CN103129132B - inkjet printing module - Google Patents

Abstract

The present invention relates to an inkjet printing module, which is suitable for a one-page wide inkjet printer. The inkjet printing module comprises: a one-page wide printing platform, which is provided with a plurality of embedded grooves arranged in an array; and a plurality of inkjet head cartridges, which are detachably and independently embedded in the plurality of embedded grooves.

Description

inkjet printing module

technical field

The invention relates to an inkjet printing module, in particular to an inkjet printing module suitable for page width inkjet printers.

Background technique

The carrying mechanism of the printing platform of a common printer can be roughly divided into two types. One is to use a conveying device to scan and move the ink cartridge arranged on the carrying mechanism along a horizontal axis, and the paper to be printed Driven by the paper feeding mechanism, it passes under the ink cartridge along a longitudinal axis, and the ink in the ink cartridge is sprayed onto the surface of the paper by the inkjet head to complete the printing operation.

Another type of printing platform has a fixed bearing mechanism, using the nozzle array of the printing platform whose width is greater than or equal to the width of the paper to be printed, to directly print the paper passing under the nozzle array. This printing mode is called page printing. For page-width array printing, several inkjet chips are installed and arranged on the bottom of the printing platform’s supporting mechanism, which can achieve certain convenience and efficiency in the printing process, but still has the following shortcomings to be improved:

1. Since several inkjet chips are installed and arranged at the bottom of the bearing mechanism of the printing platform, if one of the inkjet chips is damaged, it will affect the overall printing quality, and each inkjet chip cannot be replaced separately, and it needs to be repaired. Group printing platform to do replacement.

2. In order to deliver the ink to the ink chambers connected to the inkjet chips, the page-width printing platform needs to be equipped with a complicated ink supply channel design, which will increase the design and manufacturing costs.

3. In order to manufacture a page-wide printing platform, it is necessary to install and arrange the inkjet chips one by one at the bottom of the supporting mechanism. In this way, the installation and layout of the control circuit requires a more complicated manufacturing process, which will inevitably increase the manufacturing man-hours and manufacturing costs.

Therefore, how to develop an inkjet printing module that can improve the above-mentioned deficiencies of the known technology and solve the problem that the entire printing platform needs to be updated in the known technology is an urgent problem to be solved at present.

Contents of the invention

The main purpose of the present invention is to provide an inkjet printing module, which utilizes the modular design in which several ink cartridges are independently carried on the printing platform, so as to solve the problem that the entire set of printing platforms needs to be updated in the known technology, so that the page-wide printing platform can be Assembling, filling ink, and replacing can all achieve a more convenient way of use and have the benefit of reducing costs.

To achieve the above purpose, a broad implementation aspect of the present invention is to provide an inkjet printing module, which is suitable for a one-page wide inkjet printer. The inkjet printing module includes: a page-wide printing platform, which is provided with several embedding grooves arranged in an array; in the slot.

To achieve the above purpose, another broad implementation aspect of the present invention is to provide an inkjet printing module, which is suitable for a one-page wide inkjet printer. The inkjet printing module includes: a one-page wide printing platform, which is provided with several embedding grooves arranged in an array; several inkjet head ink cartridges are independently embedded in the several embedding grooves in a detachable manner and a plurality of control contact circuits, which are arranged on the vertical longitudinal sides of the plurality of embedding grooves of the page-wide printing platform, for transmitting signals to the ink cartridges of the inkjet heads, so as to make the page-wide printing platform The plurality of inkjet head ink cartridges on a print medium eject ink to carry out page width printing.

Description of drawings

FIG. 1 is a schematic diagram of an inkjet printing module according to a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of an inkjet printing module in another preferred embodiment of the present invention.

Fig. 3 is a schematic diagram of an inkjet printing module in another preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of an inkjet printing module in another preferred embodiment of the present invention.

FIG. 5 is a schematic diagram of an inkjet printing module in another preferred embodiment of the present invention.

FIG. 6 is a schematic diagram of an inkjet printing module in another preferred embodiment of the present invention.

