning air cylinder (171) is started to complete linkage locking with the first positioning guide seat (161), and linkage of the driving jet printing trolley (16) and the driven jet printing trolley (17) is achieved;

the material passing platform system (2) is used for conveying and positioning a product to be subjected to jet printing, the material passing platform system (2) comprises an air suction platform (21), and the driven guide rail beam (11) and the driving guide rail beam (12) are arranged at the top of the air suction platform (21);

the feeding system (3) is used for conveying the products to be sprayed and printed to the air suction platform (21);

and the material receiving transition platform system (4) is used for guiding the product subjected to jet printing to the boxing procedure.

2. A high-speed dual physical reference resolution digital printer according to claim 1, wherein: the driven guide rail beam (11) and the driving guide rail beam (12) are sold relatively and are provided with slide rails (14), and the driven spray printing trolley (17) and the driving spray printing trolley (16) are respectively installed on the driven guide rail beam (11) and the driving guide rail beam (12) in a sliding mode through the slide rails (14).

3. A high-speed dual physical reference resolution digital printer according to claim 1, wherein: one side of initiative guide rail roof beam (12) is provided with the drive belt of one side fixed connection of surface and initiative jet printing dolly (16), the drive belt is driven by main drive servo motor (15), blotting device (13) are including fixed plate (131), blotting platform (132) and confession china ink frame (135), the bottom of driven guide rail roof beam (11) and initiative guide rail roof beam (12) all is provided with fixed plate (131).

4. A high-speed dual physical reference resolution digital printer according to claim 3, wherein: two the opposite face of fixed plate (131) all is provided with guide rail (133), the both sides of inhaling black platform (132) all are provided with slide (134), the one end that fixed plate (131) were kept away from in guide rail (133) extends to the inside of slide (134), the quantity that supplies black frame (135) is two, two supply black frame (135) to install respectively in the face of carrying on the back of the body of driven guide rail roof beam (11) and initiative guide rail roof beam (12), the inside of supplying black frame (135) is provided with and inhales black confession china ink tank (136) that black platform (132) are linked together.

5. A high-speed dual physical reference resolution digital printer according to claim 1, wherein: the output of location cylinder (162) is provided with location bolt one (163), the output of location cylinder two (171) is provided with location bolt two (172), works as driven seal dolly (17) of spouting remove to spout seal dolly (16) with the initiative relatively, location bolt one (163) is coaxial setting with location guide holder two (173), location bolt two (172) are coaxial setting with location guide holder one (161).

6. A high-speed dual physical reference resolution digital printer according to claim 1, wherein: the inside of platform (21) of induced drafting is provided with the apron (22) and the conveyer belt two (43) that induced draft that quantity is no less than one, one side of platform (21) of induced drafting is provided with conveying motor (24), the inside of platform (21) of induced drafting is provided with two sets of transmission shaft (25) and passes through conveyer belt two (43) transmission is connected, the output and one of them a set of transmission shaft (25) transmission of conveying motor (24) are connected.

7. A high-speed dual physical reference resolution digital printer according to claim 1, wherein: the feeding system (3) comprises a feeding frame (31) arranged on one side of the air suction platform (21), an installation frame (32) is arranged at the top of the feeding frame (31), and at least one pressing roller (33) is arranged in the installation frame (32).

8. A high-speed dual physical reference resolution digital printer according to claim 1, wherein: receive material transition platform system (4) including setting up leading truck (41) of keeping away from pay-off frame (31) one side in induced draft platform (21), the inside of leading truck (41) is provided with conveyer belt two (43), the both sides of leading truck (41) all are provided with the protection and enclose fender (42).

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