CH691226A5 - Cartridge ink tank for an ink jet printer. - Google Patents

Description

       

  
 



  The present invention relates generally to an ink reservoir cartridge for an ink jet printer, and more particularly to an ink reservoir cartridge which makes it possible to supply the print head continuously with ink, avoiding the problems due to vibrations. or change of temperature or atmospheric. The present invention allows a higher volume of ink in the ink supply tank, a greater percentage of the ink in the tank being further transferred to the print head. This ink tank cartridge can have transparent faces allowing the user to easily determine the quantity of ink remaining, as well as means for limiting unwanted ink movements inside the ink supply tank. .



  In what follows, the ink tank cartridge is equally referred to as "cartridge", "ink cartridge" or "ink tank", for the purposes of abbreviation.



  Various kinds of ink tanks for inkjet printers are known from the prior art. For example, Japanese Patent Publication (Kokai) Number SHO.63-87,242 describes an ink reservoir in which ink absorbing bodies made of porous material are housed in several compartments. Japanese Patent Publication (Kokai) Number HEI.6-40,043 describes an ink tank in which a closed container is divided by a partition so that a compartment containing an ink absorbing body and a compartment storing only ink ink are juxtaposed.



  In the prior art mentioned above, the ink tanks can store a lot of ink so that they can supply the print head for a long time. However, when the ink previously loaded has run out, the ink tank must be replaced with a new one. Replacing the cartridge is inconvenient and may dirty the user's hands with the ink. In addition, throwing away empty tanks means waste and pollution of the environment.



  Consequently, it is desired to have an ink cartridge for an ink jet printer which can be reused, filled quickly and cleanly when the tank is empty and which does not suffer from the other drawbacks of the prior art.



  It is therefore an object of the invention to provide an improved ink cartridge for an ink jet printer.



  Yet another object of the invention is to limit pollution of the environment by virtue of an ink tank which can be filled several times.



  Another object of the invention is to provide a filling tool for an ink tank which can separately fill several compartments of the ink tank.



  Another object of the invention is to provide a filling set comprising a set of injection devices and an ink absorbing body.



  The present invention fulfills the aims and objects described above. The ink reservoir cartridge is defined in the first independent claim 1, a cartridge filling tool in the second independent claim 17, a filling set for use with an ink cartridge in the third independent claim 19, and an ink injection device in the fourth independent claim 24. The dependent claims relate to special embodiments of the invention as defined in the independent superordinate claim.



  In general, the invention provides an ink tank cartridge for an inkjet printer which can be filled quickly and cleanly by the user, and then be reused, as well as a tool for refilling the tank. The interior of the ink tank is divided by one or more partitions into several compartments, at least one of these compartments accommodating an ink absorbing body. The ink tank is further provided with a cover, an openable portion of which corresponds to at least one of these compartments.



  In another embodiment, the cover of the reservoir is provided with an ink supply hole allowing the filling of the reservoir by means of an ink injection device. In a preferred variant, the partitions are detachably fixed inside the cartridge.



  Preferably, at least one of the compartments inside the ink container cartridge does not contain an ink absorbing body. An openable fill hole is formed in a portion of the cover corresponding to the empty compartment. An ink supply port with a through hole is formed at the bottom of the compartment and protrudes inside the compartment containing the ink absorbing body. The ink absorbing body is elastically compressed by the ink supply orifice, the compression of the body being thus higher near this orifice. A projection extends from the cover and compresses the ink absorbing body toward the ink supply port. An ink injection device comprises a container containing the ink which is to be injected into the ink tank.

   The container allows visual observation of the ink. A scale, indicating the amount of ink used, is formed on the container. A needle is coupled to the container. The needle is provided with a scale indicating the depth of penetration of the needle. The ink injection device, when combined with a filling pack or with an ink absorbing body, forms an ink filling set for the printing device.



  The ink cartridge can be refilled by opening the cover and removing the ink absorbing body. The container is pivoted so that the compartment containing the ink absorbing body is positioned above a second compartment. An ink absorbing body is loaded in the first compartment and ink is stored in the ink absorbing body. The cover uses the ink injection device and the first compartment is then closed.



  In a preferred variant, there may be several compartments containing ink absorbing bodies, the ink absorbing bodies having a volume greater than the capacity of the compartments.