Fig. 7 is a schematic diagram of an inkjet printing module in another preferred embodiment of the present invention.

Fig. 8 is a schematic diagram of an inkjet printing module in another preferred embodiment of the present invention.

FIG. 9 is a schematic diagram of an inkjet printing module in another preferred embodiment of the present invention.

[Description of main component symbols]

10: printing platform

11: Embedded groove

12: inkjet head cartridge

121: box body

122: inkjet chip

20: Print Media

P: printing direction

A, B: connection line

Detailed ways

Some typical embodiments embodying the features and advantages of the present invention will be described in detail in the description in the following paragraphs. It should be understood that the invention is capable of various changes in different respects without departing from the scope of the invention, and that the description and drawings therein are illustrative in nature and not intended to limit the invention. invention.

The invention discloses an inkjet printing module, which is suitable for a one-page wide inkjet printer, and mainly includes a one-page wide printing platform and several ink cartridges of inkjet heads, wherein the printing platform is provided with arrays of An embedding groove is used to individually carry independent inkjet head ink cartridges, so as to solve the problem of updating the entire printing platform in the known technology, and make the page-wide printing platform easier to assemble, fill ink, and replace The way of use and the benefit of reducing costs.

Please refer to FIG. 1 , which is a schematic diagram of an inkjet printing module according to a preferred embodiment of the present invention. As shown in Figure 1, the inkjet printing module has a page-wide printing platform 10, which is constructed in the vertical direction of the width of the printing medium 20 (such as paper) conveyed by the inkjet printer, and is provided with several embedding grooves arranged in an array 11, while several inkjet head ink cartridges 12 are detachably embedded in the embedding groove 11 independently, and include a cartridge body 121 for storing ink, and an inkjet chip 122 driven to eject ink , several nozzle holes (not shown) arranged on the inkjet chip, and control contacts (not shown) that receive signals to drive the inkjet chip 122. The inkjet chip 122 is arranged at the bottom of the printing platform 10 and can be controlled by Drive to eject ink on the printing medium 20 through the nozzle holes. Wherein, the nozzle holes provided on the inkjet chip 122 are arranged in at least one row, for example, at least three rows.

In addition, the inkjet printing module of the present invention also includes several control contact circuits (not shown), which are arranged on the vertical longitudinal sides of several embedding grooves 11 of the printing platform 10, and correspond to the embedded inkjet heads. The control contact of the ink cartridge 12 is used to transmit signals to the inkjet chip 122 of the inkjet head ink cartridge 12, so that several inkjet head ink cartridges 12 on the printing platform 10 can eject ink on the printing medium with a width of 20 pages. Print. Wherein, the plurality of control contact circuits can be a flexible circuit board.

Below with regard to various specific embodiments of the present invention, illustrate respectively:

Embodiment 1: 1/2 inch 1200dpi color inkjet ink cartridge

Please refer to Fig. 1, the present embodiment is that the application chip size is the 1200dpi color ink-jet ink box of 1/2 inch (such as including three kinds of monochromatic inks of red, yellow and blue), and with six groups of ink-jet head ink boxes 12 It is a row, arranged in three rows in the printing direction, a total of eighteen groups of inkjet head ink cartridges 12, wherein the arrow P indicates the printing direction. In the same row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that the positions of the upper inkjet chips 122 connect to the lower inkjet cartridges. The position of the chip 122 and the connection line are shown by the dotted line A. In the inkjet cartridges 12 of different rows, the inkjet chips 122 of the inkjet cartridges 12 of each row are the last group of inkjet chips 122 of the inkjet cartridges 12 of the previous row corresponding to the inkjet heads of the rear row. The inkjet chips 122 of the front group of the ink cartridge 12 are positioned in an array, and the connecting line is shown by the dotted line B. With the above eighteen groups of inkjet head ink cartridges 12 arranged in three rows on the printing platform 10, the maximum printable size is 9 inches, so the width of the printing medium 20 can be 8.2 inches (210mm, which is the width of A4 paper) multi-color 1200dpi page-wide print jobs. To take the implementation of supplementary dot printing, one of the ways is to configure the printing platform 10 in the printing direction with one area and the same eighteen groups of inkjet head ink cartridges 12 to achieve (that is, the printing platform 10 is configured in two areas in the printing direction Eighteen groups of inkjet head cartridges 12).

