SE522609C2 - Print head structure in liquid jet printer involves picture information converted to pattern on information carrier, pattern being formed by selectively printing liquid through outlet of liquid depositing part of print head structure - Google Patents

Abstract

The print head structure in a liquid jet printer involves picture information converted to a picture pattern on an information carrier, the picture pattern being formed by selectively applied printing liquid through the outlet of a liquid depositing part (107) of the print head structure with coordinated movement of the print head structure in a first direction across the information carrier, thereby creating a sweep line from each outlet. The print head structure has at least two valve units (110), in connection with which the liquid depositing unit is arranged. Each valve unit has a movable valve body which regulates the print liquid through a liquid flow aperture (118) in each valve unit. Each flow aperture is associated with a corresponding liquid jet aperture (109). The fluid jet apertures are displaced relatively to one another in a direction which is parallel with the first direction to predetermined positions.

Description

25 30 522 609 n | n n u ~ ø o n n 0 I I '' A disadvantage of such a construction is that the length and / or the cross-sectional variations of the channels have an influence on the pressure of the liquid transported through the channels, and, as a result, can affect the uniformity of the recorded / written image. Therefore, the shape of the channels must be calculated carefully in relation to a particular viscosity of the liquid.

However, to allow the use of different fluids with different viscosities, there is still a need for a printhead structure that allows very uniform recording regardless of the variations in viscosity in the printer fluid used in the printer.

SUMMARY An object of the invention is to provide a printhead structure which can achieve a very uniform registration independent of viscosity variations. Another object of the invention is to define a method / procedure for controlling a printhead structure so that a very uniform registration is obtained.

The above-mentioned objects are achieved according to the invention with a printhead structure in a liquid ink image forming apparatus in which image information is converted into an image pattern on an information carrier.

The image pattern is formed by selectively firing / spraying printer fluid through a liquid ink outlet of a liquid depositing portion of the printhead structure with coordinating movement of the printhead structure in a first direction across the information carrier. A sweep line is thus created from each outlet.

The printhead structure comprises at least two valve units and the liquid deposition part is arranged adjacent to the valve units. Each valve assembly includes a movable valve body that regulates printer fluid through a fluid outlet opening to each valve assembly. Each flow opening is associated with the outlet of a corresponding liquid ink. According to the invention, 10 15 20 25 30 52? 609 u. . n. Q u v I u n I n oo liquid inks are displaced relative to each other in a direction parallel to the first direction at predetermined positions. the information carrier and the printhead structure suitably move a predetermined length relative to each other in a second direction perpendicular to the first direction, coordinated with the coordinated relative displacement of the printhead structure relative to the information carrier in the first direction.

Suitably, a single swept sweep line to sweep line spacing may be less than a minimum valve assembly to valve assembly spacing. Sometimes even a single swept sweep line to sweep line distance can be less than the liquid ink outlet to the liquid ink outlet distance.

In some embodiments, valve units are at least substantially oriented in the first direction. The flow openings of the valve units can then in some embodiments be at least substantially aligned in the first direction. The printhead structure further includes liquid ink channels in the liquid depositing portion. The channels are arranged between the flow openings and the outlets of the corresponding liquid ink. The channels have essentially the same length and essentially the same cross section. Then, preferably, the main extent of the channels is in a channel plane, which channel plane is at least substantially parallel to an information carrier plane at the printhead structure. Sometimes the channels are substantially straight in the channel plane, sometimes at least one printer main structure channel is curved in the channel plane.

In other embodiments, the valve units are at least substantially oriented at an angle greater than -90 ° and less than 90 ° relative to the first direction (between -90 ° and + 90 °), i.e. the valve units are not oriented in one direction perpendicular to the first direction, but may be substantially oriented in any other direction. The flow openings are connected to a corresponding liquid ink outlet by means of the respective 10 15 20 25 30 522 609 u ~ »I. . o o o n n channels, the channels have an extension in a direction perpendicular to an information carrier plane at an outlet in question. The channels then suitably have the same length and the same cross-section / cross-section. In some embodiments, the valve assembly of the printhead structure has a common fluid ink cavity; in other embodiments, the printhead valve assembly units have separate fluid ink cavities.

The valve units of the printhead structure can suitably all write / print the same liquid ink color. The displacement of the liquid ink outlets may be such that the predetermined positions of the liquid ink outlets are at the entire dissolution point pitch range relative to each other in the first direction, in other embodiments the predetermined positions are at suitable locations regardless of whether they are at the entire resolution split range or not. In a typical application, the printhead structure may comprise eight valve units.

The above-mentioned objects are also achieved according to the invention with an image-forming liquid ink apparatus in which image information is converted into an image pattern on an information carrier. The image pattern is formed by selectively applying / spraying printer fluid through the outlet of liquid ink of a liquid deposition portion of a printhead structure of a printer unit, with movement of the printer unit in a first transversely coordinated direction of the information carrier. The information carrier and the printer unit are moved in a coordinated manner in relation to each other in a second direction, which second direction is perpendicular to the first direction. According to the invention, the printer unit comprises at least one printer head structure according to any embodiment described above.