  In a preferred variant, the ink supply needle of the filling tool is threaded through an air ventilation hole in the cover of a first compartment of the ink tank, the ink tank comprising several compartments divided by a partition, the compartments partially communicating with each other via a communication hole. The needle of the ink injection device passes through the ink absorbing body, a contiguous removable seal and the second ink compartment containing no ink absorbing body is removed to open an air supply hole , the ink absorbing body being filled with ink from this compartment.

   The empty compartment without the absorbent body can also be filled by the injection device through a filling formed in the cover above the empty compartment.



  In another variant, the partition forming the compartments is removed and the ink absorbing body is then loaded inside.



  Other characteristics and advantages of the present invention will become more apparent on reading the description which follows and the appended drawings which illustrate by way of example and not limitation of the variant embodiments of the present invention.
 
   Fig. 1 is a schematic view showing an ink supply system for an inkjet type printing device, according to a variant of the present invention.
   Fig. 2 is a cross section of an ink tank constructed according to a first variant of the invention.
   Fig. 3 is another cross section of the ink tank of FIG. 2.
   Figs. 4 (a), 4 (b) and 4 (c) are schematic diagrams illustrating the steps of supplying ink to an ink tank according to the first variant of the invention.
   Fig.

   5 is a cross section of an ink tank constructed according to a second variant of the invention.
   Fig. 6 is a schematic diagram illustrating the steps of supplying ink to the ink tank of FIG. 5.
   Fig. 7 is a cross section of an ink tank constructed according to a third variant of the invention.
   Figs. 8a and 8b are schematic diagrams illustrating the steps of filling ink with an ink tank according to FIG. 7.
   Fig. 9 is a cross section of an ink tank constructed according to a fourth variant of the invention.
   Fig. 10 is a schematic diagram illustrating the steps of filling ink with the ink tank of FIG. 9.
   Fig. 11 is a cross section of a filling package constructed according to the invention.
   Fig.

   12 is a perspective view of the filling package of FIG. 11 and showing in dashed line the orifice for ink.
   Fig. 13 is a cross section of an ink filling tool and an ink tank constructed in accordance with a fifth variant of the present invention.
   Fig. 14 is a cross section of an ink tank constructed and filled according to a sixth variant of the present invention.
   Fig. 15 is an elevational view of an ink injection device constructed according to the invention.
   Fig. 16 is an elevational and enlarged view of a supply needle of the ink injection device of FIG. 15.
   Fig. 17 is a top view of an ink filling set constructed according to the invention.
   Fig. 18 is a cross section taken along line 39-39 in FIG. 17.
 



  It is known that a printhead can be used in color printers or in four-color plotters, and that it is equipped with ink systems of four colors and ink jets in these four colors. The quadricolor plotter uses black, red, green and blue inks, and moves the head or a sheet of paper, or both, and then ejects the ink of desired color to a prescribed position on the paper, as in a head conventional inkjet printing, so as to form an ink dot. Desired characters and figures can be printed as well by repeating this cycle.

   The present invention applies to inkjet printers of all types, including printheads using the heat of heating resistors or equivalent, or the displacement of a piezoelectric element or a transducer for projecting a drop of ink from a compartment when applying a print signal. The ink supply reservoirs according to the invention can supply ink continuously to said compartments via a capillary path.



  In a color inkjet printer using inks of four colors, i.e. black, red, green and blue, a sheet of paper is scanned by a print head in a direction perpendicular to the direction paper, so as to form a line of dots when scanning, and then the paper is advanced in steps of one line to print images. In seven-color printers, inks of four colors, that is, black, yellow, magenta and cyan, are used, and the colors red, green and blue are obtained on a sheet of paper by overlapping inks of two of the three colors, except black, thereby printing color images with seven colors.



  As the present invention relates to ink tank cartridges, a detailed description of the construction of the entire printer will therefore only be given by means of a single example.



  Fig. 1 is a schematic view illustrating an ink supply system of an ink jet type printing device according to an embodiment of the present invention.



  An ink jet type print head unit 1 is connected to an ink tank 3 by a connection element 2. Ink is supplied from the ink tank 3 to the head unit 1 by means of a hollow needle 2a and an ink supply conduit 2b of the connection element 2, so that the print head unit 1 emits drops of ink in accordance with the printing signals.