Embodiment 2: 1/2 inch 600dpi black inkjet head

Please continue to refer to FIG. 1, the present embodiment is a 600dpi black inkjet head ink cartridge with a chip size of 1/2 inch, and six groups of inkjet head ink cartridges 12 are arranged in three rows in the printing direction , a total of eighteen groups of inkjet head cartridges 12, where the arrow P refers to the printing direction. In the same row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that the positions of the upper inkjet chips 122 connect to the lower inkjet cartridges. The position of the chip 122 and the connection line are shown by the dotted line A. In the inkjet cartridges 12 of different rows, the inkjet chips 122 of the inkjet cartridges 12 of each row are the last group of inkjet chips 122 of the inkjet cartridges 12 of the previous row corresponding to the inkjet heads of the rear row. The inkjet chips 122 of the front group of the ink cartridge 12 are positioned in an array, and the connecting line is shown by the dotted line B. With the above eighteen groups of inkjet head ink cartridges 12 arranged in three rows on the printing platform 10, the maximum printable size is 9 inches, so the width of the printing medium 20 can be 8.2 inches (210mm, which is the width of A4 paper) monochrome 600dpi page-wide print jobs. To take the implementation of supplementary dot printing, one of the ways is to configure the printing platform 10 in the printing direction with one area and the same eighteen groups of inkjet head ink cartridges 12 to achieve (that is, the printing platform 10 is configured in two areas in the printing direction Eighteen groups of inkjet head cartridges 12).

Embodiment 3: 1/2 inch 1200dpi color inkjet head

Please refer to Fig. 2, the present embodiment is that the application chip size is the 1200dpi color ink-jet ink box of 1/2 inch (for example comprising red, yellow, blue three kinds of monochromatic inks), and with six groups of ink-jet head ink boxes 12 It is a row, arranged in four rows in the printing direction, a total of twenty-four sets of inkjet head ink cartridges 12, wherein the arrow P refers to the printing direction. In the same row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that the positions of the upper inkjet chips 122 connect to the lower inkjet cartridges. The position of the chip 122 and the connection line are shown by the dotted line A. In the inkjet cartridges 12 of different rows, the inkjet chips 122 of the inkjet cartridges 12 of each row are the last group of inkjet chips 122 of the inkjet cartridges 12 of the previous row corresponding to the inkjet heads of the rear row. The inkjet chips 122 of the front group of the ink cartridge 12 are positioned in an array, and the connecting line is shown by the dotted line B. With the above-mentioned twenty-four groups of inkjet head cartridges 12 arranged in four rows on the printing platform 10, the maximum printable size is 12 inches, so the width of the printing medium 20 can be 11.7 inches (297mm, which is the width of A3 paper. ) of multicolor 1200dpi page-wide print jobs. To take the implementation of supplementary dot printing, one of the ways is to reconfigure the printing platform 10 in the printing direction to achieve the same twenty-four groups of inkjet head ink cartridges 12 (that is, the printing platform 10 is arranged in the printing direction with two Area twenty-four groups of inkjet head cartridges 12).