The image forming liquid ink apparatus suitably comprises a control unit, which control unit controls the valve units of the printhead structure, the control unit either rearranges the bit maps or delays the outputs of the bit maps to suit the predetermined positions of the offset liquid ink outlets. 10 15 20 25 30 522 699 u o. . ,. . u. o o ~ v o; The image-forming liquid ink apparatus may suitably be arranged to write / print with either four or six different liquid ink colors.

The writing unit may comprise one or two suitably either printhead structures for each different liquid ink color.

The above objects are also achieved according to the invention by a method which achieves a smaller single sweep sweep line spacing than the valve spacing of a liquid ink in an image forming apparatus comprising at least two liquid ink valve units, each with a liquid ink outlet in a printhead structure. The printhead structure has a relative motion in relation According to the invention, the method comprises orienting the outlets of liquid ink in one to an information carrier in a first direction during a sweep. direction which is different from a perpendicular direction to the first direction, i.e. it can be said that the printhead structure is inclined in relation to the direction of that movement of the printhead structure. The orientation direction is also preferably different from the first direction, since all the liquid ink outlets are offset relative to one direction perpendicular to the first direction, the liquid ink outlet would then only write one sweep line. the relative direction of movement of the printhead structure. Liquid ink outlets are no longer oriented in a perpendicular direction to the first direction.

The present invention relates to a printhead structure for use in an image forming apparatus such as a liquid jet printer in which computer generated formed of selectively liquid droplets placed on an information carrier, image information is converted into an image pattern fired / sprayed printhead structure includes a plurality of valve units and a liquid unit. connection to the valve units each valve unit comprises a movable valve body having a piston with a stop made of substantially a rigid material, a cavity surrounding the piston and the stop for enclosing the printer fluid, a liquid flow opening, and a flexible valve seat surrounding the liquid flow opening. 10 15 20 25 30 - n u ~ a. unu ø su ~ uoun nu The printer main structure further comprises a liquid deposition part or unit comprising a number of channels, which channels extend from a corresponding liquid flow opening to an outlet opening arranged in a predetermined position in relation to the information carrier, all channels having at least substantially the same length essentially the same cross section to ensure a uniform liquid deposition regardless of variations in liquid viscosity or other factors.

By providing a printhead structure according to the invention, a number of advantages are obtained over previously known printhead structures.

The primary object of the invention is to provide a printhead structure which is capable of writing with a higher resolution than the size of the valve units allows, without having to take into account variations in liquid viscosity or other factors which could give different characteristics to the different liquid ink outlets. of a printhead structure.

Other advantages of the invention will become apparent from the detailed description.

BRIEF SUMMARY OF THE DRAWINGS The invention will now be described in more detail for explanatory and non-limiting purposes, with reference to the following diagrams, in which: Fig. 1 shows a cross section across a valve arrangement suitably included in a printhead structure according to the invention; Fig. 2 schematically shows a printhead structure with a number of valve units running across an information carrier, Fig. 3 shows a traditional printhead structure with a number of valves and corresponding liquid channels to liquid ink outlets,. u n o u o u | Fig. 4 Fig. 4 schematically shows a cross section across a liquid ink deposition unit / part which holds a liquid channel, Fig. 5 shows a top view of a liquid deposition part of a printhead structure with a number of valves according to a first embodiment according to the invention, Fig. 6 shows schematically a bitmap of an image to be recorded / written, Fig. 7 schematically shows a modified bitmap according to the invention, Fig. 8 schematically shows a delay device according to an embodiment according to the invention, Fig. 9 shows a top view of a liquid deposition part of a printhead structure with a number of valves according to a second embodiment according to the invention, Fig. 10 schematically shows an example of a control unit according to the invention.

DETAILED DESCRIPTION To clarify the method and device according to the invention, some examples of its use will be described in connection with Figures 1 to 10.

The present invention relates to a printhead structure for use in an image forming apparatus, such as a liquid inkjet printer, in which computer generated image information is converted / converted into an image pattern formed by selectively ejected ink deposited on an information carrier, such as, for example, textile material. The image pattern is formed by transverse image lines, each of which consists of a number predetermined at likewise 10 15 20 25 30 522 609 a. ,. | . - ~ Q - -. a - - | . | Q o Spaced pixels. The information carrier is caused to move stepwise in a first longitudinal direction relative to the printhead, in such a way that each step corresponds to a whole number of pixels. During each writing sequence, the printhead is caused to move across the width of the information carrier in a second, transverse direction to thereby achieve line by line sweep printing. For the most part, an image-creating apparatus of the type described according to the invention is used to record very large color images on textile materials, each color image being composed of four different color pigments, such as the usual cyan, yellow, magenta and black. In a preferred embodiment of an image forming apparatus according to the invention, each color image is composed of six different color pigments, such as light cyan, cyan, yellow, light magenta, magenta and black. Generally, one or more printheads of the type described according to the present invention are used for each color pigment, the total number of printheads in an apparatus consequently being a whole multiple of the number of pigments used.

A printhead structure according to the present invention usually has a number of valve units, comprising a liquid ink depositing part or arranged in connection with a liquid depositing unit.

