EP1219423A1 - Ink jet print head - Google Patents

Abstract

Inkjet print head (1) has an ink chamber (4) that is filled under pressure and has a closing body (18) and outlets (14) that are opened to allow ink to exit. The chamber has a pressure accumulator so that pressure fluctuations within the chamber are balanced out.

Description

The invention relates to an ink jet write head with an ink ink chamber which can be filled under excess pressure and has outlet openings, are arranged in the closing body, the outlet openings close and which are movable in such a way that they are associated with them Can release outlet and ink through the outlet can get outside.

Such inkjet printheads are used in particular in matrix printers used.

A print head of a matrix printer is characterized in that it has a Large number of closely located, movable locking bodies has closed expression openings or outlet openings. Under a matrix becomes a two-dimensional or a one-dimensional arrangement understood by several outlet openings.

The aforementioned ink jet printheads are used in particular as printheads used for marking devices with which labeling on objects, for example packs is applied. The outlet openings the printhead by lifting the closing body briefly released so that ink under pressure on the printable Surface can be brought. For this every closing body assigned pulling elements by means of the controllable pulling device actuates that the desired labeling on the surface to be printed arises.

For an appealing or exact print image it is a prerequisite that the individual outlet openings with a minimum distance from each other are. This is complicated by the fact that the pulling devices, usually Electromagnets have dimensions such that these not as close together as the outlet openings can. Therefore, between the closing bodies and the associated Traction devices arranged traction elements of such a length that the Traction devices can be arranged fanned out side by side. The Drive movements of the pulling devices are based on the pulling elements transmit the closing body, the tension elements for example as Pull ropes or wires or can also be designed as pull rods.

It has been shown that the print quality of such ink jet print heads uneven with certain characters and lines. The print quality of lines perpendicular to a direction of movement of the ink jet print head is worse than the print quality of lines, in the direction of the direction of movement of the ink jet print head run. The lines running perpendicular to the direction of movement are relatively narrower and more uneven, especially with characters or letters that come from a combination of different Lines are formed (such as T, H or E), is particularly noticeable.

The object of the present invention is a generic Improve inkjet printhead to be more accurate Print result is achieved. Especially at high printing speeds the most accurate possible print image should be possible. The inkjet print head should be simply constructed and inexpensive to manufacture his.

According to the invention this is achieved in that the ink chamber Pressure accumulator is assigned such that this pressure fluctuations within balances the ink chamber.

The invention is based on the finding that the printed image is immediate influenced by the pressure conditions prevailing in the ink chamber becomes. The opening of outlet openings by lifting the Closing body leads to a pressure drop, particularly in the area of the open one Outlet and finally in the entire ink chamber leads. This is particularly the case when the ink jet print head is perpendicular to the direction of movement running lines disadvantageous, since these are of a variety individual points or by opening several outlet openings be formed. In contrast, they are in the direction of the direction of movement of the ink jet print head are formed by the fact that only one or a few closing bodies can be actuated at the same time. Hence result differ due to the pressure drop in the ink chamber Print quality for lines running in different directions. The volume of the ink droplets directed outwards through the outlet opening decreases with increasing pressure drop, which in turn leads to a uneven print image.

Another finding of the invention lies in the fact that an equalization of the ink drops that come out of the ink chamber acting pressure through a connection with the ink chamber standing pressure accumulator can be achieved.

For example, a compressible that acts in the sense of a pressure accumulator Medium arranged such that pressure equalization between the Ink and the compressible medium can be done. The compressible Medium is initially caused by the overpressure in the ink chamber compressed, for example, about 1 bar. By taking off the closing body or the opening of the outlet openings caused pressure drop in the ink chamber, is caused by an expansion of the ink chamber counteractable compressible medium. A constant print quality is guaranteed.

Gases are primarily suitable as a compressible medium, but are also other, for example elastic, rubber-like materials or mechanical systems, such as a spring-loaded piston, conceivable.

The container filled with the compressible medium can be used both outside as well as be arranged within the ink chamber, crucial is just that a pressure equalization between the compressible medium and the pressurized ink in the ink chamber take place can. Basically, for the sake of the fastest possible pressure equalization an arrangement of the container or the compressible medium in sensible in the immediate vicinity of the outlet openings.

A rigid material located outside the ink chamber such as metal or plastic existing container is for example connected to the ink chamber via a channel or a hose.