Embodiment 4: 1/2 inch 600dpi color inkjet head

Please refer to Fig. 3, the present embodiment is that the application chip size is the 600dpi color ink-jet ink box of 1/2 inch (such as including three kinds of monochromatic inks of red, yellow and blue), and with five groups of ink-jet head ink boxes 12 It is a row, arranged in three rows in the printing direction, a total of fifteen sets of inkjet head ink cartridges 12, wherein the arrow P refers to the printing direction. In the same row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that the corresponding positions of the upper inkjet chips 122 connect to the lower inkjet cartridges. The position of the chip 122 and the connection line are shown by the dotted line A. In the inkjet cartridges 12 of different rows, the inkjet chips 122 of the inkjet cartridges 12 of each row are the last group of inkjet chips 122 of the inkjet cartridges 12 of the previous row corresponding to the inkjet heads of the rear row. The inkjet chips 122 of the front group of the ink cartridge 12 are positioned in an array, and the connecting line is shown by the dotted line B. With the above-mentioned fifteen sets of inkjet head ink cartridges 12 arranged in two rows on the printing platform 10 , a multi-color 600dpi page width printing job with a width of the printing medium 20 of 7.5 inches (191 mm) can be achieved. To take the implementation of supplementary dot printing, one of the ways is to reconfigure the printing platform 10 in the printing direction to achieve the same fifteen groups of inkjet head ink cartridges 12 (that is, the printing platform 10 is configured in two areas in the printing direction Fifteen sets of inkjet head cartridges 12).

Of course, if the inkjet head ink cartridge 12 (for example, the inkjet head ink cartridge 12 in the upper right corner of FIG. 3 ) in the last row is removed, a multi-color 600dpi page with a print medium 20 width of 7 inches (178mm) can be achieved. wide print jobs.

Embodiment 5: 1/2 inch 600dpi black inkjet head

Please refer to Fig. 4, the present embodiment is the 600dpi black ink-jet head ink box that the application chip size is 1/2 inch, and with six groups of ink-jet head ink boxes 12 as a row, arranged in two rows in the printing direction, There are twelve sets of inkjet head cartridges 12 in total, where the arrow P refers to the printing direction. In the same row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that the corresponding positions of the upper inkjet chips 122 connect to the lower inkjet cartridges. The position of the chip 122 and the connecting line are shown by the dotted line A. In the inkjet cartridges 12 of different rows, the inkjet chips 122 of the inkjet cartridges 12 of each row are the last group of inkjet chips 122 of the inkjet cartridges 12 of the previous row corresponding to the inkjet heads of the rear row. The inkjet chips 122 in the front group of the ink cartridge 12 are positioned in an array, and the connecting line is shown by the dotted line B. With the above-mentioned twelve groups of inkjet head ink cartridges 12 arranged in two rows on the printing platform 10, a monochrome 600dpi page width printing job with a printing medium 20 width of 6 inches (152mm) can be achieved. To take the implementation of supplementary dot printing, one of the ways is to reconfigure the printing platform 10 in the printing direction to achieve the same twelve groups of inkjet head ink cartridges 12 (that is, the printing platform 10 is configured in two regions in the printing direction Twelve groups of inkjet head cartridges 12).

Embodiment 6: 1/2 inch 600dpi black inkjet head

Please refer to Fig. 5, the present embodiment is the 600dpi black ink-jet head ink cartridge with chip size of 1/2 inch, and five groups of ink-jet head ink cartridges 12 are arranged in two rows in the printing direction. There are ten sets of inkjet head cartridges 12 in total, where the arrow P refers to the printing direction. In the same row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that the corresponding positions of the upper inkjet chips 122 connect to the lower inkjet cartridges. The position of the chip 122 and the connection line are shown by the dotted line A. In the inkjet cartridges 12 of different rows, the inkjet chips 122 of the inkjet cartridges 12 of each row are the last group of inkjet chips 122 of the inkjet cartridges 12 of the previous row corresponding to the inkjet heads of the rear row. The inkjet chips 122 of the front group of the ink cartridge 12 are positioned in an array, and the connecting line is shown by the dotted line B. The above ten groups of inkjet head ink cartridges 12 are arranged in two rows on the printing platform 10 , and a monochrome 600dpi page width printing job with a width of the printing medium 20 of 5 inches (127mm) can be achieved. To take the implementation of supplementary dot printing, one of the ways is to configure the printing platform 10 in the printing direction with another ten groups of inkjet head ink cartridges 12 to achieve (that is, the printing platform 10 is configured in two districts and ten in the printing direction. group inkjet head ink cartridge 12).