A valve assembly in accordance with the present invention is schematically illustrated in Figure 1 and is designed to control the supply of a liquid ink, which is fed 101 under pressure to a cavity, to the liquid deposition member or unit 107 and out through a liquid ink outlet 109. The valve assembly typically includes a movable valve body 110 having an elongated shape, a substantially cylindrical cavity surrounding the movable valve body and an electromagnetic element 112 used to control the movement of the valve body 113, 115 so that the valve body 110 is bi-directionally movable along its axis, as indicated by the valve open directional arrow 113 and valve closed directional arrow 115. The electromagnetic element 112 has an immobile part which is a part of the valve unit, and a movable part which is a part of the valve body 110. 10 15 20 25 30 522 609 ono | n n u n n u.

The cavity has a front portion that forms a fluid container to hold a printer fluid. A liquid flow opening 118 is provided on the front surface of the liquid container. The liquid flow port 118 suitably has a circular shape.

The valve body 110 has a piston portion which is provided with a stop 117 made of substantially rigid material, which stop 117 is caused to be moved from or towards the liquid flow opening 118 to allow or limit a liquid flow through the opening. When the stopper is caused to move toward the opening, it contacts a valve seat 105 to prevent liquid from flowing through the flow opening 118 and out through the liquid ink outlet 109. A portion of the piston is surrounded by one or more springs 114 which exert a force 115 so that stop 117 is forced against the valve seat. The stop 117 is caused to move from the valve seat and the flow opening 118 by activating the electromagnet element 112 which then gives a force 113 on the valve body 110 overcoming the spring force 115. By balancing the force 113 of the electromagnetic element 112 with the force 114 of the spring 114 a complete control of the stop 117 in relation to the flow opening 118 is obtained. Thereby a complete control is obtained over the amount of liquid fed through the flow opening 118.

As mentioned before, a number of valve units are usually mounted within the same liquid cavity, which cavity then has a fate opening for each valve unit. Such an arrangement with several valve units in a common liquid ink cavity is commonly referred to as a printhead structure. Such a printhead structure 270 is shown in Figure 2. Figure 2 also shows how a printhead structure 270 typically travels over an image receiving surface such as a two meter wide textile material. An image receiving surface is moved stepwise below the printhead structure 270 in a direction perpendicular to the printhead's. u a. . ~ | »- Q ø now 10 displacement arrangements 225 across that surface.

The displacement arrangement sweeps 251 liquid ink outlet 271-278 across the image receiving surface of the image receiving surface between a first end stop 221 and a second end stop 222. The end stops 221, 222 define a writable width 220.

The printhead structure 270 with its liquid ink outlet 271-278 will write along sweep lines 261, which are separated 260 the same distance as the liquid ink outlets 271-278 are separated, during each movement across the image receiving surface between the end stops 221, 222. Depending on the type of printer, it either writes / registers only in one transverse direction or in both transverse directions. Some printers write only with a resulting width step equal to the sweep line distance 260, that is, between each printer run 250, the image receiving surface is moved, in this example, corresponding to eight sweep lines. In other printers, the printhead structure 270 writes lines between already written sweep lines 261 to thereby obtain a width step in the longitudinal direction 250 which is less than the sweep line distance 260. In this description, sweep lines 261 and sweep line distance 260 are what and were a printer and then a printhead structure. 270 writes while moving 251 the printhead structure in one direction.

The arrangement of Figure 2 is adequate for sweep line spacing 260 down to the physical width of each valve assembly feeding an outlet 271-278. But there is always a desire to achieve higher and higher resolution which has led to the fact that a valve unit is wider than the desired sweep line distance 260.

This has led to the development of the liquid ink deposition part or unit of the printhead structure, which part comprises liquid ink channels from the valves to the outlets. Such an arrangement is shown in Figure 3. In Figure 3, a number of liquid ink outlets 371-378 are connected through respective liquid inks 381-388 to flow openings 391-398. Each liquid ink outlet 371-378 writes on a channel and liquid ink valve with corresponding respective sweep line 361-368. The sweep lines 361-368 have a sweep line distance 360 which is equal to a distance between the liquid ink outlets 371-378 in a current. ø Q n. 11 direction which is parallel to the movement 350 of the image receiving surface and perpendicular to the direction of movement 351 of the printhead structure. As previously mentioned, an arrangement such as the one described becomes necessary when individual valves are greater than one sweep line distance 360, i.e. the smallest distance 390 between two valve units / valve unit flow openings 391, 392 is greater than the distance 360 between two sweep lines 361, 362 Unfortunately, the length of liquid ink channels 381-388 are not equal.