  The apparatus illustrated in fig. 1 also includes a cap 4 placed in a portion from which it is not printed, said cap 4 abutting against the ejection plate of the print head unit 1 by means of a control mechanism not illustrated. to prevent the ejection nozzles from drying out. The cap 4 is connected by a tube 8 to a suction pump 5 controlled by a control device 6 for sucking the ink from the print head unit 1 through the cap 4. The apparatus illustrated in FIG. 1 is also provided with a residual tank 7 connected via a tube 9 to an evacuation orifice of the suction pump 5.



  The print head can be of any type, for example of the type described in patent documents EP-0 581 531, EP-0 609 863, EP-0 584 823, etc.



  Figs. 2 and 3 illustrate an ink tank 1000 constructed according to a first variant of the invention and comprising a partition 610 inside a container 601, so as to form first and second compartments 611 and 612. In the tank ink 1000, two compartment walls 613A and 613B extend in a direction perpendicular to the separation 610 and are placed so as to form three equal first adjacent compartments 611A, 611B, 611C, commonly designated 611, of the second compartments 612A, 612B and 612C associated respectively with each first compartment 611A, 611B and 611C being provided but not illustrated in FIG. 3. The structure and operations of compartments 611A to 611C are identical, so that a single representative compartment 611 will be described below for ease of description.



  Ink absorbing bodies 615A, 615B and 615C (collectively 615) are housed in the first corresponding compartments 611. Yellow, magenta or cyan ink is absorbed by each ink absorbing body 615. Each ink absorbing body 615 is a porous body which can be formed, for example, by foaming a material of polyurethane type. Each body 615 has a volume greater than the capacity of the corresponding first compartment 611, and is therefore compressed in said respective compartment 611. An associated ink supply orifice 620A, 620B or 620C (collectively 620) is placed in the bottom of the first compartment 611.



  A first compartment 611 is provided with an ink supply orifice 620 traversed by an ink supply needle of a print head (see fig. 1). The ink supply port 620 has a tubular shape. The top 622 of the ink supply orifice 620 is covered by a filter 621 and bears against the ink absorbing body 615, so as to slightly compress the ink absorbing body near said orifice 620, increasing thus the capillary force with which the ink flows. A body 624, having an opening 624 min, is engaged in a through hole 623 of the ink supply port 620 through which the ink supply needle is engaged, thereby forming a liquid tight seal with body 624.

   Additional ink is stored in each second compartment 612A, 612B and 612C (collectively 612) communicating with the corresponding first compartment 611 through a slot-shaped hole 610 in the lower portion of the partition 610. A rib 614 extends around container 601.



  A cover 630 is placed on the opening above the container 601. The cover 630 hermetically closes the second compartments 612 and can be folded along a hinge-like portion 631, so that the cover 630 can be opened. convex portion 632 is formed at the periphery of the cover 630 and directed inward. The convex portion 632 is removably engaged with the rib 614 formed at the top of the container 601 and directed outwards, the openings above the first compartments 611 being thus able to be selectively closed.



  An air ventilation hole 633 is formed in the cover 630, so that an amount of ambient air corresponding to the amount of ink consumed can enter the interior of the container 601.



  In fig. 2, the reference numbers 634A and 634B designate compression fingers which extend vertically from the internal surface of the cover 630 and compress the ink absorbing bodies 615 against the ink supply orifice 620. (Each compartment 611A, 611B and 611C is fitted with corresponding compression fingers 634A and 634B (this configuration is described in general, but applies to each similar container). When the opening above the container 601 is closed by the cover 630, the compression fingers 634A and 634B partially press against the bottom the ink-absorbing bodies 615. The compression finger 634A opposite the ink supply orifice 620 is longer than the compression finger 634b placed offset from this orifice 620.

   These compressing fingers cooperate with the ink supply port 620 to further compress the portion of the ink absorbing body close to the ink supply port 620.



  During printing, the method of using the ink tank 1000 is similar to that used with the tanks of the prior art. However, when the ink in container 601 is used up as a result of the printing operation, the inventive ink tank can be refilled rather than discarded. The method of filling ink in container 601 will be described later in connection with FIGS. 4a-4c.



