JP2593469B2 - Ink jet head - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink jet head that prints characters and the like by applying pressure to a liquid ink and causing the ink to fly and adhere to a recording material.

[Conventional technology]

2. Description of the Related Art As a conventional ink jet head, for example, there is one as shown in FIG.

That is, in FIG. 2, reference numeral 1 indicates a substrate,
A frame-shaped spacer 2 is provided on the surface of the substantially rectangular substrate 1.
And the closing plate 3 are sequentially stacked and mounted, and a space 4 is formed between the closing plate 3 and the surface of the substrate 1. And this space 4
Inside each component are installed. That is, a plurality of partitions 5, 5,... Formed of a photosensitive material or the like in the form of a block having the same thickness as the spacer 2 are arranged in a fixed row at an appropriate interval. A plurality (four in this embodiment) of ink chambers 6, 6,... Are formed between the partition walls 5, 5,. These ink chambers 6, 6,... Communicate with the surrounding common ink chamber 7. The common ink chamber 7 has one ink supply port 8 formed in the substrate and having a substantially circular cross section.
It is formed so that ink is supplied from an ink storage unit (not shown). Further, on the substrate 1 in each ink chamber 6, an ink discharge pressure generating element 9 is provided. These ink ejection pressure generating elements 9, 9 ...
Are electrodes formed by printed wiring or the like on the substrate 1
10 and the electrode 10 extends to the outside.
Then, nozzle holes 11 are formed in the closing plate 3 in a line in a row facing the ink ejection pressure generating element 9 in each ink chamber 6.

Since the conventional ink jet head is as described above, the ink in the ink storage unit is supplied to the common ink chamber 7 and the ink chambers 6, 6,. Then, when electricity is supplied to the ink discharge pressure generating element 9 selected according to the print command via the electrode 10, the ink in the ink chamber 6 receives pressure by the ink discharge pressure generating element 9 and is discharged from the nozzle hole 11. The characters are printed on the recording material.

[Problems to be solved by the invention]

However, in the conventional ink jet head, as shown in FIG. 2, a plurality of ink chambers 6, 6,... Are arranged in parallel, and one circular ink supply port 8 having a small diameter is provided. Therefore, the distance between the ink supply port 8 and each ink chamber 6 is considerably different from each other. Therefore, in the case of high-speed printing in which high responsiveness of ink supply is required, if ink is to be ejected from more nozzle holes 11, 11,. There is a problem that the supply of the ink amount is smaller than that of the ink supply port 11 and the ink is not stably ejected from the nozzle hole 11 far from the ink supply port 8 and the print quality may be deteriorated.

The present invention has been made in view of these points, and even in the case of high-speed printing, it is possible to supply a sufficient amount of ink to each of all the nozzle holes so as to be sufficiently in time for the printing speed. An object of the present invention is to provide an ink jet head which can perform high quality printing, is easy to manufacture, and has low cost.

[Means for solving the problem]

The inkjet head of the present invention forms a space inside by sequentially laminating a spacer and a closing plate in which a plurality of nozzle holes for discharging ink are arranged in a row on the surface of the substrate, and forms a space inside the space. In an ink jet head having a plurality of ink chambers each communicating with a nozzle hole and a common ink chamber communicating these ink chambers, and an ink supply port for supplying ink to the common ink chamber is formed. The ink supply port is formed by cutting out a part of the spacer so as to be horizontally long in parallel with the arrangement direction of the nozzle holes so that the shortest distance from each of the nozzle holes is equal.

(Operation)

Since the ink jet head of the present invention is as described above, the shortest distance between the ink supply port and each nozzle hole is respectively equal, so that the ink supplied from the ink supply port is supplied to each nozzle at the same flow rate. Even during high-speed printing, ink can be stably ejected from all the nozzle holes under the same conditions, and high-quality printing is performed.
Further, since the ink supply port is formed by cutting out a part of the spacer, the production is easy and the cost is low.

〔Example〕

 Hereinafter, an embodiment of the present invention will be described with reference to FIG.

FIG. 1 shows an embodiment of the present invention.

