The present invention relates to a technique for filling ink in an ink cartridge of a recording apparatus for effecting printing on a recording medium by ejecting ink droplets through a nozzle opening upon receiving the supply of ink from a replaceable ink cartridge, as well as an apparatus therefor.
For example, an ink-jet type recording apparatus includes a recording head for ejecting ink droplets through a nozzle opening by supplying a drive signal to the piezoelectric vibrator, the heat generating unit, or the like in correspondence with print data, and pressurizing ink in a pressure generating chamber by energy generated by a piezoelectric vibrator, a heat generating unit, or the like, and an ink cartridge for supplying ink thereto.
The print quality is determined by the resolution of the recording head and is greatly influenced by the viscosity of the ink, the degree of blurring on a recording medium, and the like. Therefore, with a view to improving the print quality, efforts have been made to improve the ink characteristics and improve a drive signal to be supplied to the recording head, and efforts have been made to improve maintenance conditions including the period of blank ejection and forcible ejection in a capped state in order to prevent the clogging of the nozzle opening.
Thus, only when not just the ink characteristics but the ink characteristics, the method of driving the recording head and the like are improved as a whole, the print quality of the recording apparatus improves. It may be possible to incorporate the results based on such technological development into ink-jet type recording apparatuses that are newly manufactured. However, in order to apply such technological development to are cording apparatus which has left the manufacturer, it becomes necessary to bring the recording apparatus to the manufacturer and replace its storage unit in which control data is recorded, so that it is almost impossible to do so in the light of such as the cost and trouble.
Therefore, as disclosed in JP-A-5-193127 and the like, a technique has been proposed in which an ink cartridge is provided with a storage unit, and the characteristics of the ink, the amount of ink, driving conditions, and the like are stored in this storage unit, while, on the recording apparatus side, the driving conditions are adjusted in correspondence with these items of information.
Incidentally, as for the ink cartridges which are conventionally discarded as expendables and the cartridges integrated with recording heads as well, there has been a growing need for the manufacturers to collect then as practically as possible so as to strive for the protection of the environment. In conjunction with this need, an attempt has been made to fill the ink into the collected ink cartridges and recycle them. However, collection expenses and the cost of inspection are additionally incurred, so that there is a problem in that the cost of the recycled products increases.
Accordingly, an object of the invention is to provide a method of filling an ink cartridge and an apparatus therefor, which make it possible to promote the recycling of the ink cartridges and make effective use of resources by effectively utilizing the storage unit attached to the ink cartridge.
Another object of the invention is to provide a method of filling an ink cartridge and an apparatus therefor, which make it possible to promote the recycling of the ink cartridges by allowing end users to actively participate, while effectively utilizing the storage unit attached to the ink cartridge.
In order to solve the aforesaid object, the invention is characterized by having the following arrangement.
In The present disclosure relates to the subject matter contained in Japanese patent application Nos. 2000-157564 (filed on May 29, 2000) and 2000-321293 (filed on Oct. 20, 2000), which are expressly incorporated herein by reference in their entireties.
FIGS. 2(a) and 2(b) are diagrams respectively illustrating an embodiment of a cartridge for color inks to which the ink filling technique in accordance with the invention is applied, in which FIG. 2(a) illustrates a state in which the cartridge is closed by a cover, and FIG. 2(b) illustrates a state in which the cover is removed;
FIGS. 3(a) and 3(b) are diagrams illustrating an embodiment of a storage unit provided on the ink cartridge;
FIGS. 13(a) and 13(b) are perspective views illustrating examples of the ink cartridge and a cartridge loading unit;
FIGS. 19(a) and 19(b) are flowcharts respectively illustrating the operation of the ink vending machine.
The present invention will be described hereinafter with employing an ink cartridge as an example, and is not limited to the ink cartridge.
FIGS. 2(a) and 2(b) respectively show an embodiment of a cartridge 20 for color inks. The cartridge for color inks is constituted such that a container 21 is divided into a plurality of chambers 23 by partition walls 22, porous members are respectively accommodated in the chambers 23, and the porous members, which are similar to the porous member 12 for the cartridge 10 for a black ink, are respectively impregnated with inks of different colors, and an upper surface is closed by a cover 24. Ink supply ports 25, which are airtightly engaged with ink supplying needles 45, respectively, when the ink cartridge is loaded on the carriage 42, is formed in a bottom surface of the container 21, and a storage unit 25 is fixed to one side surface of the container 21.
