JPH0544347B2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Field of Application The present invention is characterized in that liquid ink is ejected by an electric field to form dots on a recording medium, and images such as characters and figures are formed by the combination of these dots. It relates to printing devices.

Conventional technology Conventionally, so-called inkjet printers, which form images on recording media by ejecting liquid ink droplets from nozzles, have been known to produce less noise during printing and to perform multicolor printing compared to other printing methods. Numerous inventions have been made and improvements have been made for reasons such as being advantageous in terms of running costs and the like. However, countermeasures against nozzle clogging caused by ink evaporation are not sufficient, and this has become a practical problem.

In order to eliminate the occurrence of such nozzle clogging, a type of printer using liquid ink that is different from the above-mentioned inkjet printer is being considered.

First, to give an example, as described in JP-A-56-170 and JP-A-56-4467, a slit-shaped opening is formed instead of a nozzle that is prone to clogging. However, an electric field is applied between opposing electrodes facing this opening to cause the ink to fly.

This type of ink has a problem in that the structure for releasing ink droplets from the slit-shaped opening is delicate and lacks stability.

In addition, as for other methods, JP-A-54-
As seen in Japanese Patent Application Laid-open No. 23534 and Japanese Patent Application Laid-open No. 159355/1983, ink is guided to the tip of a needle-like member along its outer periphery, and the ink is caused to fly by an electric field.

In this type of product, magnetic ink must be used to guide the ink to the tip of the needle-like member, and this magnetic ink has a high degree of freedom in color selection due to the ground color of the magnetic powder contained in it. The disadvantage is that there is no

Problems to be Solved by the Invention In order to solve the disadvantages of the above-mentioned inkjet printer using liquid ink while maintaining its features, it is necessary to avoid clogging in the part where the ink is ejected. That is absolutely necessary.

Also, the use of magnetic ink as the liquid ink is undesirable due to its color, and it must be possible to print with ordinary plain ink.

Means for Solving the Problems In order to solve these problems, the applicant invented a printing device of the type shown in FIG. 7, and
A patent application was filed. First, an ink container 2 for storing ordinary liquid ink 1 is provided, and a needle-shaped recording electrode 3 having electrical conductivity and ink-impregnating property is provided inside the ink container 2 and immersed in the ink 1. The tip 4 of the electrode 3 is exposed from the ink container 2. A counter electrode 6 is provided at the tip 4 of the recording electrode 3 with a recording paper 5 interposed therebetween. , 9 are connected. Then, the switching circuit 7
A control circuit 10 that generates a control signal according to an image signal is connected to.

The following recording electrodes 3 are used as the above-mentioned recording electrodes 3.

(1) Metal granules formed by casting without losing air permeability. (2) Conductive granules such as transition metal oxides sintered. (3) Conductive particles mixed with carbon fine particles. Breathable foam molded plastics Among these, (1) and (2) are a collection of irregularly shaped particles, and the pores formed between the particles communicate three-dimensionally. In addition, (3) also has a substantially similar structure.

Therefore, the ink 1 always reaches the tip 4 of the recording electrode 3, and the switching circuit 7 operates according to the image signal to generate an electric field between the recording electrode 3 and the counter electrode 6, and the tip reaches the tip 4. 4, the ink 1 is ejected toward the recording paper 5.

Printing is performed according to this principle, but since the tip 4 of the recording electrode 3 is exposed to the outside, the ink 1 in that part dries, but the ink container 2
Since the degree of fluid communication with the ink 1 inside is high, the concentration of the ink 1 can be uniformized well, and no slag of the ink 1 is generated at the tip 4.

In this way, this type of printing device is a dramatic advance over conventional technology, but in order to increase the printing speed, it is necessary to reduce the amount of ink 1 supplied without the risk of droplets. This is something that needs to be increased. That is, it is desirable that the recording electrode 3 has a high ability to retain the ink 1 and has low fluid resistance.

Means for Solving the Problems A printing device is configured using a recording electrode in which a large number of ink guide grooves are formed on the outer periphery along the longitudinal direction.

Function The ink has good fluidity in the length direction of the recording electrode.
Supply ink abundantly to the tip of the recording electrode. Further, clogging due to ink evaporation does not occur.