  When the ink cartridge must be refilled, the cover 630 is manually opened in the direction of the arrow a1 around the hinge-like portion 631 operating as a hinge, so that the convex portion 632 of the cover 630 is released from the outer rib of the container 601. The cover 630 is then moved as indicated by the dashed line in FIG. 2, so as to open the compartment 611A. Then, the empty ink absorbing body 615A can if necessary be removed from the first compartment 611A in the direction of arrow B1.



  Following this, the container 601 is turned in the direction of the arrow c1 by 90 DEG, so that the first compartment 611 is positioned above the second compartment 612 as shown in FIG. 4b. The ink is injected by means of an injection device 4000 into the second compartment 612 via the communicating hole 610 min in the separation 610, in the direction of the arrow d1.



  As illustrated in fig. 15, an injection device 4000 comprises a container 4100, which can be transparent, on which a ladder 4200 can be formed. The user can thus observe the quantity of ink injected into the second compartment 612. A needle 4300 is coupled to the container 4100, so that the fluid communicates between the two.



  An ink absorbing body 615A is then inserted into the first compartment 611A, and the ink is injected into the ink absorbing body 615A by the injection device 4000 as illustrated in FIG. 4c. If the ink absorbing body 615A has not been initially removed, the ink will be injected into the two compartments with the body 615A still in place in the first compartment 611A. This process is repeated for all the compartments to be refilled.



  Finally, the cover 630 is closed in the direction of the arrow f1, the convex portion 632 is engaged with the external rib 614, so as to return the ink tank to the state illustrated in FIG. 2, thus completing the filling process with fresh ink.



  Figs. 5 and 6 illustrate an ink tank constructed according to a second embodiment of the present invention. Identical reference numbers designate elements identical to those of the first embodiment, and their description will be omitted here. The main difference is a through hole for supplying ink to the interior of the ink tank.



  A through hole 616A is formed in a side wall 616 of the compartment 611A of the ink tank 2000, a seal 617 being applied to this hole. During the filling process, the cover 630 is opened, the body absorbing the emptied ink 615A removed, the new body absorbing the ink 615A replaced in the reservoir and the cover 630 closed as described above.



  The ink is then introduced into the 615A ink absorbing body as described below. The seal 617 is first removed. The ink container 2000 is then rotated 90 DEG, so that the first compartment 611 is located above the second compartment 612 as illustrated in FIG. 6, thereby providing access to an open through hole 616A. The feed needle 4300 of the injection device 4000 is inserted into the compartment 611A via the through hole 616A, and the ink is then injected into the reservoir. In a preferred variant, the tip of the supply needle 4300 is first of all positioned near the communicating hole 610 min, and the ink is injected into the second compartment 612.

   Then, the feeding needle 4300 is slightly retracted, and the ink is injected into the ink absorbing body 615A, so that the ink is efficiently distributed in the first and second compartments 611A and 612. The through hole 616A is then closed by the seal 617. In a variant, a strip of tape having a great adhesion force can be used in place of a seal 617. The feed needle 4300 then pierces the tape and feeds in ink the ink tank. In this way, the seal 617 does not need to be removed and replaced in the through hole 616A.



  If the ink absorbing body does not need to be replaced by a fresh ink absorbing body, the ink can be supplied to fill the ink tank through the through hole 616A using a injection 4000, the cover 630 remaining in this case closed on the top of the container 601.



  Figs. 7, 8a and 8b describe an ink tank 5000 constructed according to a third embodiment of the invention. Identical reference numbers designate elements identical to those of the first embodiment, and their description will be omitted here.



  A container 6100 is divided into first and second compartments 6120 and 6120A by a partition 6110, the compartments 6120 and 6120A respectively housing the ink absorbing bodies 6200 and 6300. A cover 6130 is removably attached to the opening at the top of the container 6100, so that the first and second compartments 6120 and 6120A are opened at the same time. A convex portion 6132 formed at the periphery of the cover 6130 and directed towards the inside is engaged in a removable manner with a rib 6140 formed on the container 6100 and directed towards the outside.