As shown in
In addition to storing fixed data such as the date of manufacture, durable years, and the number of refillable times, the semiconductor storage 32 is adapted to be able to store the following in such a manner as to be capable of storing them in a rewritable manner as required in predetermined regions:
The print controlling unit 51 reads out optimized driving conditions stored in the storage unit 15 and 26 of the ink cartridges 10 and 20 through an access unit 53, and executes print control. Consequently, even in the case of a recycled product which has been refilled as will be described later, it is possible to adjust a drive signal to the recording head 46 so as to eject ink as ink droplets suitable for printing.
The controller 49 measures the amount of ink discharged for the printing operation, the prevention of clogging, and the like on the basis of the number of ink droplets, the period of driving and the number of revolution of a pump unit P for supplying negative pressure to the recording head 46, and so on, and updates data stored in the storage unit 15 and 26 of the respective cartridges 10 and 20 through a read/write controlling unit 54 at a predetermined period, e.g., at a point of time when the printing of a series of print data has been finished, or at a point of time when the turning off of the power has been instructed by a software switch.
It should be noted that, in the case of the cartridge 20 for color inks, the amount of ink consumption is measured by being distinguished for each type of ink of the respective color, and its amount of consumption or the remaining amount is stored in the storage unit 26 by being distinguished for each color.
The read/write controlling unit 54 writes in the storage unit 15 and 26 of the ink cartridges 10 and 20 data in a data storage unit 55 which stores data on the working environment of the recording apparatus detected by a working-environment detecting unit 55, the number of flushing operation by the flushing controlling unit 52, and the number of cleaning operation by a cleaning controlling unit 56 as well as the amounts of consumption of the ink of the respective colors at a predetermined period, e.g., at a point of time when the printing of a series of print data has been finished, or at a point of time when the turning off of the power has been instructed by the software switch.
Next, when the ink cartridges 10 and 20 thus constituted are loaded on the carriage 42, the print controlling unit 51 reads out the cartridge data stored in the storage unit 15 and 26 of the ink cartridges 10 and 20, writes in the storage unit 15 and 26 of the respective cartridges 10 and 20 data capable of specifying the point of time of loading, and then determines whether or not the cartridges 10 and 20 are refilled products in accordance with the data on the number of refilling.
In a case where the cartridges are new, the ink in the ink cartridges 10 and 20 is filled in the recording head 46 under default conditions to start print processing. On the other hand, in a case where it is determined that the cartridges are refilled products, the data in the data storage unit 55 is adjusted or updated on the basis of the cartridge data stored in the storage unit 15 and 26, and the ink is filled in the recording head 46.
As to the amount of consumption of the ink in the ink cartridges 10 and 20 due to the printing operation, the prevention of clogging, and the like, when an ink end is detected at a predetermined period, e.g., at a point of time when the printing of a series of print data has been finished, or at a point of time when the turning off of the power has been instructed by the software switch, the print controlling unit 51 stores in the storage unit 15 and 26 of the cartridges 10 and 20 data capable of specifying as cartridge data the time when the ink end occurred.
The containers of the ink cartridges 10 and 20 in which the ink has been consumed by printing and which have been used are collected through retailers. Those ink cartridges 10 and 20 which became reusable by the filling of the ink in the containers are recirculated as recycled cartridges, and those cartridges whose degree of wear is excessive and which cannot obtain predetermined print quality even if the ink is refilled are melted and are reutilized as a raw material.
Ink storage containers 68-1, 68-2, and 68-3, for example in this embodiment, containers, disclosed in JP-A-10-193635, each of which is constituted such that a flexible bag for accommodating ink is provided with packing adapted to be pierced by a hollow needles, are connected to the ink filling unit via calves 69-1, 69-2, and 69-3 whose opening and closing are controlled by a signal from the filling controlling unit 60.
