DE3316226A1 - Method and device for removing ink from in front of the nozzle openings and air from the nozzle space of an ink jet printing head - Google Patents

Abstract

The invention relates to a method and a device for removing ink from in front of the nozzle openings and air from the nozzle space of an ink jet printing head. The object of the invention is to prevent, by simple means, the nozzle openings of an ink jet printing head from becoming contaminated and to prevent air bubbles collecting, in order to obtain a satisfactory print image, whilst it was also the object to fulfil these demands by utilising an ink circulation system, known per se. According to the invention, the object is achieved in that ink is fed through a line branch of the ink circulation system in the printing pauses, which branch contains an element which produces a partial vacuum, as a result of which ink which has collected in front of the nozzle openings can be drawn back into the ink jet printing head to such an extent that the nozzles become free of ink. In this process, the air which has collected in the ink jet printing head is also removed at the same time. The element which produces a partial vacuum is an injector pump. Below the nozzle openings, an additional suction opening is provided which opens into a separate chamber of the ink jet printing head. This chamber is connected to an injector pump by means of a line branch which contains a valve. <IMAGE>

Description

Method and device for removing ink before the

Nozzle orifices and air from the nozzle chamber of an inkjet printhead the The invention relates to a method and a device for carrying out the method for a printing device that operates on an inkjet basis.

A large number of inventions are known which have as their content that a viscous, moisturizing body covers the nozzle surfaces during breaks in printing covered to prevent the nozzle openings from drying out.

For this, special mechanisms are necessary so that the body can Can cover nozzle openings. An example of this is given in DE-OS 2,702,663.

Another possibility is shown in DE-OS 2,811,346. here a cleaning bath is led past the nozzle openings, which is used to rest against the Nozzle surface on the ink head. By building an electrical Field are removed in DE-OS 2 512 744 dust particles from the printing area. By sending out the ink jet during short pauses in printing, J is said to be like it is stated in DE-OS 2 754 630, drying out may also be possible to be able to prevent nozzle openings. In other inventions, such as in DE-OS 2,820,332 and in US Pat. No. 3,891,121, a rinsing liquid or a solvent is pumped into the push button during printing breaks. Around air bubbles To be able to remove from the ink circuit or the print head were also proposed by the invention submitted.

For example, DE-OS 2 543 452 proposes the ink supply system to connect with the surrounding air via a ventilation duct by capillary action to be able to remove the trapped air. In DE-OS 2 737 911 a bubble collector announced, which contains a capillary-acting filter.

In further descriptions of the invention, heating elements are specified, which heat the ink and thus expel the dissolved air. the end the examples listed, it can be seen that each for the to be solved task special or additional components or materials are necessary, from DE-AS 2 828 998 it can be seen that when the printer is in the rest position, there is still ink is conveyed from the storage container and back into the ink container via a valve but without taking advantage of this ink return.

The invention has the aim of soiling nozzle openings of a Inkjet printhead and the accumulation of air bubbles to keep to get a perfect print image.

The invention has the object, by utilizing a known per se Ink cycle system, the drying and soiling of inks and the accumulation to prevent air bubbles in the ink.

According to the invention the object is achieved in that in the printing breaks the valves 4, 5 are open and the valve 3 is closed. The pump sucks the ink tank ink, which through the valve 4 in a negative pressure generating element flows and thereby air and ink from the inkjet printhead over the valve 5 is drawn. The ink then flows back into the ink tank.

Another feature is that with an additional branch the pump is coupled to the ink container, the branch having a valve 4 and contains a negative pressure generating element. In another branch of the line, the connecting the inkjet printhead to the negative pressure generating element is a Valve 5 included.

The valves used are electromagnets Hinged anchors, opposite which counter bearings are arranged. Between the hinged anchor and The cable hose, which, depending on the height, is attached to the electromagnet, runs counter-bearing applied voltage in its diameter will change.

The vacuum generating element is an injector pump, which has two inlet and one outlet ports. One of the inlet openings is located the outlet opening opposite and both have a tube in extension, the have different diameters. These tubes meet in the injector pump and protrude somewhat into one another. The second inlet opening closes at a right angle the other two openings in the injector pump. Below the nozzle mouths an additional suction opening is provided, which is in a separate chamber of the inkjet printhead flows out. This chamber is by means of a line branch that contains a valve, connected to an injector pump.

The invention is to be explained in more detail using an exemplary embodiment will. The accompanying drawings show: FIG. 1: a block diagram of the ink circulation system Fig. 2: an expanded block diagram of the ink circuit system. Fig. 3: the Structure of a valve Fig. 4: the structure of a negative pressure generating element.

From Fig. 1, the structure of the ink circulation system can be seen. When printing begins, valve 3 is closed, while valves 4 and 5 are open are. The ink is sucked out of the ink container 2 by the pump 1 and through the fully open valve 4 is pressed into the injector pump 6, from where it enters the Ink Tank 2 returned. Through the 5 nm inkjet printhead via the opened valve 7 resulting negative pressure, generated by the relaxation of the ink flow in the Injector pump 6, any ink that has leaked from the nozzle or nozzles is sucked off or existing air bubbles sucked out of the inkjet print head 7. After a given time the valve 4 is closed, so that before the valves 3 and 4 build up a high pressure. When the pressure is fully built the valve 5 is closed and the valve 3 is opened, so that the ink jet print head 7 an ink jet is sent out and intercepted by a gate. For printing the valve 4 is regulated so that the corresponding fluid pressure is set, in which a certain amount of ink is directly in the branch with the elements 1, 4, 6, 2 is conveyed and does not run over the inkjet printhead 7. In the During pauses in printing, valve 3 is closed again and valves 4, 5 are opened. The pump 1 continues to deliver ink from the ink container 2 and pumps it through the valve 4 in the injector pump 6> so that a negative pressure is created, which ensures1 that ink residues 19 remaining in front of the nozzle orifices 20 are withdrawn will. The ink passes through the valve 5 into the injector pump 6 and from there out back into the ink tank 2.