  To fill the ink tank, the convex portion 6132 facing inward is released from the outer rib 6140, and the cover 6130 is removed from the top of the container as shown in dashed lines. The emptied ink absorbing bodies 6200 and 6300 are extracted from the first and second compartments 6120 and 6120A, and fresh ink absorbing bodies 6200 and 6300 are then introduced into compartments 6120 and 6120A respectively. If either of the ink absorbing bodies 6200 or 6300 is not damaged and can be reused, then this ink absorbing body does not need to be replaced.



  As in the first variant, the empty ink tank 5000 may not have an ink absorbing body in the second compartment 6120A.



  The filling of the ink tank illustrated in fig. 7 and 8 will now be described.



  Once the ink is used up in the ink tank 5000, the convex portion 6132 is released from the external rib 6140, and the cover 6130 is removed from the container 6100 in the direction of the arrow a3 (fig. 8a). This movement of the cover 6130 opens the first and second compartments 6120 and 6120A of the container 6100.



  The ink absorbing bodies 6200 and 6300 are then extracted if necessary from the first and second compartments 6120 and 6120A in the direction of arrow b3 (fig. 8a). Bodies absorbing the fresh ink 6200 and 6300 are then forced into the first and second compartments 6120 and 6120A in the direction of the arrows c3 and d3, so as to be accommodated and compressed in the compartments 6120 and 6120A (fig. 8b).



  Sufficient ink is then injected into the ink absorbing bodies 6200 and 6300 using the ink injection device 4000. Finally, the cover 6130 is lowered in the direction of the arrow e3 so as to enter contact with the opening above the container 6100. The inwardly convex portion 6132 engages with the outer rib 6140, thereby sealingly closing the cover 6130 and completing the filling process.



  Figs. 9 and 10 illustrate an ink tank constructed according to a fifth embodiment of the invention. Identical reference numerals designate elements identical to those of the previous embodiments, the main difference being constituted by a removable partition to define the individual compartments. The ink tank 5000 includes a separation 6110 min which separates a first compartment 6120 from a second compartment 6120A. The separation 6110 min is removably and slidingly fixed to the container 6100 as indicated by the dashed line 6110 min min. The 6110 min divider can be removed to form a single compartment as a combination of compartments 6120 and 6120A.



  As illustrated in fig. 10, to fill the ink tank, the cover 6130 is first removed, an ink absorbing body 6400 is then removed, and the separation 6110 min is also removed in the direction indicated by the arrow g4. An ink absorbing body 6500 is then loaded so as to fill the container 6100. Ink is then injected into the ink absorbing body 6500 by the ink absorbing device 4000. The cover is then closed.



  Figs. 11 and 12 describe a filler pack 7000 to be used in combination with the four embodiments described. A 7000 filling pack allows clean handling of the 6500 ink absorbing bodies.



  As illustrated in fig. 11 and 12, the filling pack 7000 comprises a housing 6510 comprising at least one upper wall 6511 and a lower wall 6514 and contains an ink absorbing body 6500 impregnated with ink. The ink absorbing body 6500 has been previously compressed and is housed in an empty case similar to a cube 6510, made of an air-impermeable material by laminating thin plastic sheets or metallic sheets for example. A through hole 6512 is formed in the top wall 6511. The through hole 6512 can be opened by means of a detachable seal 6513. Likewise, a through hole 6515 is formed in the bottom wall 6514 and can be opened by means of a detachable seal 6516.



  The filling pack 7000 is used in the following manner. The separation 6110 min from the ink cartridge 6000 is removed from the container 6100, and the detachable seals 6513 and 6516 are removed from the housing 6510. The housing 6510 is then loaded into the container 6100 and fixed to the supply port in 620 ink to supply ink to the printer. The housing 6510 can be fixed to the supply orifice 620 by the through hole 6515 formed in the bottom wall 6514, a filter 621 made of a flexible material such as plastic (see for example the reference number 621 in fig 12) can be fixed at the opening.

 

  By compressing the ink absorbing body 6500, compression can be performed over the entire body or alternatively compression can be performed selectively in the lateral or vertical direction.



  Several 6510 boxes can store several bodies absorbing the 6500 ink, respectively absorbing inks of various colors such as yellow, magenta and cyan. The housing can be optionally fixed and removed from the respective first compartments 611A, 611B and 611C illustrated in FIG. 3.