The ink channels are usually made by pressing two plates together with cavities between them forming channels. Figure 4 illustrates a traditional method of making channels from a flow port 418 of a liquid ink valve to a liquid ink outlet 409. The channel structure is substantially made of a plate structure with two substrates 405, 407 arranged in contact with each other. The substrates are suitably metal plates of substantially rectangular shape with a length extending in a first transverse direction, i.e. in the direction of movement of the printhead structure, and a width extending in a second longitudinal direction, i.e. the direction of movement of the information carrier, the image receiving surface. A first substrate, a nozzle plate or liquid deposition unit / part 407 has a predetermined thickness in the order of one to a few millimeters, a first surface faces the information carrier and a second surface faces and touches the second substrate. On the second surface of the first substrate a number of channels are arranged, preferably eight channels, cut out in the thickness of the first substrate 407, and extending from the respective flow opening 418 to the liquid ink outlet 409. The respective flow opening 418 is preferably oriented and evenly divided longitudinally. with movement direction of the printhead structure. The outlet 409 of the respective liquid ink is oriented and evenly divided in the direction of movement of the image-receiving surface. Liquid ink outlet openings 409 are provided through the first substrate 407 disposed on the first surface of the first substrate, facing the information carrier. A significant disadvantage of a printhead structure as shown in Figures 3 and 4 is that the channels from the flow openings of the valves to the outlet of the respective liquid ink are not of the same length. This causes problems, especially if the writing speed or resolution is increased. It is possible to adjust both hardware and drivers to take the different lengths into account, but such an adjustment usually needs to be made if any factor such as temperature, liquid ink viscosity, or writing speed changes.

According to the invention, the channels from the flow openings on the valves to the outlets of liquid ink are made at least substantially of the same length.

This is accomplished by displacing the liquid ink outlets in a direction parallel to the movement of the printhead structure, i.e., the outlets are not positioned in a direction parallel to the direction of movement of the image receiving surface.

Figure 5 illustrates a first embodiment of the invention where modified liquid ink channels 581-588 from the valve flow ports 591-598 to offset liquid ink outlets 541-548 are substantially of the same length. As can be seen, the outlets are not offset in relation to the sweep lines 561-568 and have the same sweep line distance 560, only the connection between outlet and sweep line has been reorganized, in Figure 3 the first outlet 371 was associated with the first sweep line 361, but now according to this first In the embodiment of the invention of Figure 5, the first offset outlet 541 is associated with sweep line four 564. This has no bearing on the control of the printhead structure, only a matter of rearranging the control lines, hardware, or modifying the driver association software.

The offset liquid ink outlets 541-548 are offset from a predetermined 551 printhead structure. The displacement depends on what outlet it is, what length, in a direction parallel to the direction of movement can be seen for the first four outlets 541-544 where the displacements 521-524 are from a center line 520 of the printhead structure, which line 520 is parallel ae - ø - en - on 10 15 20 25 30 522 509 13 The different offsets can be integer multiples of the point range, but not with the drawing of the motion 550 of the image receiving surface. necessarily. The modified liquid ink channels 581-588 are illustrated as straight, but in other embodiments may be more or less curved and differently curved between the channels to achieve more equal channel lengths and channel properties.

Location of the modified liquid ink outlets 541-548 places demands on other parts of a printer that include such a printer head structure.

One must take into account that the printhead structure must move Mechanically, the printhead structure should start its movement 551 earlier and stop it later. longer to obtain the same printer width.

The printhead structure must be moved backward so that when the movement starts, the front modified liquid ink outlet 548 is oriented with the first side of the recordable / writable area, and is moved forward so that the modified liquid ink outlet 541 furthest from the main outlet 548 has reached it. the other side of the writable area. Write information / data must be provided to different valves, not coordinated simultaneously for a line parallel to the direction of movement of the image receiving surface, but depending on when each of the modified outlets hits that line. Write information can be determined by the main liquid ink outlet 548 and the control of the other liquid ink outlets 541-547 is delayed in relation to the distance 531-537 to the respective outlet from a line 530 through the main outlet 548.

Other references can of course be used, this reference 530 is a preferred reference, but mainly chosen for further discussions and should not be seen as a limiting aspect.

Figure 6 illustrates a bitmap 602, i.e. a memory from which image data is taken for controlling the valves. A bitmap 602 includes a number of columns C1-C8 and a number of rows R1-R8, in this example limited to an eight times eight matrix. A rough circle 604 is used as an illustration for image data.

When a printer uses a printhead structure of a type according to Figure 2 and u ø o o v v o | o o o 10 15 20 25 30 522 609 n. c u e o. | u Q n | - n u o a un 14 Figure 3, and when the printhead structure is moved 251, 351 from left to right as shown in Figures 2 and 3, then image data from the bitmap is swept from left to right 606 along a scan line 608 in the bitmap. In this example, the first row R1 of the bitmap is connected to the first liquid ink valve 391, the second row R2 of the bitmap is connected to the second liquid ink valve 392 and so on.

A printhead structure according to the invention with modified liquid ink outlets displaced, such as a printhead structure according to Figure 5, would produce a very strange result if it were directly connected to a bitmap according to Figure 6 and scanned 606, 608 accordingly.

According to a first aspect of the invention, a modified printhead structure may use a modified bitmap 702, as shown in Figure 7.

The sweep direction 706 of the bitmap 702 is held along a sweep line 708. The modified bitmap 702 uses offset lines R1-R8. The rows R1-R8 are offset in depending on the length of the offset of the corresponding In this example, a reference line 530 according to Figure 5 is selected. Reference line 530 indicates the liquid ink outlet has, in relation to a predetermined reference. the location of the main modified liquid ink outlet 548, when the printhead structure fl extends from left to right. The displacement of the rows is then made in relation to how much each corresponding modified liquid ink outlet is from this reference.

