KR100576232B1 - Ink-jet print head - Google Patents

Abstract

The present invention relates to a bubblejet inkjet print head. An inkjet print head according to the present invention includes a substrate provided with an ink supply groove along a length direction; A nozzle plate provided with a plurality of nozzles spaced apart from the upper portion of the substrate; A pattern disposed between the substrate and the nozzle plate, the feed groove being formed along the ink supply groove to accommodate ink flowing from the ink supply groove, and a plurality of chambers provided below the nozzles, respectively; An intermediate layer formed; And partitioning the feed groove into a plurality of regions so that each divided region communicates with at least one of the plurality of chambers. This prevents crosstalk occurring between adjacent chambers when ejecting ink through the nozzle. In addition, the partition plate supports the nozzle plate disposed above the feed groove, whereby the nozzle plate is more firmly supported.

Description

Inkjet Printheads {INK-JET PRINT HEAD}

1 is a cross-sectional view of a conventional inkjet print head,

2 is a partial perspective view of a conventional inkjet print head,

3 is a cross-sectional view taken along line III-III of FIG. 1,

4 is an exploded perspective view of the inkjet printhead according to the first embodiment of the present invention,

5 is a cross-sectional view of the inkjet print head according to the first embodiment of the present invention,

6 is a perspective view of an intermediate layer of the inkjet print head according to the second embodiment of the present invention;

7 is a perspective view of an intermediate layer of the inkjet printhead according to the third embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: substrate 12: ink supply groove

20: nozzle plate 22: nozzle

30: intermediate layer 32: feed home

34 chamber 40 partition layer

50: heater 60: wiring pattern

70: pad part

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inkjet printhead, and more particularly, to an inkjet printhead having a structure that prevents cross talk occurring between adjacent chambers when ejecting ink.

In general, the ink ejection method of an inkjet printer is an electro-thermal transducer (hereinafter, referred to as a "bubble jet method") that generates bubbles (bubbles) in the ink by using a heat source and ejects the ink with this force. And an electro-mechanical transducer for ejecting ink by volume change of ink caused by deformation of the piezoelectric body using a piezoelectric body.

1 and 2 illustrate an inkjet printhead employing a bubblejet method disclosed in US Pat. No. 4,882,595. As shown in the figure, a chamber 134 is formed on the substrate 110 to provide a space in which the rectangular heater 50 is located, and an ink passage 136 for inducing ink to the chamber 134 is formed. The intermediate layer 130 is provided, and a nozzle plate 120 having a nozzle 122 corresponding to the chamber 134 is provided on the intermediate layer 130. Ink is filled in the chamber 134 through the ink passage 136.

The chamber 134 is formed in two rows along the longitudinal direction of the substrate 110, and correspondingly, the ink flow passage 136 and the nozzle 122 are also formed in two rows. A feed groove 132 is formed along the longitudinal direction of the substrate 110 between the chambers 134 arranged in two rows, and ink flowing from an ink cartridge (not shown) is accommodated. In addition, the substrate 110 has an ink supply groove 112 formed along the feed groove 132 to communicate between the feed groove 132 and the ink cartridge, and is formed in the ink cartridge through the ink supply groove 112. The stored ink flows into the feed groove 132.

Here, reference numeral 160 of FIGS. 1 to 3 is a wiring pattern for applying power to the heater, and 170 is a pad part that contacts an FPC (Flexible Printed Circuit) (not shown).

By the way, in the conventional inkjet printhead structure, as shown in FIG. 3, the ink flow passage 136 corresponding to each chamber 134 is commonly communicated with the feed groove 132, so that the specific chamber 134 When the heater 50 provided in the heating) is heated to generate bubbles, there is a problem in that cross talk affecting the adjacent nozzles 122 is generated by the pressure of the bubbles.

In addition, the nozzle plate 120 positioned on the upper portion of the feed groove 132 does not have a structure for supporting it, and thus has a structure floating on the upper portion of the feed groove 132. .

Accordingly, it is an object of the present invention to provide an ink jet print head in which cross talk occurring between adjacent chambers during ejection of ink is prevented and the nozzle plate is more firmly supported.

According to the present invention, the object is provided with an ink supply groove along the longitudinal direction; A nozzle plate provided with a plurality of nozzles spaced apart from the upper portion of the substrate; A pattern disposed between the substrate and the nozzle plate, the feed groove being formed along the ink supply groove to accommodate ink flowing from the ink supply groove, and a plurality of chambers provided below the nozzles, respectively; An intermediate layer formed; And a partition layer which partitions the feed groove into a plurality of areas so that each partitioned area communicates with at least one of the plurality of chambers.