Referring to the flowcharts shown in
When the ink cartridge 10 is set on an operation pallet 67 (Step S1 in FIG. 8), the filling controlling unit 60 reads out the data in the storage unit 15 and 26 through the access unit 61 (Step S2 in FIG. 8), and determines the conditions including whether or not the number of the refilling of the ink cartridge is within a prescribed number of times, e.g., 10 times (Step S3 in FIG. 8), whether or not the period of time elapsed after manufacture is within a prescribed period, e.g., 10 years (Step S4 in FIG. 8), whether or not the period of time elapsed from a most recent ink end is within a prescribed period, e.g., 200 days (Step S5 in FIG. 8), and whether or not the state of use of the relevant cartridge was within the range of the environment prescribed by the manufacturer (Step S6 in FIG. 8). If all the items are satisfied, it is determined that reuse is possible, and this result is displayed (Step S7 in FIG. 8), and the operation proceeds to a refilling process (Step S8 in FIG. 8).
On the other hand, if any one of the conditions for usability as a result of refilling is not satisfied, or with respect to the cartridge which does not satisfy a plurality of conditions, a display is given to the effect that reuse is impossible, and the discarding of the relevant cartridge is instructed (Step S10 in FIG. 8). The cartridge 10, 20 which thus satisfied the requirements for refilling are set on the pallet 67 in the above-described refilling process. If the elapsed period of time from the point of time of the previous ink filling and the elapsed period of time from the point of time when the ink end occurred are shorter than prescribed values, the cartridge is transferred as they are to the ink filling unit 66, which will be described later.
On the other hand, if the elapsed period of time from the point of time of the previous ink filling and the elapsed period of time from the point of time when the ink end occurred are longer than prescribed values, the cartridge is transferred to the ink discharging unit 63, and the remain of the ink inside the cartridge is discharged by suction or the like (Step S1 in FIG. 9). Then, a determination is made as to whether or not cleaning is necessary by taking into consideration the elapsed period of time from the most recent ink end (Step S2 in FIG. 9). The time duration of cleaning by the cleaning unit 65, i.e., the degree of cleaning, is determined in accordance with the relative duration of the period of time (Steps S3 to S5 in FIG. 9).
Upon completion of the preparatory process, such as ink discharging and cleaning, which is necessary for the refilling of the ink, the filling controlling unit 60 fills a predetermined amount of ink in the cartridge on the pallet 67 (Step 56 in FIG. 9). Particularly in a case where the ink is filled in the ink cartridge 20 for color inks, one of the plurality of ink storage containers 68-1, 68-2, and 68-3 is selected and the amount of ink to be filled is determined on the basis of the data stored in the storage unit 26.
Namely, as is known, in the printing of a color image, the amounts of the respective inks are not consumed uniformly, and variations occur in the amounts of consumption of the respective colors. Accordingly, the amounts of filling are adjusted such that when the ink of any color in the ink cartridge 20 for color inks has been used up and printing has become impossible, the other inks of less consumed colors is be consumed. Namely, in the state in which the ink cartridge is shipped from a factory as a new product, inks are filled uniformly in prescribed amounts. In the second filling and thereafter, the amounts of inks are adjusted so as to be less than the above-mentioned prescribed amounts in accordance with the mode of use of the recording apparatus by the user. In the case of the ink whose consumption is extremely small, the additional filling is unnecessary. Nevertheless, to cope with the increased viscosity due to the drying and the like of an ink solvent, it is preferable to fill the ink after slightly discharging the ink up to an amount which permits filling.
Consequently, it becomes possible to lower the cost by optimizing the amounts of inks in the cartridge for color inks, and to facilitate recycling by decreasing as much as possible the amounts of inks remaining unused.
It should be noted that, as for the cartridge 10 for the black ink as well, with respect to the cartridge which has been collected after loading after the expiration of the term when the cartridge can be left as it is in a state of being loaded on the carriage, the ink can be filled only in the amount used during that period, thereby making it possible to optimize the amount of the ink and lower the recycling cost.
It should be noted that, in the case of an ink cartridge filled with a pigment ink, since the degree of precipitation of the pigment differs according to the elapsed time from the date of manufacture or the date of previous refilling, it is preferable to effect refilling by taking the degree of precipitation into consideration. That is, in the case where the period of time from the previous ink filling is long, a method in which the pigment is dispersed by imparting ultrasonic vibrations after pouring a solvent or a method in which an ink containing a small amount of pigment is filled is selected, for example.