The outlet 544 of the modified liquid ink of the first sweep line 561 is approximately offset 534 six units from the reference line 530, which means that the first row R1 is offset six units. The outlet 543 of the modified liquid ink of the second sweep line 562 is approximately offset 533 seven units from the reference line 530, which means that the second row R2 is offset seven units. The outlet 542 of the modified liquid ink of the third sweep line 563 is approximately offset 532 nine units from the reference line 530, which means that the third row R3 is offset nine units. Det 10 15 20 25 30 522 609 n q - n n a o. a v v: modified liquid ink outlet 541 of the fourth sweep line 564 is approximately offset 531 eleven units from the reference line 530, which means that the fourth row R4 is offset eleven units. The outlet of the modified liquid ink 548 of the fifth sweep line 565 is on the reference line 530, which means that the fifth row R5 is not offset. The outlet 547 of the modified liquid ink of the sixth sweep line 566 is approximately offset 537 two units from the reference line 530, which means that the sixth row R6 is offset two units. The outlet 546 of the modified liquid ink of the seventh sweep line 567 is approximately offset 536 four units from the reference line 530, which means that the seventh row R7 is offset four units. The outlet 545 of the modified liquid ink of the eighth sweep line 568 is approximately offset 535 five units from the reference line 530, which means that the eighth row R8 is offset five units. In this example, whole units have been used, the row offsets of the modified bitmap must correspond as closely as possible to the actual offsets of the modified liquid ink outlets. It is therefore preferable that the offsets are multiples of the point range. Attention should also be given so that the first row is not connected to the first liquid ink valve 591 of a printhead structure of Figure 5, but to the fourth liquid ink valve 594, and so on. And also that the offsets must be modified for an opposite printhead movement, that is, from right to left.

According to a second aspect of the invention, a bitmap does not need to be modified.

This can be an advantage for easy replacements of an old printhead structure with a new printhead structure without the need to modify any control program.

This is achieved according to the invention by an arrangement illustrated in figure 8. A number of delay units 811-818 are placed on the outputs R1-R8 from the bitmap. The individual delays are consistent with the offsets of the modified liquid ink outlets, as explained above. The outputs of the delay units 811-818, and the directly connected R5 in this example, are connected to the liquid ink valve by the correct sweep line. One should be careful about the printhead structure n u n | u u n e v | n n 10 15 20 25 30 522 609 1 o | o o: o o a u | ~ 16 according to the invention should write in both directions, or only from right to left, that the delays be modified for an opposite printhead movement.

Figure 9 illustrates a second embodiment of a printhead structure 910,920 with modified offset liquid ink outlets 991, 998. In this embodiment it could be said that there is no channel as such between a liquid ink valve and a corresponding liquid ink outlet, here each liquid ink 99 valve is 99 principle in direct contact with, directly above, the outlet 991-998 of each corresponding liquid ink. This second embodiment can be seen as the printhead structure 910, 920 being tilted at a suitable angle 979, 960) / (liquid ink valve / outlet distance 990)). The printhead structure can also be "tilted" toward that given by arcsin ((sweep | inje distance the other way, that is, the seventh liquid ink outlet 997 is to a sweep line below a sweep line of the eighth liquid ink outlet 998 instead over as illustrated in The offsets 931-937 are suitably calculated from the outlet 998 of a main liquid ink, as described above in relation to the first embodiment of the invention. - This simplifies control calculations and is achievable by increasing the distance 990 937 of the outlets 991-998 to whole multiples of a point range, between liquid ink valves / outlets until suitable displacements 931-937 are achieved.

When using more than one printhead structure 910, 920 in conjunction with, for example, different colors, accuracy must be observed for correct offset calculations for each liquid ink outlet as there will be an offset 999 between the printhead structures 910, 920. There may be an offset 999 to ensure that the lowest sweep line 958 of a printhead structure 920 is detected / written by a lower liquid ink outlet of that printhead structure 920 and that the next sweep line 961, the top sweep line of the next printhead structure 910, is recorded / written by oo «v - v unu 10 15 20 25 30 522 699 fw II ~ o on 17 the top liquid ink outlet 991 of the printhead structure 910 to ensure that there are no gaps or overlaps. It should be noted that the modified offset liquid ink outlets are only suitable when the liquid ink valve spacing 990 is greater than the sweep line spacing 960, and that the invention only relates to printhead structures where applicable.

The control functions and control of a liquid inkjet printer according to the invention can be handled by a control unit as shown in figure 10. The control unit according to figure 10 is only an example of an embodiment. The different parts of a control unit can be separated into distinct units as shown, or integrated to a higher or lower level. A user, usually a computer or a scanner, is connected 1012 to an I / O interface 101 by the controller. The I / O interface 1010 in turn is connected to other parts of the control unit by a data / control bus 1015.

The data / control bus 1015 allows communication between the different parts of the control unit. A control unit further suitably comprises some type of processing possibility, in this example a CPU 1020, which receives its instructions from a program memory 1030 and uses a note memory 1040 for calculations and storage of data. Control and monitoring of various mechanical and electro-mechanical parts of the printer is usually performed through an I / O interface 1060 with inputs 1064 from the printer itself or buttons, and outputs 1062 for motors and / or lamps. The liquid inkjet printer receives image data to be written either directly or after appropriate data processing may conveniently be stored in one or more bitmaps 1051-1056, each bitmap 1059 controlling a number of liquid ink valves as previously described. Conveniently, the processing unit 1020 either reorganizes the bitmaps 1051-1056 directly or only adapts the timing of the output 1059 to the liquid ink valves, unless external delay units as previously described are provided on the outputs 1059 of the bitmaps 1051-1056.