It is also conceivable that the container only through one to the ink chamber connected, air-filled hose closed at the end is formed.

In a particularly simple embodiment variant, these are compressible Medium and ink in direct contact with each other. Are in the container both a gas, especially an air bubble, and from the Ink chamber of ink poured into the container.

Mixing or unintentional leakage of the compressible medium To avoid this is a further advantageous embodiment enclosed in the container by a compliant membrane and spatially separated from the ink. The one for a liquid or a gas impermeable membrane can either be inside the container or inside between the ink chamber and the container Connection may be arranged. Such a membrane can for example consist of an elastic, rubber-like material and / or designed as a rolling membrane be, but basically all systems can be used, the one Ensure pressure transfer while maintaining the ink and compressible Seal the medium against each other.

An arrangement of the container within the ink chamber requires that the arrangement and design is chosen such that the compressible Medium cannot escape unintentionally. Basically, this is without a that encloses the compressible medium and seals against the ink Membrane possible (for example through a dome-like arrangement the container into which the ink can flow in the area of the underside), in practice, however, the use of a membrane makes sense. When in use a rigid container can turn this inside the container or on its connection opening to the ink chamber may be arranged.

In a further embodiment variant, the one arranged inside the ink chamber Container itself formed from a compliant, flexible material and completely encloses the compressible medium, i.e. has no opening on. The container deforms depending on the surrounding Ink pressure and equalizes pressure fluctuations through its volume change in the ink chamber.

Further advantageous design features of the object according to the invention are in the description of the figures and in the dependent claims contain.

Figur 1:

eine stark vereinfachte Ausschnittsvergrößerung eines erfindungsgemässen Tintenstrahl-Schreibkopfes im Schnitt, mit ausserhalb des Gehäuses angeordnetem starren Behälter,

Figur 2:

eine weitere Ausführungsvariante des erfindungsgemässen Tintenstrahl-Schreibkopfes im Schnitt, in stark vereinfachter Ausschnittsvergrößerung, mit ausserhalb des Gehäuses angeordnetem starren Behälter, mit Membran,

Figur 3:

eine weitere Ausführungsvariante des erfindungsgemässen Tintenstrahl-Schreibkopfes im Schnitt, in stark vereinfachter Ausschnittsvergrößerung, mit innerhalb des Gehäuses angeordnetem starren Behälter,

Figur 4:

eine weitere Ausführungsvariante des erfindungsgemässen Tintenstrahl-Schreibkopfes im Schnitt, in stark vereinfachter Ausschnittsvergrößerung, mit innerhalb des Gehäuses angeordnetem flexiblem Behälter,

Figur 5:

eine weitere Ausführungsvariante des erfindungsgemässen Tintenstrahl-Schreibkopfes im Schnitt, in stark vereinfachter Ausschnittsvergrößerung, mit innerhalb des Gehäuses angeordnetem, sich entlang der Austrittsöffnungen erstreckenden flexiblem Behälter.

The invention is explained in more detail with reference to the following figures. The exemplary embodiments shown are not to be understood as restrictive. Show it:

Figure 1:

a greatly simplified enlargement of a section of an ink jet write head according to the invention in section, with a rigid container arranged outside the housing,

Figure 2:

a further embodiment variant of the inventive ink jet write head in section, in a greatly simplified enlarged section, with a rigid container arranged outside the housing, with a membrane,

Figure 3:

another embodiment variant of the inventive ink jet write head in section, in a greatly simplified enlarged detail, with a rigid container arranged inside the housing,

Figure 4:

1 another embodiment variant of the inventive ink jet write head in section, in a greatly simplified enlarged detail, with a flexible container arranged inside the housing,

Figure 5:

a further embodiment variant of the ink jet write head according to the invention in section, in a greatly simplified enlargement of the detail, with a flexible container arranged inside the housing and extending along the outlet openings.

1 to 4 is a selected embodiment of an ink jet write head 1, but the invention is not intended to be such Embodiment may be limited. Are for the sake of clarity duplicate components are sometimes only shown simply.

