CN216033221U - Ink-jet printing system - Google Patents

Abstract

The present application discloses an inkjet printing system. The system comprises: the host computer is provided with a ten-thousand-megabyte network card and is used for outputting the picture monochrome subdata of the picture to be printed; the industrial computers are connected with the host and provided with ten-gigabit network cards and used for receiving the monochrome subdata of the pictures and outputting regional monochrome subdata and control signals; the data distribution board is connected with the industrial computer and used for receiving the control signal and the regional single-color subdata and distributing the regional single-color subdata according to the control signal; the plurality of spray head control boards are connected with the data distribution board and used for controlling spray heads connected with the plurality of spray head control boards to execute corresponding spraying actions according to the regional single-color subdata; and the HDMI lines are respectively connected with the data distribution board and the nozzle control board and are used for transmitting the regional monochromatic subdata. The speed of printing data transmission can be improved, and variable data printing is realized.

Description

Ink-jet printing system

Technical Field

The utility model relates to the field of printing, in particular to an ink-jet printing system.

Background

At present, the inkjet printing industry is developed at a high speed, the requirements of clients on inkjet printers are higher and higher, and the printing requirements of clients on large breadth and high speed are well met by single PASS printing. In order to realize wide-width printing, enough nozzles need to be installed on an inkjet printer, and inkjet printers sold in the market at present need more than 30 nozzles for each color, more than 200 nozzles need to be installed on the whole machine, data to be printed needs to be transmitted to each nozzle when the machine prints, particularly in the label and package printing industry, pictures such as two-dimensional codes and the like which change at any time need to be printed, and if each nozzle needs 10M speed, 10M × 200, namely 2000 mega speed is needed for 200 nozzles. Therefore, how to increase the data transmission speed in the printing system is an urgent problem to be solved.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the present invention is to provide an inkjet printing system capable of increasing the speed of transmitting print data and realizing variable data printing. The specific scheme is as follows:

the application discloses ink jet printing system includes:

the host computer is provided with a ten-thousand-megabyte network card and is used for outputting the picture monochrome subdata of the picture to be printed;

the industrial computers are connected with the host and provided with ten-gigabit network cards and used for receiving the monochrome subdata of the pictures and outputting regional monochrome subdata and control signals;

the data distribution board is connected with the industrial computer and used for receiving the control signal and the regional single-color subdata and distributing the regional single-color subdata according to the control signal;

the plurality of spray head control boards are connected with the data distribution board and used for controlling spray heads connected with the plurality of spray head control boards to execute corresponding spraying actions according to the regional single-color subdata;

and the HDMI lines are respectively connected with the data distribution board and the nozzle control board and are used for transmitting the regional monochromatic subdata.

Optionally, the inkjet printing system further includes:

the switchboard is respectively connected with the host and the industrial computer and is provided with a trillion interface and used for receiving the image monochrome subdata output by the host and outputting the image monochrome subdata to the industrial computer.

Optionally, the data distribution board includes:

and the HDMI interfaces are used for outputting the regional single-color subdata.

Optionally, the nozzle control plate includes:

and the HDMI is used for receiving the regional single-color subdata.

Optionally, the inkjet printing system further includes:

and the PCIe card is respectively connected with the industrial computer and the data distribution board and is used for transmitting the regional single-color subdata.

Optionally, the data distribution board includes:

and the PCIe interface is used for receiving the regional single-color subdata.

The application provides an ink-jet printing system, which comprises a mainframe with a ten-million network card, an industrial computer with the ten-million network card, a data distribution board, a nozzle control board and an HDMI (high-definition multimedia interface) cable, wherein the mainframe with the ten-million network card is used for outputting picture monochrome subdata of a picture to be printed; the industrial computers are connected with the host and provided with ten-gigabit network cards and used for receiving the monochrome subdata of the pictures and outputting regional monochrome subdata and control signals; the data distribution board is connected with the industrial computer and used for receiving the control signal and the regional single-color subdata and distributing the regional single-color subdata according to the control signal; the plurality of spray head control boards are connected with the data distribution board and used for controlling spray heads connected with the plurality of spray head control boards to execute corresponding spraying actions according to the regional single-color subdata; and the HDMI lines are respectively connected with the data distribution board and the nozzle control board and are used for transmitting the regional monochromatic subdata.

It can be seen from the above that, data is transmitted in a one-to-one manner through the industrial computer and the data distribution board, and the data distribution board sends corresponding regional monochromatic subdata through the HDMI cable to the plurality of nozzle control boards connected to the data distribution board, so that the nozzle control boards control the nozzles connected to the nozzle control boards to perform corresponding spraying actions according to the obtained regional monochromatic subdata, thereby improving the speed of data transmission in the printing system, solving the problem of large amount of data transmission required by the printer when printing variable images, realizing the printing of variable data, and improving the anti-interference capability of the system simultaneously due to the strong anti-interference capability of the HDMI cable to the outside, and ensuring the stable operation of the system.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic block diagram of an inkjet printing system according to the present application;

FIG. 2 is a schematic diagram of an exemplary inkjet printing system according to the present disclosure.