A typical liquid inkjet printer according to the invention comprises six different colors, but may, depending on individual embodiments, comprise more or fewer colors. 10 15 5 2 2 e 0 9 n o ~. . n q | ø e. 18 The basic principle of the invention is to arrange a uniform size and length of passages between liquid ink valves and liquid ink outlets of all outlets of the printhead structure. This is achieved according to the invention by displacing the liquid ink outlets of a printhead structure in a direction parallel to a direction of a movement of the printhead structure, i.e. the liquid ink outlets are not oriented in a direction parallel to the direction of movement of an image receiving surface. This ensures an even writing deposit, the length and size of the passages between liquid ink valves and liquid ink outlets are the same for all valves to ensure a liquid deposit which, among other things, is independent of variations in viscosity of the transported liquid.

The invention is not limited to the embodiments described above, but can be varied within the limits of the appended claims. -. | . u -. u. 10 15 20 25 30 522 609 no - Q n 19 T65 P1sE SPB 2002-10-20 FIGURE 1 101 liquid ink inlet, 105 bottom seal, valve seat, of liquid ink valve, 107 nozzle plate, 109 liquid ink outlet, 110 movable valve body, piston, 112 electromagnetic spool 113 direction of movement of valve body when electromagnet is activated, 114 valve closing springs, 115 direction of spring force, 117 stop part of valve body, 1 18 flow opening.