An inkjet write head 1 has one arranged in a housing 2 Ink chamber 4 on. The essentially cubic ink chamber 4 is through a front wall 6, side walls 8 and a rear wall 10 limited. The Front wall 6 is preferably detachably connected to the housing 2 and sealed by a seal which is preferably designed as an O-ring 12. In the front wall 6 outlet openings 14 are arranged, which serve as a nozzle for Ink 16 emerging during the printing process act. Through to the Exit openings 14 adjacent closing bodies 18 are the exit openings 14 closed. The term ink 16 means all for labeling and marking suitable substances such as paints, acids etc..

Each closing body 18 is a pull element 20, preferably a pull rod assigned, the coaxial to the longitudinal axis X-X of the respective outlet opening 14 runs. Instead of pull rods, it is also possible to pull cables or to use similar tension elements. The tension elements 20 extend through actuating openings 22 arranged in the rear wall 10 and are connected to pulling devices, not shown. advantageously, can the tension elements 20 have a diameter of, for example Have 1 to 1.2 mm and be designed as a hollow pull tube to to achieve a material and thus a weight reduction. As Traction devices are particularly suitable for electromagnets Achieve stroke of the closing body 18 of, for example, about 0.2 mm.

According to the invention are in the actuating openings 22 coaxial with the tension elements 20 extending guide tubes 24 are arranged, both a ink chamber portion 26 protruding into the ink chamber 4 and one projecting outside the ink chamber 4 relative to the housing 2 Have outer section 28. The tension elements 20 are in the guide tubes 24 out. The ink 16 passes through an opening 30 from a Ink tank 54 (see FIG. 5), the connection end 32 of which in a the side walls 8 arranged opening 30 is connected, under positive pressure into the ink chamber 4.

The actuation openings 22 are opposite those located in the ink chamber 4 Ink 16 each sealed by a sealing element 34. advantageously, enclose the sealing elements 34 in the ink chamber 4 protruding areas of the tension elements 20. In the illustrated Design variant enclose not only the sealing elements 34 Traction elements 20, but also the ink chamber sections 26 of the guide tubes 24, and thus securely seal the actuation openings 22.

Advantageously, the sealing elements 34 can be easily attached to the tension elements 20 and guide tubes 24 or their ink chamber sections 26 be postponed. To ensure a secure fit on the tension elements 22 or to ensure the guide tubes 24, the tension elements 20th one in each of their end regions facing the outlet openings 14 annular, transverse to the longitudinal axis X-X groove 36 in which the respective Sealing element 34 comes to rest.

A particular advantage of the design of the sealing elements shown 34 lies in the fact that they themselves act directly as closing bodies 18 because the sealing elements made of an elastic rubber-like material 34 abut the outlet openings 14. Additional closing body elements omitted.

Due to the different requirements for the ink 16 are also for the manufacture of the sealing elements 34 possible types of material adjust accordingly.

A sealing element 34 points from that at the outlet opening 14 adjacent surface on a frustoconical section 38, which in a passes into a substantially cylindrical portion 40. Execution of the frustoconical section 38 has the consequence that the under pressure standing ink 16 is directed in the direction of the outlet opening 14. This enables high printing speeds and an exact Realize print image. The overpressure in the ink chamber is, for example 1 bar.

Furthermore, it has also proven to be advantageous if the sealing element 34 in the area between the outlet opening 14 and near the end of the ink chamber portion 26 of the guide tube 24 is constricted 42 has. The constriction 42 has the effect that when the associated one is actuated Tension element 20 a defined expansion of the constriction 42 and the end of the actuating opening 22 Sealing element 34 results in limited area. Through this relative long section is a gentle deformation of the sealing element 34 reached, which in turn the durability of the sealing element 34th is significantly extended.

Fig. 1 shows the arrangement of a container 44 outside the ink chamber 4. In Fig. 1 and also in the following figures, the container 44 is the For the sake of clarity, shown relatively small, for an optimal pressure storage function a much larger version may be appropriate. The container 44 shown in Fig. 1 is made of a rigid material such as for example metal or plastic and is via a channel 46 with the Ink chamber connected. It is also conceivable that the container 44 only by a closed end connected to the ink chamber Hose is formed. The container 44 is with a compressible medium 48, in particular a gas filled.

In the embodiment variant shown in FIG. 1, it comes under excess pressure standing ink 16 through the channel 46 into the container 44 and located in direct contact with the compressible medium 48.

