JPS61118273A - Laser type ink jet printer - Google Patents

Abstract

PURPOSE:To exhibit perfect performance of a laser type ink jet printer by eliminating the blocking of ink nozzle by a method in which laser beam from a laser beam rotary mirror is irradiated onto the back of an ink-holding recession to heat up ink, and the ink is jetted onto a printing paper by bubble pressures for printing. CONSTITUTION:An ink holder 1 of a cylindrical form, having many ink-holding recessions 2 on its surface, is designed to hold a small amount of ink 4 in an ink container 3 provided on the lower part. In the space 7 of the holder 1, a laser beam rotary mirror 8 is provided rotatably by a motor 9. Laser beam from a laser source 8a is reflected by the mirror 8 and irradiated onto the back 10 of the ink-holding recession 2. A printing drum 11 is provided rotatably in the direction of arrow B and movably in the direction of arrow C, or in the axial direction. By moving and turning the drum 11 in the direction of arrows B and C, printing is made on a printing paper 12.

Description

[Detailed description of the invention] a [Tojo's application field 94 relates to laser ink printers,
In particular, it relates to a completely new method of printing by ejecting nine inks held in a number of recesses using Caesar beam heating.

b.Prior art As a single printer, ink nozzles t-S are installed in a conventionally used inkjet 5, and the ink in these ink nozzles is jetted by a piezoelectric jetting means to print. I failed.

C In the conventional configuration which is more than the problem to be solved by the present invention, the ink nozzle performance and Vmg
In the area where the ink nozzle is clogged because the ink cannot be removed, the ink is not ejected towards the printing paper, so only the corresponding area becomes blank. They appeared as dots, making it difficult to perform printing with sufficient reliability.

In addition, several methods have been proposed to remove the clogging of the ink nozzle, such as a method of constantly replenishing ink and a method of providing a cover, but all of them have poor reliability and are difficult to put into practical use. It can be said that there are very few that have been transformed.

On the other hand, the inkjet printing method is awaited for practical use because the ink itself is cheap, and the appearance of an innovative method is eagerly awaited.

The present invention aims to provide extremely effective means for eliminating the above-mentioned drawbacks, and its gist is An ink holding member having a holding port W6, an ink supply section for supplying ink to the ink holding recess, and a laser beam rotating mirror for irradiating a laser beam from the back side of the ink holding recess. It is the 7th day of Kujienotoguri.

8 Action When the laser beam from the laser beam rotating mirror is irradiated onto the back surface of the ink holding recess, the ink inside the ink holding recess is heated, and the ink is ejected onto the printing paper by pull pressure to print. Color printing can be performed by providing ink for multiple colors as well as laser beam rotating mirrors, ink holding members, etc. for multiple colors.

Embodiment A laser jet printer according to the present invention will be described in detail below with reference to the drawings.

In Figure R1, the reference numeral 1 is a holding member that is cylindrical in its entirety and has a large number of ink holding recesses 2 in each ink holding recess 2. Ink container located at the bottom of the ink holding member l! In other words, the ink spray provided on this Iliri tea utensil 3 is configured to hold a small number of A7ri4 in s3, and the nozzle 20 sprays A7ri4 on the surface of the ink retaining member 10. Sprayed and discharged nozzle 21
1'l: More external IC is ejected.

The diameter of the ink holding port s2 is about 10 microns to 20 microns.
It is preferable that the ink retaining member 1 has a size of 0.0 micron to 7 mm, and that the material of the ink holding member 1 is made of heat-resistant glass. Further, the ink holding member 1 is held in an immersed state in the ink 4 in the ink V63, and as the ink holding member 1 rotates in the direction of the arrow, each container is The ink 4 is held in the ink holding recess 2, and the blade 5 connected to the outer surface of the ink holding member l removes the excess ink 4, leaving the ink 4 only in the ink holding recess 2. &C is configured so that the ink 4 does not adhere to the non-ink retaining surface s6 of the pond.

Furthermore, a laser beam rotating mirror 8 is rotatably arranged in the space 1!1ltiT in the M key holding member 5 by a Tanabata 9, and the laser beam from the laser source 8a is The laser beam is reflected by a rotating mirror 8 and irradiated onto the back surface 10 of each ink holding recess 2.

Further, a printing drum 11 is provided above the ink retaining member 1 and is rotatably arranged in the direction of arrow B, and a printing paper 12 is wound and bonded on the outer S surface of this printing drum. has been done.

As shown in the yPi diagram, the printing drum 11 is rotatably arranged in the direction of arrow B, and is rotatable in the direction of arrow C.
It is provided so as to be movable in the axial direction, that is, in the axial direction, and by rotating and moving in the directions of arrows B and C, printing is performed on the printing paper +2.

In addition, the ink capacity mentioned above! 3, as shown in FIG. t1 and FIG.
It is divided into four rooms and can store ink 4 of the same color or different colors.