FIGURE 2 220 width of print area, 221 left print margin, 222 right print margin, 225 holder / transverse print head movement arrangement, 250 direction of movement of image receiving material, 251 direction of movement of print head structure, 260 scan line distance, 261 scan line (270 first outlet, 270 print outlet 27) first liquid ink outlet, 272 second liquid ink outlet, 273 third liquid ink outlet, 274 fourth liquid ink outlet, 275 fifth liquid ink outlet, 276 sixth liquid ink outlet, 10 15 20 25 30 277 278 374 364 375 375 376 375 366 375 364 368 368 378 381 382 383 384 522 609 20 seventh liquid ink outlet, eighth liquid ink outlet. motion direction of image receiving material, motion direction of printhead structure, sweep line distance, sweep line (of first outlet), sweep line (of second outlet), sweep line (of third outlet), sweep line (of fourth outlet), sweep line (of fifth outlet), sweep line (sixth outlet), scan line (the seventh outlet), scan line (eighth outlet), first liquid ink outlet, second liquid ink outlet, third fluid ink outlet, fourth liquid ink outlet fifth liquid ink outlet, sixth fluid ink outlet, seventh liquid ink outlet, eighth liquid ink outlet, the ink channel between the first liquid ink valve liquid ink outlet, ink channel between second liquid ink valve liquid ink outlet, ink channel between third liquid ink valve liquid ink outlet, ink channel between fourth liquid ink valve liquid ink outlet, ou »oo and and and and ø. - - o | uoo first second third fourth 10 15 20 25 30 385 386 387 388 390 391 392 393 394 395 396 397 398 FIGURE 4 405 407 409 418 FIGURE 5 520 521 522 523 522 609 21 ink channel between fifth liquid ink valve liquid ink outlet, ink valve outlet between ink outlet ink channel between seventh liquid ink valve liquid ink outlet, ink channel between eighth liquid ink outlet, distance between two liquid ink valves, first liquid ink valve, second liquid ink valve, third liquid ink valve, fourth liquid ink ink valve, five. bottom seal of liquid ink valve, nozzle plate, liquid ink outlet, flow opening. printhead centerline, distance between centerline and first liquid ink outlet, distance between centerline and second liquid ink outlet, distance between centerline and third liquid ink outlet, and fifth and sixth and seventh liquid ink valves and eighth modified 533 53 53 53 541 542 543 544 545 546 547 548 550 551 560 561 562 563 522 609 g "22 distance between center line and fourth modified liquid ink outlet, line of main modified liquid ink outlet (eighth modified liquid ink outlet), distance of modifier liquid outlet of front main outlet distance between line of main modified liquid ink outlet and other modified liquid ink outlet, distance between line of main modified liquid ink outlet and third modified liquid ink outlet, distance between line of main modified liquid ink outlet and fourth modified liquid outlet , Distance between the line of the primary modified liquid ink outlet and fifth modified liquid ink outlet, distance between the line of the primary modified liquid ink outlet and sixth modified liquid ink outlet, distance between the line of the primary modified liquid ink outlet and seventh modified liquid ink outlet, first modified liquid ink outlet, second modified liquid ink outlet third modified liquid ink outlet fourth modified fluid ink outlets, fifth modified fluid ink outlet, sixth modified fluid ink outlet, seventh modified fluid ink outlet, eighth modified fluid ink outlet, motion direction of image receiving material, modification direction of the printer head sweep line (of other modified outlets), 10 15 20 25 30 564 565 566 567 568 581 582 583 584 585 586 587 588 591 592 593 594 595 596 597 598 FlGUR 6 602 522 609 ~ - on Q ø » u | | | n 23 sweep line (of first modified outlet), sweep line (of eighth modified outlet), sweep line (of seventh modified outlet), sweep line (of sixth modified outlet), sweep line (of fifth modified outlet), modified ink duct between first liquid valve liquid ink outlet, modified ink duct between second liquid ink valve and second modified liquid ink outlet, modified ink duct between third liquid ink valve and third modified liquid ink outlet, modified ink duct between fourth liquid ink valve and fourth modified modified ink duct modified liquid ink sixth liquid ink valve and sixth modified liquid ink outlet, modified ink channel between seventh liquid ink valve and seventh modified liquid ink outlet, modified ink channel between eighth liquid ink valve and eighth modified liquid ink outlet pp, first liquid ink valve, second liquid ink valve, third liquid ink valve, fourth liquid ink valve, fifth liquid ink valve, sixth liquid ink valve, seventh liquid ink valve, eighth liquid ink valve. bitmap. printed / registered, bitmap scan direction, bitmap scan line, bitmap column 1, bitmap column 2, bitmap column 3, bitmap column 4, bitmap column 5, bitmap column 6, bitmap column 7, bitmap column 8 bitmap, line 1 of bitmap, connected to first liquid ink valve, line 2 of bitmap, connected to second liquid ink valve, line 3 of bitmap, connected to third liquid ink valve, line 4 of bitmap, connected to fourth liquid ink valve, line 5 of bitmap, connected to fifth liquid ink valve, row 6 of bitmap, connected to sixth liquid ink valve, row 7 of bitmap, connected to seventh liquid ink valve, row 8 of bitmap, connected to eighth liquid ink valve. modified bitmap, sweep direction of modified bitmap, modified bitmap sweep line, offset line 1, connected to fourth liquid ink valve, offset line 2, connected to third liquid ink valve, offset line 3, connected to second liquid ink valve, offset first valve 4, connected to offset line 4, row 5, connected to eighth liquid ink valve, offset row 6, connected to seventh liquid ink valve, offset row 7, connected to sixth liquid ink valve, offset row 8, connected to fifth liquid ink valve. 10 15 20 25 30 FIGURE 8 811 812 813 814 816 817 818 R1 R2 R3 R4 R5 R6 R7 R8 R8 FIGURE 9 910 920 931 932 933 934 522 609 25 6 bitmap unit delay elements, 7 bitmap unit delay elements, 9 bitmap unit delay elements , 11 bitmap unit delay elements, 2 bitmap unit delay elements, 4 bitmap unit delay elements, 5 bitmap unit delay elements, row 1 from bitmap of figure 6, row 2 from bitmap of figure 6, row 3 from bitmap of figure 6, row 4 from bitmap of Figure 6, row 5 from bitmap of Figure 6, row 6 from bitmap of Figure 6, row 7 from bitmap of Figure 6, row 8 from bitmap of Figure 6. a first printhead structure, a second printhead structure, line spacing of main liquid ink outlet / liquid ink valve and first liquid ink outlet / liquid ink valve, distance between line of main liquid ink outlet / liquid ink valve and other liquid ink outlet / liquid ink valve, distance between line of main hydrogen spoon ink outlet / fluid ink valve and third fluid ink outlet / fluid ink valve, distance between line of main fluid ink outlet / fluid ink valve and fourth fluid ink outlet / fluid ink valve, n a ø Q u n - | Q un 10 15 20 25 30 522 609 26 935 distance between line of main liquid ink outlet / liquid ink valve and fifth liquid ink outlet / liquid ink valve, 936 distance between line of main liquid ink outlet / liquid ink valve / sixth ink ink outlet 37 between line of main liquid ink outlet / liquid ink valve and seventh liquid ink outlet / liquid ink valve, 950 movement direction of image receiving material, 951 movement direction of printhead structure, 958 sweep line of bottom liquid ink outlet / fluid outlet second ink outlet , 961 sweep line of top liquid ink outlet / liquid ink valve of the first print head structure, upper sweep line, an adjacent sweep line to bottom sweep line, 979 angle of print head structure tilt, 988 front fluid ink outlet 9 fluid outlet second ink ink outlet skabläcksventiler, 991 first liquid ink outlet / liquid ink valve 992 second liquid ink outlet / liquid ink valve 993 third fluid ink outlet / vätskebläcksventiI, 994 fourth vätskebtäcksutlopp / liquid ink valve 995 fifth liquid ink outlet / liquid ink valve 996 sixth fluid ink outlet / vätskebläcksventiI, 997 seventh liquid ink outlet / liquid ink valve 998 eighth liquid ink outlet / liquid ink valve, 999 distances (parallel to sweep lines) between the outlet of the main liquid ink of the first printhead structure and the outlet of the main liquid ink of the second printhead structure.