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.

In the prior art, the data transmission speed in the printing system is low, and the variable data printing cannot be met. In order to overcome the technical problem, the application provides an inkjet printing system for printing variable data, which can improve the transmission speed of printing data and realize the printing of the variable data.

The embodiment of the application discloses an inkjet printing system, and as shown in fig. 1, the system may include:

and the host 11 is provided with a ten-thousand-megabyte network card and is used for outputting the picture monochrome subdata of the picture to be printed.

In this embodiment, the host 11 with the trillion network card contains control software, and is configured to generate image monochrome subdata of a to-be-printed image that needs to be printed by the printer, that is, image monochrome subdata corresponding to each color in the to-be-printed image, and then output the image monochrome subdata.

And a plurality of industrial computers 12 provided with ten-gigabit network cards and connected with the host 11, and configured to receive the monochrome sub-data of the picture, and output monochrome sub-data of the area and a control signal.

In this embodiment, the plurality of industrial computers 12 with ten-gigabit network cards connected to the host 11 are configured to receive the monochrome sub-data of the picture sent by the host 11, that is, each industrial computer 12 receives monochrome sub-data of a picture of one color, and different industrial computers 12 receive monochrome sub-data of pictures of different colors, and then the internal control software of the industrial computers 12 divides the monochrome sub-data of the received picture according to the area to obtain monochrome sub-data of a plurality of areas, and finally outputs the monochrome sub-data of the areas and the control signal.

In this embodiment, the inkjet printing system may further include a switch provided with ten-gigabit interfaces and respectively connected to the host 11 and the industrial computer 12, and configured to receive the monochrome sub-data of the picture output by the host 11 and output the monochrome sub-data of the picture to the industrial computer 12.

And the data distribution board 13 is connected with the industrial computer 12 and is used for receiving the control signal and the regional single-color subdata and distributing the regional single-color subdata according to the control signal.

In this embodiment, after receiving the control signal and the area monochromatic sub-data sent by the industrial computer 12, the data distribution board 13 connected to the industrial computer 12 distributes the area monochromatic sub-data, and it can be understood that the industrial computer 12 is used to control the data distribution of the data distribution board 13 of each unit.

And a plurality of nozzle control boards 14 connected to the data distribution board 13, for controlling the nozzles connected to the control board to perform corresponding spraying actions according to the regional single-color sub-data.

In this embodiment, after receiving the area monochromatic sub-data distributed by the data distribution board 13, the plurality of nozzle control boards 14 connected to the data distribution board 13 control the nozzles connected to the nozzle control boards to perform corresponding spraying actions according to the area monochromatic sub-data, that is, each nozzle control board 14 receives the area monochromatic sub-data corresponding to a certain area in a picture, and then controls the nozzles to spray and paint the corresponding area according to the area monochromatic sub-data, so as to achieve a final printing effect. That is, the head control board 14 is used to receive print data and also used to control the heads to perform printing.

The HDMI cable 15 is connected to the data distribution board 13 and the nozzle control board 14, and is configured to transmit the regional monochromatic subdata.

In this embodiment, the data distribution board 13 and the head control board 14 are connected by an HDMI cable, thereby realizing stable and high-speed data transmission.

In this embodiment, the data distribution board 13 may include: and the HDMI interfaces are used for outputting the regional single-color subdata. In this embodiment, the nozzle control plate 14 may include: and the HDMI is used for receiving the regional single-color subdata. Namely, the data distribution board 13 and the head control board 14 have HDMI interfaces, so that the data distribution board 13 and the head control board 14 realize data transmission by connecting the HDMI line 15.

In this embodiment, the inkjet printing system may further include: and the PCIe card is respectively connected with the industrial computer 12 and the data distribution board 13 and is used for transmitting the regional single-color subdata. In this embodiment, the data distribution board 13 may include: and the PCIe interface is used for receiving the regional single-color subdata. That is, the industrial computer 12 and the data distribution board 13 can perform data transmission via PCIe.