  Fig. 13 illustrates an ink tank 8000 and an ink filling tool 9000 constructed according to a fifth embodiment of the invention. Elements identical to those described in relation to the previous embodiments are indicated by the same reference numerals.



  An ink tank 8000 has a cover 1300 fixed to a container 1000. The container 1000 is divided into a first compartment 611 and a second compartment 612 communicating with each other by a communication hole 610 min. An ink absorbing body 615 is placed in the first compartment 611. An air ventilation hole 1330 is formed in the cover 1300.



  A filling tool 9000 illustrated in fig. 13 is used to fill the container 1000. The filling tool 9000 comprises a container 9100 connected to a feeding needle 9200 extending vertically downwards. An air supply hole 9300 is formed in the top of the filling container 9100 and is closed by a detachable seal 9400. To replenish ink, the supply needle 9200 pierces the ink absorbing body 615 in a first compartment 611. The detachable gasket 9400 is then removed as indicated by the dashed line in fig. 13, which opens the air supply hole 9300 and allows air to enter the container 9100. The air entering the container 9100 allows the ink to be injected by the supply needle 9200 and enter the ink absorbing body 615.

   In order to allow the air inside the ink absorbing body to escape during the ink filling, a small gap is formed in a preferred variant between the air ventilation hole 1330 and the needle 9200, or another air ventilation hole is provided in another portion of the cover 1300.



  When degassed ink is used, it can feed the container 1000 more effectively because it can absorb when it falls by gravity the smallest air bubbles contained in the ink absorbing body 615. Ink can therefore be supplied which improves the reliability of the print head. In a preferred embodiment, an amount of ink approximately smaller than half the capacity of the first compartment 611 can be supplied.



  Fig. 14 illustrates an ink container constructed according to a sixth variant of the invention. Identical elements to those described in relation to the previous embodiments are indicated by the same reference numerals, the main difference between this embodiment and the ink tank 8000 being constituted by a filling hole in the cover above of the second compartment.



  An ink tank 10000 comprises a first compartment 611 of a container 1000 housing an ink absorbing body 615. In order to supply ink directly to a second compartment 612 contiguous to the first compartment 611 and which does not contain a body absorbing the ink 615, a filling hole 2410 is formed in a cover 2400 fixed to the container 1000. The filling hole 2400 is closed selectively and so that it can be opened by a removable seal 2420. When the reservoir ink 10000 must be refilled, the filling hole 2410 is opened by removing the removable seal 2420. Then, the supply needle 4300 of an injection device 4000 is passed through the filling hole 2410 and the ink is injected into the second compartment 612.

   In a preferred variant, it is preferable to form a small gap between the filling hole 2410 and the supply needle 4300 or to form an air ventilation hole 10100 in a portion of the cover 2400 to allow the air escape during filling.



  A synthetic tape with a large adhesive force can be used instead of a removable seal 2420. The supply needle 4300 then passes through the synthetic tape as illustrated in FIG. 14, and the ink is injected in this way.



  Figs. 15 and 16 describe the injection device 4000 already mentioned which has a shape similar to a syringe. A scale 4200 is formed on the container 4100 of the injection device 4000, and scales M1 to M7 are indicated on the supply needle 4300 in its longitudinal direction, as indicated in FIG. 16. During the use of the injection device 4000, the quantity of ink supplied can be viewed by looking at the scale 4200. The depth at which the feeding needle 4300 has been inserted into an absorbent body l The ink can be detected using the scales M1 to M7, so that the ink is injected at the desired depth into the ink absorbing body.

   The ink injection device 4000 is preferably filled with previously degassed ink, and is surrounded and stored in an air-impermeable material such as aluminum or aluminum laminate before use in the filling process. This improves print quality by removing air bubbles that may remain in the ink absorbing body. As required, the degassed ink is stored in a non-illustrated storage package made of a gas-impermeable material. Several storage packages and an associated empty injection device 4000 can be delivered as an ink refill kit.



  Figs. 17 and 18 illustrate an ink filling set 11000 constructed according to the invention. In an ink filling set, inks of different colors are respectively stored in each of a plurality of ink injection devices 4000A, 4000B, 4000C described in connection with FIG. 15. The injection devices are arranged on a base plate 11100. An ink absorbing body 12000 can also be placed on the base plate 11100. These components can be covered by a cover sheet 11200 provided with housings 11300 to 11600 corresponding to the external shape of the injection devices 4000 and of the ink absorbing body 12000, thus constituting an ink filling set 11000.