FlGUR 10 1005 interface to liquid ink electro-mechanics, 10 15 20 1010 1012 1015 1020 1030 1040 1051 1052 1053 1054 1055 1056 1059 1 060 1062 1064 522 609 u n | o u. u n o n | | ø ou 27 ln / Out interface for user control of liquid ink printers, communication line to and from users, data and control bus of control unit, processor, CPU, program memory for utility and control program for control unit, typically non-volatile memory such as EPROM or a battery provided RAM, note-taking memory used for variable memory and other data of a temporary nature, typically RAM, first-color bitmap, second-color bitmap, third-color bitmap, fourth-color bitmap, fifth-color bitmap, sixth-color bitmap, bitmap data flow to the corresponding electromagnetic control of liquid ink valves, In / Out interface for controlling and controlling a liquid ink printer, outputs to motors, control lamps and the like, inputs from positions, speed measurements and the like.

Claims (21)

10 15 20 25 30 522 609 28 PATENT REQUIREMENTS A printhead structure of a liquid ink image forming apparatus in which image information is converted into an image pattern on an information carrier, the image pattern is formed by selectively spraying printer fluid through a liquid ink outlet of a liquid deposition portion of the printhead structure with the coordinated displacement. from each outlet, the print head structure has at least two valve units and the liquid deposition unit is arranged in communication with the valve units, each valve unit has a movable valve body which regulates printer fluid through a liquid flow opening in each valve unit, each flow opening is associated with a corresponding liquid. each other in a direction parallel to the first direction, to predetermined positions. The printhead structure according to claim 1, characterized in that a single pass sweep line to sweep line distance is less than a minimum valve unit to valve unit distance. The print head structure according to any one of claims 1 or 2, characterized in that a single pass sweep line to sweep line distance is less than a liquid ink outlet to liquid ink outlet distance. The printhead structure according to any one of claims 1-3, characterized in that the valve units are at least substantially oriented in the first direction and that the printhead structure further comprises liquid ink channels in the liquid deposition part, the channels are arranged «u o o | ø ø n v 10 15 20 25 30 5122 nu nu 29 between flow openings and corresponding liquid ink outlets, the channels have substantially the same length and have substantially the same cross-section. The printhead structure according to claim 4, characterized in that a main extent of the channels is in a channel plane, which channel plane is at least substantially parallel to a plane of the information carrier at the printhead structure. The printhead structure according to claim 5, characterized in that the channels are substantially straight in the channel plane. The printhead structure according to claim 5, characterized in that at least one channel in the printhead structure is curved in the channel plane. The printhead structure according to any one of claims 1-3, characterized in that the valve units are at least substantially oriented at an angle greater than -90 ° and less than 90 ° in relation to the first direction, the flow openings are connected to the corresponding liquid ink outlet through the respective channel, the channels extend in a direction perpendicular to a plane of the information carrier at an outlet in question. The printhead structure according to claim 8, characterized in that the channels have the same length and have the same cross section. The printhead structure according to any one of claims 1 to 9, characterized in that the valve units of the printhead structure have a common liquid ink cavity. The printhead structure according to any one of claims 1-9, characterized in that the valve units of the printhead structure have individual liquid ink cavities. n n «ø o Q a n | v u 10 15 20 25 30 522 609 uu nu 30 The printhead structure according to any one of claims 1 to 11, characterized in that the valve units of the printhead structure all print with the same liquid ink color. The print head structure according to any one of claims 1 to 12, characterized in that the displacement of the liquid ink outlets is such that the predetermined positions of the liquid ink outlets are at full point intervals relative to each other in the first direction. The printhead structure according to any one of claims 1-13, characterized in that the printhead structure comprises eight valve units. An image forming apparatus of a liquid ink in which image information is converted into a bit pattern on an information carrier, the bit pattern is formed by selectively spraying printer fluid through liquid ink outlet of a liquid deposition portion of a print head structure of a printer unit with coordinated movement of the printer; the printer unit moves in a coordinated manner relative to each other in a second direction, which second direction is perpendicular to the first direction, characterized in that the printer unit comprises at least one printer main structure according to any one of claims 1 to 14. The imaging device of the liquid ink according to claim 15, characterized in that the imaging device of the liquid ink comprises the valve units in a control unit, which control unit controls the printhead structure, the control unit either rearranges the bitmaps or delays the outputs of the bitmaps to suit predetermined locations. The image forming apparatus of the liquid ink according to any one of claims 15 or 16, characterized in that the image forming apparatus of the liquid ink is arranged to write with up to four different liquid ink colors. u o u n ~ Q v u n o u 10 15 20 522 609 f '- "= ~' u c o« | oo 31 The image forming apparatus of the liquid ink according to any one of claims 15 or 16, characterized in that the image forming apparatus of the liquid ink is arranged to write with up to six different liquid ink colors. The image forming apparatus of the liquid ink according to any one of claims 17 or 18, characterized in that the printer unit comprises a printer main structure for each individual liquid ink color. The image forming apparatus of the liquid ink according to any one of claims 17 or printhead structures for each individual liquid ink color. 18, characterized in that the printer unit comprises two A method of obtaining less simple pass sweep line distances than the minimum distance of liquid ink valve units in an image forming apparatus comprising at least two liquid ink valve units each having a liquid ink outlet in a printhead structure, the printhead structure having a relative movement relative to an information carrier , characterized in that the method comprises orienting the liquid ink outlets in a direction different from a direction perpendicular to the first direction.