KR960015760B1 - Ink-jet printer - Google Patents

Abstract

None.

Description

Ink jet printer

1 is a schematic plan view showing an arrangement example of fixed multinozzle heads of the ink printer of the present invention;

2 is a side view of the heads shown in FIG.

3 is a schematic diagram showing how picture elements produced by an ink jet printer form a picture, and

4 is a schematic diagram showing an example of the operation of the nozzle when forming one picture element of the printer shown in FIG.

* Explanation of symbols for main parts of the drawings

1, 2, 3, 4... 36: The nozzle head.

The present invention relates to an ink jet printer that continuously prints color patterns or characters on the surface of a belt-shaped article of continuous length that extends continuously.

The printing by ink jet printers has several advantages that can be applied to a wide range of applications, and therefore differs from, for example, sublimation heat transfer and melt heat transfer schemes.

The main advantages are as follows. First, in this type of printing, known as "non-contact" printing, the printer does not come into contact with the surface being printed. Thus, while printing stably on flat surfaces, the printer can also print directly on rough or very flexible surfaces. Secondly, the surface to be printed is directly printed, thus requiring no movement or fixation, which simplifies the device. Third, not only simple colors, but also fluorescent or special colors can be accurately reproduced with almost no change in color.

However, there are practical problems such as harmful effects caused by dust and bubbles that are very difficult to remove because they are transformed into an environment which adversely affects printing upon removal. At the same time, it is necessary to increase the speed and sharpness of the printing.

A method of increasing the speed of printing by increasing the number of nozzles has been proposed, such as a full multi head with 1792 x 4 nozzles in one head. In addition, various methods have been proposed for increasing the sharpness, such as a vibrating piezo element which reduces the size of the ink fine particle diameter.

Various kinds of technologies used in ink jet printers have been advanced. However, for example, full multi heads fall short of the desired overall quality. In addition, it is not only expensive, but also difficult to maintain and its application range is limited to some extent. Thus, for example, it is not practical for application to other special fields other than paper cutting, and its characteristics are not extended to the extent that it can be applied to the field of color printers.

Although ink jet printers have the advantages described above, they cannot be applied to weaving fabrics used in fashionable items, branded clothing and bags. The reason is that ink jet printers are not generally required in terms of printing efficiency in production and they are too expensive. The printers must be able to handle the printing continuously and cope with the different widths of the various woven fabrics to be printed.

In addition, the printers must be able to cope with continuous or virtually endless lengths, be able to operate at high speeds to increase yields and easily cope with changing widths.

For ink jet printers, a 4x4 matrix is used to have a head dot density of 180 dpi (dots per inch) and provide a tonal range 16, with dots having a side length of 0.14 mm and in a 16 tonal range 4x4 matrix. The picture elements of have a side length of 0.14 × 4 = 0.56 mm. When printing a picture element, two nozzles are moved 0.56 mm across the width of the surface to be printed and simultaneously printed, and then the nozzles are spaced at an interval equal to 0.14 mm of one clay length along the length of the surface to be printed. Transferred. The two nozzles are then conveyed backward by 0.56 mm along the width of the surface to be printed and at the same time printing. By using a multi-nozzle head with a total of 48 nozzles, 12 nozzles are assigned to each color to provide four colors, and the head moves backwards and forwards at 0.56 mm intervals across the width of the surface to be printed. 3.36mm (= 0.56 × ) Width is printed at the same time.

Therefore, when using a conventional nozzle head, the printing width cannot exceed 3.36 mm. Further, when the picture element is printed, the driving means is required to move the head back and forward at a 0.56 mm interval across the print width, further complicating the structure. In addition, since the surface to be printed can only be moved forward by 0.14 mmn intervals during the printing process, the printing speed is so limited that it is unsuitable for manufacturing processes.

Although using the aforementioned full multi heads can be improved to increase the printing speed by eliminating the need to move backwards and forwards, the heads are very expensive as described above. In particular, in the case of severe variations in width and throughput, many problems must be overcome when designing a system that is required to meet the application conditions of woven fabric types. In addition, in other respects, such as the hassle of maintenance of the device, the device is unsuitable for production and manufacturing processes.

It is therefore an object of the present invention to provide an ink jet printer using a multinozzle head capable of continuously printing in an effective manner on a belt-like fabric.

According to the present invention, a plurality of multi-nozzle heads having n nozzles are provided at equal intervals of Pmm, respectively, to print color patterns or symbols of width W (mm) on a continuously moving belt-shaped article. An ink jet printer is provided, the total number of multinozzle heads being determined by W / (nxp) pairs, the nozzles of each of the multinozzle heads arranged in a direction perpendicular to the direction of movement of the belt-like article, the multinozzle heads All are arranged continuously along the path of travel of the belt-like article, the nozzles of each pair of multinozzle heads are moved downward by 0.5 x P (mm), and all nozzles of the multinozzle heads are moving paths of the belt-type article. They are staggered so as not to overlap each other across them.

In such a printer, each nozzle head has n nozzles at intervals such as pmm and the entire W / (nxp) pair of multinozzle heads can simplify the printer structure and drive across the belt-like article by the drive means. An improved printing speed can be obtained which is 2 W / (nxp) times faster than the printing speed of a conventional printer using only one similar multi-nozzle head movable backwards and forwards.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of an inking-jet printer that prints on a surface of a slide fastener 60 mm (w) wide with reference to the drawings is now described. 1 is a plan view showing an arrangement of fixed multinozzle heads of the ink jet printer of the present invention, FIG. 2 is a side view of the multinozzle heads shown in FIG. 1, and FIG. 3 is a picture produced by the ink jet printer. Fig. 4 is a schematic diagram showing how the elements form a picture, and Fig. 4 shows an example of the operation of the nozzle when forming one picture element of the printer shown in Fig. 3;

The ink jet printer of the present invention has a nozzle definition 12 that provides a dot density of 180 dpi, uses a 4x4 matrix to provide a tonal range 16, provides 12 nozzles for each color, and 48 nozzles are provided to use multi-nozzle heads containing four colors.