To prevent the compressible medium 48 from escaping or mixing to avoid with ink 16, the compressible medium is 48 in a further advantageous embodiment variant shown in FIG. 2 through a compliant membrane disposed within container 44 50 enclosed and separated from the ink 16. Alternatively, the membrane 50 also in the area of the connecting the ink chamber 4 and the container 44 Channel 46 may be arranged. The membrane 50 can, for example made of an elastic, rubber-like material and / or as a rolling membrane be executed.

3 shows an arrangement of the container 44 within the ink chamber 4. In this embodiment, too, the compressible medium 48 and the ink 16 through one disposed in a communication port 52 Membrane 50 separated from each other. The membrane 50 could alternatively also be arranged within the container 44.

In the embodiment variant shown in FIG. 4, the container 44 is also arranged within the ink chamber 4. Which is free in the ink moving container 44 is made of a resilient, flexible material and encloses the compressible medium 48. Thus, the container 44 formed by the membrane 50 itself and deforms depending on the ink surrounding him.

5 shows a further advantageous embodiment variant of the container 44. This container 44, which consists of a flexible membrane 50, is arranged inside the housing 2 and extends along the outlet openings 14. Thus, there is a small distance between the compressible medium 48 and each individual outlet opening 14 given and thus a quick pressure equalization possible. The tubular container 44 extends to a channel 46 arranged in a side wall 8, which extends through the housing 2 to the outside. The container 44 is connected via the channel 46 to the ink container 54 containing the ink 16 and pressurizing the ink 16 with a pressure P ₀ via a line 56 such that a pressure compensation is also possible between them. Thus, the same pressure acts on the ink 16 and on the compressible medium 48 at all times.

The invention is not based on the illustrated and described exemplary embodiments limited, but also includes all within the meaning of the invention equivalent designs.

A sealing element preferably encloses one by one Actuating opening in the ink chamber protruding area one Pull element completely and closes the actuation opening opposite sealing the ink chamber, the sealing element being such is that it has the free end of the closing body for the Exit opening forms.

Guide tubes preferably extend through the actuation openings and have an ink chamber portion protruding into the ink chamber and other an outer portion protruding from the housing on.

Claims (10)

Ink jet writing head (1) with an ink chamber (4) which can be filled with ink (16) under positive pressure and has outlet openings (14), in which closing bodies (18) are arranged which close the outlet openings (14) and which are movable in such a way that they can release the respectively associated outlet opening (14) and ink (16) can reach the outside through the outlet opening (14),
characterized in that a pressure accumulator is assigned to the ink chamber (4) in such a way that it compensates for pressure fluctuations within the ink chamber (4). Inkjet write head according to claim 1, characterized in that a container (44) filled with a compressible medium (48), in particular with gas, is designed and arranged such that pressure equalization between the ink (16) and the compressible medium (48) can be done. The ink jet write head (1) according to claim 1 or claim 2, characterized in that a flexible, impermeable membrane (50) is arranged between the compressible medium (48) and the ink (16). Inkjet write head (1) according to one of Claims 1 to 3, characterized in that the container (44) is arranged inside the ink chamber (4). Inkjet write head (1) according to claim 4, characterized in that the membrane (50) forms the container (44) and completely encloses the compressible medium (48). Ink jet write head (1) according to one of Claims 1 to 3, characterized in that the container (44) is arranged outside the ink chamber (4). The ink jet write head (1) according to claim 1, 2, 3, 4 or 6, characterized in that the container (44) is connected to an ink container (54) which is connected to the ink chamber (4) and contains the ink (16) and pressurizes it ) is connected in such a way that pressure compensation can take place between the container (44) and the ink container (54). Inkjet write head (1) according to claim 1, characterized in that in each case one sealing element (34) in each case sealingly surrounds an ink chamber section (26) of a guide tube (24). Inkjet write head (1) according to Claim 8, characterized in that the sealing elements (34) have a frustoconical section (38), the narrower end of which seals the outlet opening (14) respectively associated with the sealing element (34) and the further end of which approximately circular cylindrical section (40) merges. Inkjet write head (1) according to one of Claims 1 to 9, characterized in that the sealing elements (34) have a constriction (42) between the ends of the respectively assigned ink chamber sections (26) of the guide tubes (24) and the respectively assigned outlet openings (14) ) which is arranged in such a way that the sealing elements (34) deform into a spherical shape between their constriction (42) and their end facing the actuating opening (22) when the pulling elements (20) are actuated.

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