   When the game is to be used, the cover sheet 11200 is removed from the base plate 11100, one of the injection devices 4000 and the ink absorbing body 12000 are removed from their housing and used to fill the ink .



  The ink injection devices 4000 containing the ink and the ink absorbing body 12000 can also be packaged separately in ink refill sets rather than grouped in a single ink refill set. If the black ink tank and the color ink tanks have different capacities, several ink absorbing bodies can be provided, each with a volume corresponding to the associated ink container. These different ink absorbing bodies can be supplied in the same or in different ink filling sets. The corresponding ink injection devices will also have sufficient ink volume to fill the associated ink container and the ink absorbing body.



  As illustrated above, the ink injection device can be supplied already filled with ink. However, it is also possible to provide a storage package with ink contained therein and an empty ink injection device. These can be supplied in the same or in different ink refill sets. Any combination of ink, ink tank, ink injector, and ink absorbing body can be provided while remaining within the scope of this invention.



  The invention described above provides the following advantages:



  (1) the ink tank can be reused.



  Since ink or an ink absorbing body can easily be supplied to the various compartments separated from each other by a separation in the container of the ink tank, the ink tank can be reused practically indefinitely. Since the empty ink tank must not be discarded, environmental pollution is further prevented. The invention is therefore highly effective.



  (2) The ink filling process is carried out cleanly.



  By opening the lid of the ink tank container, the ink absorbing body can be filled with ink cleanly without dirtying anything out of the ink tank. Alternatively, since ink can be supplied using the ink injection device or the ink filling tool without opening the container lid, the user leaves the ink dirty.



  (3) The ink filling process is carried out efficiently.



  A precise amount of ink can be efficiently supplied to the ink housing or ink absorbing body, using a filling pack, an injection device, or a filling set. The efficiency of the filling work can thus be improved.


    

Claims (24)