In ink jet printers in which the dot density is 180 dpi and a 4x4 matrix is used to provide a tonal range 16, the presence of 180 dots in one inch means that if the dot is square, the length of one side thereof is 1/180 inch, That is, since 25.4 / 180mm, one side length is 0.14mm. Further, the dot spacing p is 0.28 mm (0.14 x 2). As shown in FIG. 3, the side length of one pulcher element is 0.56 mm but this is due to the use of a 4x4 matrix to provide a hue range 16.

In order to simultaneously print the entire width of the slide fastener chain 60 mm (w) in a single color, 60 / 0.14 = 428 nozzles are needed. To print in four colors, 428 x 4 = 1712 nozzles are required. Since one multi-nozzle head has a nozzle integer (n) 12 (i.e. 12 nozzles), 428/12 = 36 nozzles of about 60 mm width of the slide fastener can be printed on the edge if approximately 36 multi-nozzle heads are used. will be.

Here, the nozzle spacing p in one head is 0.28 mm, ie twice the side length of the dots (0.14 mm). When printing one picture element using a 4x4 matrix to provide a tonal range 16, as shown in FIG. Only a gap of 0.56 mm (0.14 × 4) is moved to the large rear and front in the direction perpendicular to the moving direction of the surface being printed. This reduces the total number of nozzles to half by 214 and the number of multinozzle heads to 18. In this case, however, there is a need to provide a driving means to move the heads rearward and forward. This not only makes the overall structure more complicated, but also makes it difficult to reduce the size or increase the speed of the device.

In addition, since the overall dimensions of one multi-nozzle head surface are 100 mm x 100 mm, the size of only the single nozzle head alone exceeds 60 mm in width of the slide fastener chain.

Therefore, in the present invention, 36 multi-nozzle heads are designed to cover 60 mm in width of the slide fastener chain. These 36 multinozzle heads are arranged in successive pairs diagonally across the slide fastener chain in the manner shown in FIGS. 1 and 2. In each pair of multiple nozzle heads, a pair of heads are placed across the width of the slide fastener chain and spaced apart from the other pair of heads by an interval equal to 0.14 mm of dot side length that is half the nozzle spacing (0.14 × 2). Will be. In this way, the two nozzle positions of the two multinozzle heads do not coincide with each other.

The ink jet printer of the present invention is configured as follows. 36 multinozzle heads are arranged along the length 360 mm of the slide fastener chain.

In addition, in each pair of multinozzle heads, a pair of heads are spaced apart from the other out-of-pair heads across the width of the slide fastener chain by an interval equal to 0.14 mm of dot side length that is half the nozzle spacing (0.14 × 2). Is placed. In addition, each pair of multinozzle heads is spaced apart by 3.36 mm (= 0.14 × 2 × 12 mm) downward from the immediately preceding pair of nozzles across the width of the slide fastener chain.

The invention is not limited to the head arrangement example where the multinozzle heads are arranged in successive pairs diagonally across the slide fastener chain as shown in the figures. Any arrangement may be applied if the multinozzle heads are arranged along the length of the slide fastener chain such that any two multinozzle heads do not coincide with each other and cover the width of the slide fastener chain.

By applying the structure using 36 nozzle heads as in one embodiment of the present invention, it is possible to produce an inkjet printer which can be printed at low cost and high speed. For example, an Inken jet printer employing a method of moving six multi-nozzle heads such as those used in the present invention back and forward across the width of the slide fastener chain to simultaneously print the width of the slide fastener chain is A4 size ( It takes 4 minutes to print an area such as 20 cm x 30 cm). This method will take 15 hours to print the total length of the slide fastener chain 270 m. In addition, the ink jet printer of the present invention does not require any driving means for moving the multinozzle heads back and forward. Accordingly, the ink jet printer of the present invention can print a 9800m slide fastener chain in 15 hours, which is 36 times faster than a conventional printer.

Thus, high-quality fasteners of continuous length, graphically finely printed, at least 100,000 times, can be produced monthly, with 1580 m of tape per day. The yield is the capacity of six conventional printers in which the multinozzle heads are moved rearward and forward, but such yield can be obtained by using only one of the printers made in accordance with the present invention.

As mentioned above, the ink jet printer according to the present invention is practical, and at the same time, it is possible to continuously print a continuous belt-shaped article at high speed without expensive, and also obtain a very high level of yield.

Claims (1)

An ink jet printer provided with a plurality of multi-nozzle heads each having n nozzles at equal intervals of pmm to print color patterns or symbols at a width w (mm) on a continuously moving belt-shaped article. The total number of nozzle heads is w / (n × p) pairs, the nozzles of each of the multinozzle heads are arranged in a direction perpendicular to the moving direction of the belt-shaped article, and all of the multinozzle heads are connected to the belt. The nozzles of the pair of multinozzle heads are moved downward by 0.5 x p (mm), and all the nozzles of the multinozzle heads are moved Ink jet printers staggered so as not to overlap each other across the path.