As can be seen from the above, the inkjet printing system provided in this embodiment includes a mainframe with a gigabit network card, an industrial computer with the gigabit network card, a data distribution board, a nozzle control board, and an HDMI cable, wherein the mainframe with the gigabit network card is configured to output monochrome sub-data of a picture to be printed; the industrial computers are connected with the host and provided with ten-gigabit network cards and used for receiving the monochrome subdata of the pictures and outputting regional monochrome subdata and control signals; the data distribution board is connected with the industrial computer and used for receiving the control signal and the regional single-color subdata and distributing the regional single-color subdata according to the control signal; the plurality of spray head control boards are connected with the data distribution board and used for controlling spray heads connected with the plurality of spray head control boards to execute corresponding spraying actions according to the regional single-color subdata; and the HDMI lines are respectively connected with the data distribution board and the nozzle control board and are used for transmitting the regional monochromatic subdata. In the embodiment, data are transmitted in a one-to-one mode through the industrial computer and the data distribution board, and the data distribution board sends corresponding regional monochromatic subdata to the plurality of sprayer control boards connected through the HDMI lines, so that the sprayer control boards control the sprayers connected with the sprayer control boards to execute corresponding spraying actions according to the acquired regional monochromatic subdata, therefore, the data transmission speed in the printing system is improved, 10-million printing data of each sprayer can be provided, the problem of large data transmission needed by a printer when a variable image is printed is solved, the variable data is printed, and because the HDMI lines have strong anti-interference capability to the outside, the anti-interference capability of the system is improved at the same time, and the stable operation of the system is guaranteed.

On the basis of the above-described embodiment:

referring to fig. 2, fig. 2 is a block diagram of a specific inkjet printing system according to an embodiment of the disclosure.

In fig. 2, 1 is a host with a gigabit network card in the above embodiment, 2 is a switch with a gigabit interface in the above embodiment, 30 to 3N are industrial computers with a gigabit network card in the above embodiment, 40 to 4N are PCIe cards, 50 to 5N are data lines, 60 to 6N are data distribution boards, 70 to 7N are HDMI lines, 80 to 8N are showerhead control boards, and 90 to 9N are showerheads.

The host transmits the monochrome subdata of the picture to be printed to an industrial computer through a switch, wherein the industrial computer is provided with a ten-gigabit network card, and an input port of the switch is a ten-gigabit interface. If the number of the industrial computers is 10 and the data sending speed of the host is 10Gb/s, the receiving speed of the industrial computers is 10Gb/s divided by N, namely the receiving speed of the industrial computers can reach 1 Gb/s. Furthermore, the industrial computer is provided with control software, and the corresponding regional monochromatic subdata can be sent to the data distribution board through the PCIe card according to the received monochromatic subdata of the picture sent by the host. The industrial computer and the data distribution board are connected through the PCIe card, so that no bottleneck exists in data transmission between the industrial computer and the data distribution board. And each data distribution board is provided with a PCIe interface for receiving data and a plurality of HDMI interfaces for outputting data, the number of the HDMI interfaces is determined by the number of the nozzles, and if 8 nozzles exist, the data distribution board at least comprises 8 HDMI interfaces for connecting the nozzle control board. The speed of sending the data control board to the single nozzle control board can reach 1 Gbs/8-125 Mb/s. Moreover, the HDMI has strong anti-interference capability to the outside, and can ensure that the transmission data is not interfered to the maximum extent. And the spray head control board controls the spray head to perform spraying action after receiving the data.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The present invention provides an ink jet printing system, which has been described in detail, and the principles and embodiments of the present invention have been illustrated herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (6)

1. An inkjet printing system, comprising:

the host computer is provided with a ten-thousand-megabyte network card and is used for outputting the picture monochrome subdata of the picture to be printed;

the industrial computers are connected with the host and provided with ten-gigabit network cards and used for receiving the monochrome subdata of the pictures and outputting regional monochrome subdata and control signals;

the data distribution board is connected with the industrial computer and used for receiving the control signal and the regional single-color subdata and distributing the regional single-color subdata according to the control signal;

the plurality of spray head control boards are connected with the data distribution board and used for controlling spray heads connected with the plurality of spray head control boards to execute corresponding spraying actions according to the regional single-color subdata;

and the HDMI lines are respectively connected with the data distribution board and the nozzle control board and are used for transmitting the regional monochromatic subdata.

2. The inkjet printing system of claim 1, further comprising:

the switchboard is respectively connected with the host and the industrial computer and is provided with a trillion interface and used for receiving the image monochrome subdata output by the host and outputting the image monochrome subdata to the industrial computer.

3. The inkjet printing system of claim 1, wherein the data distribution plate comprises:

and the HDMI interfaces are used for outputting the regional single-color subdata.

4. The inkjet printing system of claim 1, wherein the nozzle control board comprises:

and the HDMI is used for receiving the regional single-color subdata.

5. Inkjet printing system according to any one of claims 1 to 4, further comprising:

and the PCIe card is respectively connected with the industrial computer and the data distribution board and is used for transmitting the regional single-color subdata.

6. The inkjet printing system of claim 5, wherein the data distribution plate comprises:

and the PCIe interface is used for receiving the regional single-color subdata.

Images