    1. Ink tank cartridge (1000) for an ink jet printing device comprising:  several compartments (611, 612),  an ink absorbing body (615) housed in at least one of said compartments; and  a cover (630) fixed to the top of said cartridge, at least a portion of said cover being selectively open, said portion of said cover being open corresponding to at least one of said compartments. 2. Ink tank cartridge (1000) according to claim 1, comprising:  a first compartment (611),  a second compartment (612) associated with said first compartment,  said ink absorbing body (615) being housed in at least one of said first and second compartments, and  a partition wall (610) separating said first compartment from said second compartment. 3.  An ink reservoir cartridge (1000) according to claim 2, characterized in that said opening portion of said cover corresponds to said first compartment (611) which contains the ink absorbing body (615). 4. Ink tank cartridge (1000) according to claim 2, characterized in that said partition wall (610) is removably fixed inside said cartridge (1000). 5. ink tank cartridge (1000) according to claim 4, characterized in that said ink absorbing body (615) is housed in said ink tank cartridge when said partition wall is removed. 6.  Ink tank cartridge (1000) according to claim 2, characterized in that it comprises an ink supply orifice (620) formed in a wall of said first compartment (611) for transmitting the ink outside the cartridge and an ink filler package (7000), said ink filler package containing an ink absorbing body (6500) containing ink, said ink filler package having at least one top wall (6511) and a bottom wall (6514) and being provided with a first through hole (6512) which can be selectively open in the top wall, and a second through hole (6515) which can be selectively open in the bottom wall, said ink filling package being dimensioned so as to be able to be housed at least in said first compartment (611) of said ink reservoir cartridge (1000)  and that said ink supply port (620) corresponds to said through hole (6515) in said bottom wall of said ink filler pack. 7. ink tank cartridge (1000) according to claim 6, characterized in that said partition wall (610) is removably fixed inside said cartridge, said filling pack (7000) being dimensioned so practically occupying said first and second compartments (611, 612). 8. ink tank cartridge (1000) according to claim 2, characterized in that said ink absorbing body (615) is in said first compartment (611), the volume of said ink absorbing body before insertion into said first compartment being greater than the volume of said first compartment. 9.  Ink tank cartridge (1000) according to claim 2, characterized in that it further comprises an ink inlet orifice (620) passing through and projecting beyond a wall of said first compartment (611) containing said absorbent body the ink (615), said ink inlet port transmitting ink from said ink absorbing body, said ink absorbing body being partially compressed by the ink inlet port near the latter . 10. ink tank cartridge (1000) according to claim 9, characterized in that it further comprises at least one projection (634) formed in an internal wall of said first compartment and disposed on a surface (630) of said first compartment (611) opposite said intake port (620), said projection helping to compress said ink absorbing body (615) against said intake port. 11.  Ink tank cartridge (1000) according to claim 2, characterized in that it comprises several first and second compartments (611, 612) and several partition walls (610), each first compartment (611) being separated from a second compartment (612) corresponding by a partition wall (610), each said first compartment housing a corresponding ink absorbing body (615), the portion of said cover (630) being able to be opened corresponding to each of said first compartments (611) . 12. ink tank cartridge (1000) according to claim 11, characterized in that at least one of said partition walls (610) is removably fixed inside said cartridge (1000). 13.  Ink tank cartridge (1000) according to claim 12, characterized in that said ink absorbing body (615) is housed in said ink tank cartridge when said partition wall (610) is removed. 14. ink tank cartridge (1000) according to claim 11, characterized in that it further comprises an ink supply orifice (620) formed in a wall of each of said first compartments (611) and a packet of filling (7000), said filling package containing an ink absorbing body (6500) containing ink, said filling package having at least one upper wall (6511) and one lower wall (6514) and being provided with a first through hole (6512) which can be selectively open in the upper wall, and a second through hole (6515) which can be selectively open in the lower wall,  said ink filling pack being dimensioned so as to be able to be housed at least in said first compartment (611) of said ink reservoir cartridge and so that said ink supply orifice (620) corresponds to said through hole ( 6515) in said bottom wall of said ink filling package. 15. ink tank cartridge (1000) according to claim 14, characterized in that said partition wall (610) is removably fixed inside said cartridge (1000), said filling pack (7000) being dimensioned so as to practically occupy said first and second associated compartments (611, 612). 16.  Ink tank cartridge (2000) according to claim 2, characterized in that it further comprises a through hole (616A) which can be selectively opened, formed in a wall (616) of said cartridge, and through which the ink can be injected. 17. Filling tool (9000) for use with an ink tank cartridge (8000) according to claim 16, characterized in that it comprises:  an ink supply needle (9200) adapted to be able to be inserted into a compartment (611) of an ink reservoir cartridge,  a reservoir (9100) adapted to contain ink and provided in one of its walls with an air supply hole (9300), the ink inside said reservoir communicating with said needle, so that the ink can be loaded into said ink tank cartridge (8000). 18.  A filling tool according to claim 17, wherein said ink supply needle (9200) is connected to a bottom wall of said tank (9000) and said air supply hole (9300) is formed in an opposite wall of said tank . The ink refill set (11000) for use with an ink reservoir cartridge according to claim 16, comprising one or more ink injection devices (4000), each of said ink injection devices comprising an ink supply needle (4300) adapted to be inserted into a compartment of an ink reservoir cartridge and a container (4100) which may contain a fluid communicating with said ink supply needle. 20.  The ink filling set according to claim 19, further comprising at least one ink absorbing body (12000) of a size capable of replacing an ink absorbing body in a said ink reservoir cartridge. 21. ink filling game according to claim 19 or 20, characterized in that said containers contain ink, a first scale (4200) formed on the outside of said containers indicating the amount of ink remaining in said container (4100), a second scale (M1-M7) formed on said ink supply needle indicating the penetration depth of said ink supply needle (4300). 22. Ink filling set according to claim 19 or 20, characterized in that said ink injection devices (4000) each contain one of several colored inks. 23.  Ink filling set according to claim 19 or 20, characterized in that each of said ink injection devices (4000) contains enough ink to fill said ink tank cartridge (1000; 2000; 5000 ; 6000). 24. An ink injection device (4000) for an ink filling set according to any one of claims 19 to 23, comprising:  an ink supply needle (4300) adapted to be inserted into a compartment of an ink reservoir cartridge,  a scale (M1-M7) indicating the depth of penetration of said ink supply needle (4300).