A + 8 in Figure 4 shows the printing principle of the laser type I/KJN 71J according to the present invention, and a person of age 41A emits a laser beam corresponding to the ink holding recess 2 of the ink holding member l + WA. Irradiate, ink 4 total printing paper 1
8 in Fig. 2 shows the +r4 formation in which printing is performed by ejecting ink onto two surfaces, and 8 in Fig. Each configuration shows a configuration in which printing is performed by injecting the liquid onto the liquid.

The configuration in Figure I5 shows another embodiment, in which the printing drum 1
The print drum 11 has four primary colors (YMCB,
), and when each print pulse is applied 1111-, ink 4 for Fukuhara color is ejected from each ink holding member 1, and color printing is performed.

In this case, if the ink holding member It is rotated at a speed twice as fast as the feeding speed of the printing paper 12, printing can be performed, so it is possible to increase the printing speed or improve the printing density.

In addition, the configuration shown in Figure 6 shows another example.
The diameter of the weight capacity of the ink holding part is made several times larger than the diameter of the printing drum 11, and ink containers 3a to 3a for YMC [I4 primary colors are arranged around the outer periphery of this ink holding member 1/r'l, and each ink is In the containers 93a to 3a, the ejection means 13
and supply means I4 and f: respectively provided, and the ink 4 is filled into the ink containers 3a to 3a by the supply means 13jk-, and is discharged to the outside via the discharge means lI (when actually printing is performed). In this case, each of the ink volumes 15i3a to 3tL is selectively moved in the direction of the arrow and joined to the ink holding member l, so that the ink 4 for one color is stored in each ink holding recess 2.
For example, when printing for the ink containers 3 & - colors is completed, the ink container 43a moves backward, the ink container 43b of the next color moves forward, and the ink container 43 of the next color enters each ink holding recess 2. supplied within. In this case, when printing with the ink 4 in the ink container 3a is completed, the #P output means 13 absorbs all the ink 4Jk on the area ink holding member l and removes the ink from each ink holding part 5. With the ink 4 in the recess 2 in an empty state, the ink container 3b of a different color is joined to the outer periphery ml of the ink holding member 1 and performs the same operation as described above, and the ink containers 3b and 3drC are respectively Color printing can then be achieved by performing similar operations. In this case, by selectively performing the above-mentioned operation for each predetermined device on the circumference of the ink holding member l, the B (black) section, Y (yellow) section, and M ( The magenta) section and the C (cyan) section can be powered, and high-quality color printing can be performed.

Effects of the Invention The laser type inkjet printer according to the present invention has the above-described construction and operation, and the ink is completely ejected from the ink holding recess, which eliminates the moth-sized drawback of the inkjet method. This is an epoch-making product that completely eliminates ink nozzle clogging and IA failure, and provides a highly reliable inkjet printer that exhibits perfect performance.It is an epoch-making product that can easily achieve not only monochrome but also color blits. The effects can be said to be immeasurable.

[Brief explanation of drawings]

The drawings show a laser-type inkjet printer according to the present invention, and Fig. 21 is a front view, Fig. 2 is a side sectional view of Fig.
, B is a cross-sectional view of the wall showing the printed shell, Figure I5 is a cross-sectional view showing the principle configuration for a color in another embodiment, and Figure 6 shows the principle configuration for a color in another embodiment. It is a configuration diagram with a partial cross section. 1 is an ink holding mu, 2 is an ink holding recess, 3 is an ink 8 container, 4 is an ink, 5 is a blade, 6 is a non-ink holding part, 7 is a gap, 8 is a laser beam rotating mirror, 8a is a laser M: , a source, a motor, 10 the back surface, 11 a printing drum, and 12 printing paper. The above patents have been issued - Osamu Hori, Representative of Elm Co., Ltd. - Flute 1 figure, 2 sides, ¥3 convex figure, ¥4 concave figure, 5 figure No. 61 sword

Claims (4)

[Claims] (1) An ink retaining member 1 having a large number of ink retaining recesses 2, an ink container 3 for supplying ink 4 to the ink retaining recesses 2, and a device for irradiating a laser beam from the back surface 10 of the ink retaining recesses 2. The ink 4 in the ink holding recess 2 is provided with a laser beam rotating mirror 8 .
A laser inkjet printer configured to print on printing paper, etc. by heating it with a laser beam. (2) The laser inkjet printer according to item 1, Iso, wherein the ink holding member 1 has a substantially cylindrical shape. (3) The laser inkjet printer according to item 1, wherein the ink retaining member 1, ink container 3, and laser beam rotation mirror 8 have a plurality of colors, so that color printing can be performed. (4) The laser inkjet printer according to item 1, wherein the ink holding member 1 is used for a plurality of colors to perform color printing.