In this embodiment, a conventional circular ink supply port 8 is used.
Is formed in the substrate 1 instead of being formed in the substrate 1 by cutting out portions of the spacer 2 along the direction in which the ink chambers 6, 6,... Are arranged wider than the intervals between the ink chambers 6, 6, located at both ends. Each of the nozzle holes 11, 11,... Is horizontally elongated in parallel with the arrangement direction of the nozzle holes 11, 11,. The length in the parallel direction of the nozzle holes 11 of the ink supply port 12 is formed longer than the interval between the nozzle holes 11 on both ends.

Thereby, the shortest distance between the ink supply port 12 and each nozzle hole 11 is equalized, and at the same time, each ink chamber 6 and the ink supply port
The shortest distance to 12 is equally formed.

 Others are formed in the same manner as in the conventional example.

 Next, the operation of the present embodiment will be described.

When printing is performed according to the present embodiment, first, ink in an ink storage unit (not shown) is supplied to a common ink chamber 7 through an ink supply port 12, and the ink supplied to the common ink chamber 7 is supplied to each ink chamber 6. Flowed into. And the electrodes
When the ink discharge pressure generating element 9 is energized through 10, the ink in the ink chambers 6, 6,.
And is discharged from the nozzle holes 11, 11 ...
Characters and the like are printed on the recording material. At this time, the ink supply ports 12 are arranged in parallel with the ink chambers 6, 6,... And the nozzle holes 11, 11,.
Since it is formed in a slit shape longer than the interval of 11, the shortest distance from the ink supply port 12 to each of the nozzle holes 11, 11,.
Since all the nozzle holes 1
Equivalently stable ink supply is performed for 1,11. Accordingly, it is possible to always consistently eject ink from all the nozzle holes 11, 11,..., And to perform stable high-quality printing.

Further, in the present invention, since the ink supply port 12 is formed by cutting out a part of the spacer 2, the ink supply port 1 required in the above-described conventional example is provided on the substrate 1.
Since a complicated manufacturing process such as etching for forming a pattern is not required, and notching the spacer 2 is not so complicated, the manufacturing becomes extremely easy.
In the conventional example, the ink supply port 12 is provided in the substrate 1.
In the case where a defective product is manufactured in the process of forming the ink supply port, the cost is greatly increased. Is not a big loss.

In each of the above embodiments, one ink supply port is provided.
The ink is supplied from the nozzles 12 to the plurality of nozzle holes 11, 11,..., But an ink supply port is provided for each nozzle hole 11 so as to correspond to each other. The shortest distances may be formed substantially equal.

In addition, the number of corresponding ink supply ports and the number of nozzle holes that receive ink supply therefrom may be a combination other than those described above, that is, the shortest distance between the ink supply port and the nozzle holes is substantially equal over the whole. What should I do? Furthermore,
The arrangement pattern of the plurality of nozzle holes may be other than the arrangement pattern in the above embodiment.

The present invention is not limited to the above embodiments, but can be modified as needed.

〔The invention's effect〕

As described above, since the shortest distance between the ink supply port and each nozzle hole is substantially equal in the ink jet head of the present invention, the ink supplied from the ink supply port is substantially equal to each nozzle hole. Even when ink is ejected from many nozzle holes in high-speed printing, a sufficient amount of ink can be supplied to all nozzle holes under the same conditions, and the stability of ink ejection amount by each nozzle hole This makes it possible to obtain more stable high-quality printing, and furthermore, it has effects such as easy manufacturing and low cost.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view of an ink jet head of the present invention,
FIG. 2 is an exploded perspective view of a conventional ink jet head. DESCRIPTION OF SYMBOLS 1 ... board | substrate 2, ... spacer, 3 ... closing plate, 4 ... space, 5 ... partition, 6 ... ink chamber, 7 ... common ink chamber, 9 ... ink discharge pressure generation element, 11 ... … Nozzle holes,
12 ... Ink supply port.

Claims (1)

(57) [Claims] 1. A space is formed by sequentially laminating a spacer and a closing plate in which a plurality of nozzle holes for discharging ink are arranged in a row on the surface of a substrate to form a space inside, and the nozzle hole is formed in this space. A plurality of ink chambers respectively communicated with the ink chamber, and a common ink chamber formed by the ink chambers, and an ink supply port for supplying ink to the common ink chamber. The ink jet head is characterized in that the ink supply port is formed by cutting out a part of the spacer so that the shortest distance from each of the nozzle holes is equal to the horizontal direction in parallel with the arrangement direction of the nozzle holes.