Embodiment 7: 1/4 inch 600dpi color inkjet head

Please refer to Fig. 6, the present embodiment is that the application chip size is the 600dpi color ink-jet head ink box (for example comprising three kinds of monochromatic inks of red, yellow and blue) of 1/4 inch, and with eight groups of ink-jet head ink boxes 12 It is a row, arranged in two rows in the printing direction, a total of 16 sets of inkjet head ink cartridges 12, wherein the arrow P indicates the printing direction. In the same row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that the corresponding positions of the upper inkjet chips 122 connect to the lower inkjet cartridges. The position of the chip 122 and the connection line are shown by the dotted line A. In the inkjet cartridges 12 of different rows, the inkjet chips 122 of the inkjet cartridges 12 of each row are the last group of inkjet chips 122 of the inkjet cartridges 12 of the previous row corresponding to the inkjet heads of the rear row. The inkjet chips 122 of the front group of the ink cartridge 12 are positioned in an array, and the connecting line is shown by the dotted line B. The sixteen sets of inkjet head ink cartridges 12 are arranged in two rows on the printing platform 10 to achieve a multi-color 600dpi page width printing job with a printing medium 20 width of 4 inches (102 mm). To take the implementation of supplementary dot printing, one of the ways is to reconfigure the printing platform 10 in the printing direction to achieve the same sixteen groups of inkjet head ink cartridges 12 (that is, the printing platform 10 is configured in two regions in the printing direction Sixteen groups of inkjet head cartridges 12).

Embodiment 8: 1/6 inch 300dpi black inkjet head

Please refer to Fig. 7, the present embodiment is that the application chip size is 300dpi black ink-jet head ink box of 1/6 inch, and be single-row configuration with twelve groups of ink-jet head ink box 12 on printing direction, wherein arrow P indicates print direction. In this row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that their positions correspond to each other, that is, the position of the upper inkjet chip 122 connects to the position of the lower inkjet chip. 122 position, the connecting line is shown as dotted line A. With the above-mentioned twelve groups of inkjet head ink cartridges 12 arranged in a row on the printing platform 10, the printing medium 20 width can be achieved with a monochrome 300dpi page width printing operation of 2 inches (51mm). Therefore, the inkjet head of the present invention The ink cartridges 12 can also be arranged in a single row. To take the implementation of supplementary dot printing, one of the ways is to reconfigure the printing platform 10 in the printing direction to achieve the same twelve groups of inkjet head ink cartridges 12 (that is, the printing platform 10 is configured in two areas in the printing direction Twelve groups of inkjet head cartridges 12).

Embodiment 9: 1/2 inch 300dpi black inkjet head

Please refer to Fig. 8, the present embodiment is the 300dpi black ink-jet head ink cartridge that the application chip size is 1/2 inch, and is single-row configuration with four groups of ink-jet head ink cartridges 12 on the printing direction, wherein arrow P refers to printing direction. In this row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that their positions correspond to each other, that is, the position of the upper inkjet chip 122 connects to the position of the lower inkjet chip. 122 position, the connecting line is shown as dotted line A. With the above-mentioned four groups of inkjet head ink cartridges 12 arranged in a row on the printing platform 10, the printing medium 20 width can be achieved with a monochrome 300dpi page width printing operation of 2 inches (51mm), so the inkjet head ink of the present invention Cassettes 12 may also be arranged in a single row. To take the implementation of supplementary dot printing, one of the ways is to reconfigure the printing platform 10 in the printing direction with the same four groups of inkjet head ink cartridges 12 to achieve (that is, the printing platform 10 is configured in the printing direction with two districts and four group inkjet head ink cartridge 12).