Embodiment A first embodiment of the present invention will be described based on FIGS. 1 to 5. Components that are the same as those described in connection with FIG. 7 are designated by the same reference numerals, and description thereof will be omitted. First, the printer 11 has two (first
Guide shaft 1 (only one is shown in the figure)
2 is provided horizontally, and a carrier 13 is attached to this guide shaft 12 so as to be able to reciprocate from side to side. A printing head 14 is placed on this carrier 13. Further, in the center of the printer 11, a counter electrode 6 facing the printing head 14 is horizontally attached. Behind this counter electrode 6 is a tractor 1 that feeds recording paper 5 as a recording medium.
5 is provided. An operating knob 16 projecting outward is coupled to the tractor 15.

The printing head 14 is similar to that shown in FIG. 7, but the recording electrode 17 has a different structure as will be described later. The upper surface of the ink container 2 is covered with a printed wiring board 18, and the recording electrode 17 is held at the tip of a wire 19 that is electrically connected and fixed to the printed wiring board 18. Further, the printed wiring board 18 is connected to a connector 20,
This connector 20 is connected to a switching circuit 21.

The recording electrode 17 is made by kneading metal particles with a binder, extrusion molding, and then sintering the electrode, and has a large number of ink guide grooves 22 formed along the longitudinal direction on its outer periphery. . For example, fine particles of stainless steel are kneaded with a binder and then extruded and then sintered to form the tip 4 into a conical shape. Dimensions: 0.5 in diameter
A rod-shaped member 23 having a diameter of mmφ, a tip end portion 4 of R0.1 mm, and a length of 20 mm is formed.

Further, instead of the metal fine particles, carbon fine particles may be used and sintered in the same manner as in making a pencil lead.

Furthermore, it is also effective to extrude a conductive plastic material mixed with carbon fine particles and then process the tip 4.

Next, the material using a non-conductive plastic molded member is widely used as the nib of writing instruments.
As shown in FIG. 5, if a metal thin film 24 is attached to the surface to impart conductivity, it can be manufactured at a very low cost.

In such a configuration, the printing operation is similar to that explained with reference to FIG. Supply ink 1.

Next, FIG. 6 shows a second embodiment of the present invention, in which a large number of recording electrodes 17 are arranged in parallel. In this case, each recording electrode 17
An independent switching circuit 7 is connected to the control circuit 10, and a control circuit 10 performs a switching operation corresponding to the image signal.

Note that the recording electrode 17 described above is extremely inexpensive, so the printing head 14 is made into a unit and used as a disposable unit, and the printing head 14 is replaced with a new one when the ink 1 in the ink container 2 is used up. Is possible.

Effects of the Invention As described above, the recording electrode facing the counter electrode with a recording medium interposed therebetween is formed by a rod-shaped member having a large number of ink guide grooves formed on the outer periphery in the longitudinal direction. Ink can flow smoothly along the longitudinal direction of the guide groove, which ensures ample ink supply to the tip of the recording electrode, ensuring high print quality even during high-speed printing. Since there are many ink guide grooves from which the ink flows out at the tip,
There is no clogging caused by ink drying, and
It is also possible to impart electrical conductivity to the recording electrode by a simple means such as imparting electrical conductivity to the rod-shaped member itself or attaching a thin metal film.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal side view showing a first embodiment of the present invention, FIG. 2 is a perspective view of the printer, FIG. 3 is a side view of the recording electrode, FIG. 4 is a rear view thereof, and FIG. 5 is a metal FIG. 6 is a vertical cross-sectional view showing a second embodiment of the present invention, and FIG. 7 is a vertical cross-sectional view for explaining the already proposed printing method of the present invention. FIG. 1... Ink, 4... Tip, 5... Recording paper (recording body), 6... Counter electrode, 17... Recording electrode,
22... Ink guide groove, 23... Rod-shaped member, 24
...Metal thin film.

Claims (1)

[Scope of Claims] 1. A recording electrode with ink attached to the tip thereof and a counter electrode are arranged facing each other with a recording body interposed therebetween, and an electric field between these recording electrodes and the counter electrode exceeds a predetermined value. In a printing device in which ink is sometimes ejected from the tip of the recording electrode to form an image on the recording medium, a rod-shaped recording electrode is provided with a plurality of ink guide grooves formed on the outer periphery along the length of the recording electrode. A printing device characterized in that it is formed from a member. 2. The printing device according to claim 1, wherein the recording electrode has a conical tip. 3. The printing device according to claim 1, wherein the recording electrode is formed of a sintered compact made of a conductive material such as metal or carbon. 4. The printing device according to claim 1, wherein the recording electrode is formed from a conductive plastic extrusion molded body mixed with a conductive substance. 5. Claim 1, characterized in that the recording electrode is formed of an extruded plastic body, and a thin metal film is attached to the surface of the recording electrode to impart conductivity.
Printing device as described in section.