Here, the thickness of the partition layer is preferably provided to be the same as the thickness of the intermediate layer.

In addition, the partition layer is preferably provided with a pattern formed so that the intermediate layer partitions the feed groove into a plurality of regions.

The plurality of nozzles of the nozzle plate may be provided in two rows along the longitudinal direction of the substrate, and the partition layer may be formed along the longitudinal direction of the substrate to partition the feed grooves on both sides of the nozzle plate. Feed grooves may be in communication with the chambers corresponding to the nozzles divided into two rows, respectively.

In addition, the partition layer may divide the feed groove into a plurality of areas in the longitudinal direction of the substrate so that each partitioned area may communicate with at least one of the chambers.

The partition layer may partition the feed hole into a plurality of regions each communicating with the plurality of chambers.

The nozzle plate and the intermediate layer may be provided as one member integrally formed.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail, and the same reference numerals are used for the same configuration, even if the embodiment is different, the description thereof will be omitted.

As shown in FIG. 4, an inkjet printhead (hereinafter referred to as a “head”) according to the first embodiment of the present invention includes a substrate 10 having an ink supply groove 12 along a longitudinal direction, and a substrate. A nozzle plate 20 provided with a plurality of nozzles 22 spaced apart from the upper portion 10, and disposed between the substrate 10 and the nozzle plate 20, the feed groove 32 and the plurality of chambers 34 ) Is formed to include a patterned intermediate layer 30. In addition, the head according to the present invention includes a partition layer 40 which partitions the feed groove 32 into a plurality of regions so that each partitioned region communicates with at least one of the plurality of chambers 34.

An approximately square ink supply groove 12 is formed in a substantially central region of the substrate 10 along the longitudinal direction. The ink supply groove 12 provided in the substrate 10 forms a passage through which ink stored in an ink cartridge (not shown) disposed under the substrate 10 flows into the feed groove 32 formed by the intermediate layer 30. In addition, the surface of the substrate 10 has a plurality of heaters 50 on both sides of the ink supply groove 12, a wiring pattern 60 connecting the heaters 50, and an FPC (Flexible Printed Circuit) (not shown). The pad part 70 which contacts with is provided.

The nozzle 22 provided in the nozzle 22 layer is a passage through which ink contained in the chamber 34 formed by the intermediate layer 30 is discharged, and is provided at a position corresponding to each chamber 34 and the heater 50. . The nozzles 22 are provided in two rows along the longitudinal direction of the substrate 10 on both sides of the feed groove 32 with the feed groove 32 formed by the intermediate layer 30 as a boundary.

The intermediate layer 30 has a substantially thin rectangular parallelepiped shape, and a space for forming the feed groove 32 and the plurality of chambers 34 is formed by a pattern formed through the plate surface. Here, the chamber 34 is formed to accommodate the heaters 50 respectively corresponding to the heaters 50 provided on the substrate 10, and receives ink from the feed grooves 32.

 The partition layer 40 partitions the feed groove 32 into a plurality of areas so that each partitioned area communicates with the at least one chamber 34, thereby spatially separating the chambers 34 from each other. As a result, cross talk between the chambers 34 generated by the common use of the feed grooves 32 can be prevented. Hereinafter, the partition layer 40 according to the present invention is provided by a pattern formed in the intermediate layer 30, that is, the partition layer 40 is described as an example that is provided integrally with the intermediate layer 30 do.

Partition layer 40 according to the first embodiment of the present invention, as shown in Figure 4 and 5, is formed along the longitudinal direction of the substrate 10 to partition the feed groove 32 to both sides, both sides The feed groove 32 is divided into communication with the chamber 34 corresponding to the nozzles 22 divided into two rows, respectively. That is, both feed grooves 32 partitioned on both sides are in communication with the chamber 34 corresponding to the nozzles 22 divided into two rows, respectively. In more detail, if the chamber 34 provided on the left side of the feed groove 32 is defined as the left chamber 34 and the chamber 34 provided on the right is arbitrarily defined as the right chamber 34, the substrate Partition layer 40 formed along the longitudinal direction of 10 divides the feed groove 32 into the left and right regions, the left region of the feed groove 32 is shared by the left chamber 34, the feed groove The right region of 32 is shared by the right chamber 34.

6 is a perspective view of the partition layer 40a of the head according to the second embodiment of the present invention. As shown in the figure, the partition layer 40a of the head according to the second embodiment of the present invention may be provided to partition the feed groove 32 into a plurality of regions in the longitudinal direction of the substrate 10. That is, a plurality of boundary walls formed along the transverse direction of the substrate 10 are formed along the longitudinal direction of the substrate 10 to divide the feed holes into a plurality of regions along the longitudinal direction of the substrate 10. Thereby, crosstalk between the adjacent chamber 34 along the longitudinal direction of the board | substrate 10 among the some chamber 34 can be prevented effectively.