Embodiment 10: 1/4 inch 300dpi black inkjet head

Please refer to Fig. 9, the present embodiment is that the application chip size is the 300dpi black ink-jet head ink cartridge of 1/4 inch, and is single-row configuration with four groups of ink-jet head ink cartridges 12 on the printing direction, wherein arrow P refers to printing direction. In this row of inkjet head ink cartridges 12, the inkjet chips 122 of each adjacent inkjet head ink cartridge 12 are arranged in such a way that their positions correspond to each other, that is, the position of the upper inkjet chip 122 connects to the position of the lower inkjet chip. 122 position, the connecting line is shown as dotted line A. With the above-mentioned four groups of inkjet head ink cartridges 12 arranged in a row on the printing platform 10, it is possible to achieve a monochrome 300dpi page width printing operation with a print medium 20 width of 1 inch (25mm), so the inkjet head ink of the present invention Cassettes 12 may also be arranged in a single row. To take the implementation of supplementary dot printing, one of the ways is to reconfigure the printing platform 10 in the printing direction with the same four groups of inkjet head ink cartridges 12 to achieve (that is, the printing platform 10 is configured in the printing direction with two districts and four group inkjet head ink cartridge 12).

Of course, the size of the inkjet chip used in the inkjet printing module of the present invention is not limited to the above-mentioned 1/6 inch, 1/4 inch and 1/2 inch, and larger 1 inch, 2 inch, 3 inch or For the above inkjet chip, the calculation of the chip size essentially refers to the distance from the first nozzle hole to the last nozzle hole on the chip, that is, the distance between the nozzle holes closest to the two opposite sides, and because the distance between the nozzle holes closest to The nozzle holes on two opposite sides are quite close to the side of the chip, so the distance between them is also roughly equal to the length of the chip. In addition, the resolution of the inkjet chip can also be adjusted according to printing requirements. In addition to the above-mentioned 300dpi, 600dpi and 1200dpi, of course, an inkjet chip with a resolution of 2400dpi or above can also be used.

It can be seen from the description of the above embodiments that the inkjet printing module provided by the present invention is applied to a page-wide printing platform, as long as several embedding grooves arranged in an array are arranged on the printing platform to carry independent inkjet head ink cartridges, The inkjet chip arranged at the bottom of the printing platform is driven to spray ink on the printing medium to achieve a page width printing, and this printing platform with inkjet printing module can be printed according to the size of the pre-printed medium , adjust the number and arrangement width of the disassembled inkjet head ink cartridges to meet the page width of the printing medium, complete the required page width printing job, and directly disassemble the inkjet head ink cartridges and replace them according to the printing requirements of different resolutions Replace the inkjet head ink cartridge with the required resolution, so the printing quality can be improved. Of course, each independent inkjet head ink cartridge of the present invention can also be externally connected with a continuous ink supply pipeline to achieve continuous ink supply printing operations.

Also, the inkjet printing module of the present invention is composed of several inkjet head cartridges containing inkjet chips that are independently embedded in the printing platform, without additionally designing complicated ink supply flow channels for ink supply, and whether it is inkjet The ink in the head ink cartridge is used up or the inkjet chip is faulty, and the inkjet head ink cartridge that is exhausted or malfunctioning can be directly replaced, and each independent inkjet head ink cartridge can be carried on a known common The positioning and setting method of the bearing seat uses the embedding groove on the printing platform to carry the load, and arranges the layout of the control contacts on a longitudinal vertical surface of the embedding groove. Instead, there is an extra two-dimensional direction to arrange the control contacts, which is relatively The available wiring area of the control circuit is increased, so that the arrangement and layout of the control circuit do not require complicated procedures, and the production work procedure can be simplified.

To sum up, the inkjet printing module provided by the present invention utilizes a modular design in which several inkjet head ink cartridges are independently carried on a printing platform, so as to solve the problem that the entire set of printing platforms needs to be updated in the known technology, making the page width The printing platform can be assembled, filled with ink, and replaced more conveniently and cost-effectively, and the number of inkjet cartridges required for disassembly and configuration can be adjusted according to different page widths and resolutions required. And arrangement width, to complete the required page width printing job, so it has great industrial application value.

Although the present invention has been described in detail by the above embodiments, various modifications can be made by those skilled in the art without departing from the scope of protection defined by the appended claims.