Pump 1 generates the liquid pressure and pumps the ink in the ink circuit, whereby the pressure is not regulated by controlling the pump (e.g. speed).

By means of a second branch of the line, which connects the elements 1> 4, 6, 2 contains (with a controllable valve 4) the pressure control for the line branch takes place with elements 1, 3, 7.

Due to the force of gravity, the ink residues run according to FIG. 2 19 from an upper nozzle orifice 20 to a lower one, so that the ink residues 19 can be received by the lower nozzle mouths 20. But if ink comes out of one the lowermost nozzle mouths 20 out, so this could not be in the inkjet print head 7 to be withdrawn. That is why in this embodiment an additional suction opening 22 is provided in the ink jet print head 7, which is located below the nozzle mouths 20. The suction opening 22 leads into a separate one Chamber 21 of the inkjet printhead, which through a second opening 23 with the Injector pump b by means of a hose 16 containing a valve 24, connected is.

Fig. 3 illustrates the structure of a Veritils used. It consists of an electromagnet, a hinged armature 14 and a hinged armature 14 opposing frame-mounted counter bearings 15. Instead of the previously used Adjustment parts are a special hose in the proposed solution 16 used, which has the properties of good elasticity and low compression set united in itself and a deformation of the line hose 16 made is that the change of the flow opening takes place up to the shut-off. It runs the conduit hoses 16 between the hinged armature 14 and the counter-bearing fixed to the frame 15 through it, so that when a voltage is applied to the electromagnet 13 of the hinged armature 14 is tightened and the line hose 16 can be changed in its diameter in an analogous manner is. A spring 17 is used for Vorspsnnunc.

In Fig. 4, a negative pressure generating element is shown which represents an injector pump 6, which consists of a container which has two inlet openings 8, 9 and an outlet opening 10 has. The inlet opening 8 is located at the outlet opening 10 opposite, while the second inlet opening 9 opens laterally in the container. In Two tubes 11 12 protrude into the container, the different diameters have and the opposite inlet and outlet openings 8, 10 assigned are. The tubes 11, 12 meet approximately in the middle of the container so that the openings of the tubes 11, 12 protrude somewhat into one another and through their difference- free access for the ink permit.

The ink flowing through the tubes 11, 12 creates a Negative pressure that works in the ink tank, This negative pressure causes air to escape from the Nozzle space of the ink jet print head 7 and ink that is in front of the nozzle orifices 2G is »pumped away. The ink passes through the valve 5 and through the second inlet opening 9 into the injector pump 6 and won from there into the ink container 2 back or via the suction opening 22 into the line hose 16 through the valve 24 and the injector pump 6 to the ink tank 2 back.

Claims (5)

Claims 1. A method for removing ink from the nozzle orifices and air from the nozzle chamber of an inkjet printhead during the printing pauses, characterized in that the supply of ink to the ink jet print head (7) is interrupted is, the ink continues to be sucked out of the ink container (2) and back into the Ink tank (2) is returned and taking advantage of this ink cycle a negative pressure is generated in the ink jet print head (7), through which the front the nozzle mints (20) accumulated ink residues (19) in the Tiritenstrahidruckl <opf (7) are withdrawn and at the same time air (18) is sucked out and part of the itself in the inkjet printhead (7) is returned to the ink container (2) will. 2. Device for performing the method according to claim 1, below Use of a branch, through which the ink container with the tinter, jet print head is connected and contains a pump and a valve, characterized in that the pump (1) is connected to the ink container (2) by a second branch is, in which a valve (4) and a negative pressure generating element are arranged, while through a third branch of the inkjet print head (7) with the vacuum-generating element is coupled and this branch line is a valve (5). 3. Device for removing ink in front of the nozzle orifices of a Inkjet printhead, using an inkjet system known per se, which contains a vacuum-generating injector pump, characterized, that an additional suction opening (22) is provided below the nozzle mouths (20) ist1 which opens into a separate chamber (21) of the inkjet printhead (7), wherein this chamber (21) through a line branch (16) which contains a valve (24). with the injector pump (6) is connected 4. Valve according to claim 2, characterized in that that it is an electromagnet (13) with a hinged armature (14), opposite a hinged armature (14) a counter bearing (15) is attached and between the two Line branch, in the form of a line hose (16), which has a low compression set has, runs. 5. negative pressure generating element according to claim 2, characterized in that that it is an injector pump, which consists of a container 'of the two Has inlet openings (8; 9) and an outlet opening (10), one of the inlet openings (8) the outlet opening (10) is opposite and each has a tube (11; 12) have in extension that have different diameters and divides overlap wisely while the second inlet port is at right angles to the two other openings (810) opens into the container.