7 is a perspective view of the partition layer 40b of the head according to the third embodiment of the present invention. As shown in the figure, the partition layer 40b of the head according to the third embodiment of the present invention is provided so as to partition the feed groove 32 into a plurality of regions respectively communicating with the plurality of chambers 34. That is, the partition layer 40b partitions the feed grooves 32 into a plurality of areas by the number of chambers 34 corresponding to the chambers 34 arranged in two rows on both sides of the feed grooves 32. As a result, the specific chamber 34 is isolated from all of the other chambers 34 adjacent to the horizontal and vertical directions of the substrate 10, thereby effectively preventing cross talk between the adjacent chambers 34.

On the other hand, the intermediate layer 30 of the inkjet printhead according to the embodiments of the present invention communicates the feed groove 32 and each chamber 34 so that the ink contained in the feed groove 32 flows into each chamber 34. Of course, it can be provided so that the ink flow path to function as a passage to be formed.

In the above-described embodiment, the partition layers 40, 40a, and 40b have been described as an example of being integrally formed with the intermediate layer 30, but the feed groove 32 is formed by forming a boundary wall protruding from the plate surface of the substrate 10. Of course it can be provided to partition the into a plurality of areas. In this case, it is possible to more effectively support the nozzle plate 20 disposed above the feed groove 32.

In addition, in the above-described embodiment, as shown in FIG. 5, the thickness of the partition layer 40 is approximately equal to the thickness of the intermediate layer 30, but the partition layer 40 is formed on the substrate 10. The ink supply groove 12 may also be provided with a thickness and a structure that can be divided into a plurality of regions. In this case, a flow path corresponding to each chamber 34 is formed from the ink supply groove 12 provided in the substrate 10, so that cross talk between the chambers 34 can be more effectively prevented.

In addition, in the above-described embodiment, the two members each form a nozzle plate and an intermediate layer, but one member, that is, the nozzle plate and the intermediate layer are provided as one member integrally formed with a nozzle to one integrally formed member. Of course, the pattern may be formed so that the feed groove, the chamber and the like are formed.

As such, the substrate 10 having the ink supply grooves 12 along the longitudinal direction, the nozzle plate 20 provided with the plurality of nozzles 22 arranged on the substrate 10, and the substrate 10 spaced apart from each other. ) And the medial layer 30 patterned so that the feed groove 32 and the plurality of chambers 34 are formed between the nozzle plate 20 and the nozzle plate 20, and the feed groove 32 is divided into a plurality of regions. By providing partition layers 40, 40a, 40b in which the area is in communication with at least one of the plurality of chambers 34, crosstalk generated between adjacent chambers 34 during ejection of ink through the nozzles 22 is provided. Will be prevented.

In addition, the partition plates 40, 40a, 40b support the nozzle plate 20 disposed above the feed groove 32, so that the nozzle plate 20 is more firmly supported.

As described above, according to the present invention, there is provided an inkjet print head which prevents cross talk occurring between adjacent chambers during ejection of ink, and wherein the nozzle plate is more firmly supported.

Claims (7)

A substrate provided with an ink supply groove along the longitudinal direction; A nozzle plate provided with a plurality of nozzles spaced apart from the upper portion of the substrate; A pattern disposed between the substrate and the nozzle plate, the feed groove being formed along the ink supply groove to accommodate ink flowing from the ink supply groove, and a plurality of chambers provided below the nozzles, respectively; An intermediate layer formed; And a partition layer partitioning the feed groove into a plurality of regions so that each partitioned region communicates with at least one of the plurality of chambers. The method of claim 1, And the thickness of the partition layer is equal to the thickness of the intermediate layer. The method of claim 2, The partition layer is an inkjet print head, characterized in that the intermediate layer is provided with a pattern formed to partition the feed groove into a plurality of areas. The method of claim 1, The plurality of nozzles of the nozzle plate are provided in two rows along the longitudinal direction of the substrate, The partition layer is formed along the longitudinal direction of the substrate so as to partition the feed grooves on both sides, so that the feed grooves partitioned on both sides communicate with the chambers corresponding to the nozzles divided into two rows, respectively. Inkjet print head. The method of claim 1, And the partition layer partitions the feed groove into a plurality of regions in the longitudinal direction of the substrate so that each partitioned region communicates with at least one of the chambers. The method of claim 1, And the partition layer partitions the feed hole into a plurality of regions each communicating with the plurality of chambers. The method of claim 1, And the nozzle plate and the intermediate layer are provided as one member integrally formed with each other.

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