Claims (16)

1. an ink jet printing module, it is applicable to a page width ink-jet table printing machine, and this ink jet printing module comprises:

One page width print platform, what it was provided with several arrayed sets groove; And

Several ink gun ink casket, independently being embedded at separately this removably severally sets in groove, this ink gun ink casket comprises the casket body of a storage ink, one by the ink-jet chip driving ejection ink, be arranged on the several spray orifices on this ink-jet chip, and Received signal strength drives the control contact of this ink-jet chip, this ink-jet chip is configured at the bottom of this page width print platform, can be driven and be sprayed ink in a print media via this several spray orifice, this several ink gun ink casket is arranged to be set to Zhi Shao ー and is arranged on Print direction, and with in this ink gun ink casket of row, this ink-jet chip of each this adjacent ink gun ink casket is for being arranged in the mode of position correspondence linking each other.

2. ink jet printing module as claimed in claim 1, wherein in this ink gun ink casket of difference row, this ink-jet chip of this ink gun ink casket of each row is that the mode of the most front group of ink-jet chip position of this ink gun ink casket of row after being connected with last group of ink-jet chip position correspondence of this ink gun ink casket at front row is for being arranged.

3. ink jet printing module as claimed in claim 1, this several spray orifice be wherein arranged on this ink-jet chip is arranged as at least 1 row.

4. ink jet printing module as claimed in claim 1, this several spray orifice be wherein arranged on this ink-jet chip is arranged as at least 3 rows.

5. ink jet printing module as claimed in claim 1, wherein this casket body of this ink gun ink casket at least storage bag containing a kind of mono ink.

6. ink jet printing module as claimed in claim 1, wherein this casket body of this ink gun ink casket at least storage bag containing three kinds of mono ink.

7. ink jet printing module as claimed in claim 1, wherein this ink jet printing module spray printing is 8.2 inch in the page width print range of this print media, i.e. A4 size.

8. ink jet printing module as claimed in claim 1, wherein this ink jet printing module spray printing is 11.7 inch in the page width print range of this print media, i.e. A3 size.

9. ink jet printing module as claimed in claim 1, wherein this ink jet printing module spray printing in the page width print range of this print media be 1 inch.

10. ink jet printing module as claimed in claim 1, wherein this ink jet printing module spray printing in the page width print range of this print media be 2 inch.

11. ink jet printing modules as claimed in claim 1, wherein this ink jet printing module spray printing in the page width print range of this print media be 4 inch.

12. ink jet printing modules as claimed in claim 1, wherein this ink jet printing module spray printing in the page width print range of this print media be 6 inch.

13. ink jet printing modules as claimed in claim 1, wherein this ink jet printing module spray printing in the page width print range of this print media be 7 inch.

14. ink jet printing modules as claimed in claim 1, wherein each this ink gun ink casket the transfer pipeline of an external continuous ink feeding can reach continuous ink feeding print job.

15. 1 kinds of ink jet printing modules, it is applicable to a page width ink-jet table printing machine, and this ink jet printing module comprises:

One page width print platform, what it was provided with several arrayed sets groove;

Several ink gun ink casket, independently being embedded at separately this removably severally sets in groove, this several ink gun ink casket is arranged to be set to Zhi Shao ー and is arranged on Print direction, and with in this ink gun ink casket of row, this ink gun ink casket comprises the casket body of a storage ink, one by the ink-jet chip driving ejection ink, be arranged on the several spray orifices on this ink-jet chip, and Received signal strength drives the control contact of this ink-jet chip, this ink-jet chip is configured at the bottom of this page width print platform, can be driven and be sprayed ink in a print media via this several spray orifice, this ink-jet chip of each this adjacent ink gun ink casket is for being arranged in the mode of position correspondence linking each other, and

Several control contact circuit, it is configured at, and this of this page width print platform is several sets on vertical longitudinal side of groove, give this several ink gun ink casket for signal transmission, impel this several ink gun ink casket on this page width print platform to spray ink on a print media page width and carry out page width printing.

16. ink jet printing modules as claimed in claim 15, wherein this several control contact circuit is a flexible circuit board.