Upon completion of the ink filling, the filling controlling unit 60 stores necessary information in the storage unit 15 and 26 of the refilled ink cartridges 10 and 20 (Step S9 in FIG. 8), including the following cartridge data:
In addition, upon completion of the reading of data from the storage unit 15 and 26, if the data to be rewritten after filling, e.g., the data on the amount of ink, is changed to prescribed data irrespective of the amount of the ink, the speed of the data updating operation after filling (Step 9 in
It should be noted that in a case where the capacities of the storage unit 15 and 16 are insufficient in recording the information (6) listed above, or in a case where the storage unit 15 and 16 are broken, it is desirable to replace the storage unit with those having large storage capacities.
As the necessary information is thus stored in the storage unit 15 and 26 of the ink cartridges 10 and 20, even in the case of the recycled ink cartridge with ink refilled, its history becomes clear, and the quality of characters printed by the recording apparatus can be ensured by the data concerning the change of the mode of driving of the recording apparatus due to the difference with a new product.
On the other hand, in a case where the inks in the ink storage containers 68-1, 68-2, and 68-3 have been consumed, the ink storage containers 68-1, 68-2, and 68-3 are replaced for replenishment.
It should be noted that although, in the above-described embodiment, a description has been given of the refilling of ink in the cartridge in which the leakage of ink is prevented by impregnating the porous member with ink, it is evident that the invention is also applicable to the filling of ink in an ink cartridge in which, as disclosed in JP-A-8-174860, a valve which noarmally maintains a closed state and is opened by the negative pressure due to the ink consumption by the recording head is disposed between an ink storage chamber and an ink supply port.
The ink vending machine 71 includes an input unit 76 (see FIG. 11), a display unit 77, a fee receiving portion 78, a change returning portion 79, and a cartridge insertion port 80.
As shown in
The main control unit 81 is connected to the server system 70 via the Internet, and manages and supports the supply of ink by the ink vending machine 71. Specifically, on the basis of the data of an inventory/fee management table 86, the server system 70 effects inventory control of the inks (e.g., the inks stored in the ink storage containers 68-1 to 68-3 shown in
The input unit 76 is configured as a touch panel which is integrally formed with the display unit 77 in this embodiment, and transmits to the main control unit 81 an input by the user to the ink vending machine 71. The display unit 77 displays the remaining amounts of ink inside the ink cartridge, the contents of input by the user, and other information so as to support the input operation by the user.
The storage-unit read/write unit 85 is connected via the storage unit interface unit 84 to the storage unit 91 and 91′ provided on the ink cartridges 90 and 91′. The storage-unit read/write unit 85 reads out the remaining amounts of ink and other information stored in the storage unit 91 and 91′, and writes therein information instructed by the main control unit 81 to write.
Referring to the flowchart shown in
The user loads the ink cartridge 90 or 90′ to be refilled in a suitable cartridge loading portion of the cartridge insertion port 80 (Step S1). The cartridge loading portion corresponds to a recording material container loading unit. In the ink vending machine 71, a plurality of cartridge loading portions are provided so as to be able to cope with various types of cartridges. A cartridge loading portion can be easily selected by, for example, inputting the model number of the ink cartridge to the ink vending machine 71 or by designating the model number of the ink cartridge which appeared on the display unit 77 functioning as a touch panel.
A cartridge loading unit 100 is arranged such that a fixing lever 102 capable of being opened and closed is provided on a holder 101 for setting the ink cartridge 90′ at a predetermined position where the filling of ink is facilitated. Inside the holder 101, contacts 103 for connecting to the connecting terminals 95′ of the storage unit 91′ of the cartridge 92′ are arranged, and an opening 104 for accommodating the ink supply port 93′ is formed.
First, if the user inputs information specifying the model of the ink cartridge 90′ to the ink vending machine 71, the cartridge loading unit 100 which matches the relevant ink cartridge 90′ is exposed in the cartridge insertion port 80 (FIG. 10).
In this state, the fixing lever 102 of the cartridge loading unit 100 is opened, as shown in
As a result, the storage-unit read/write unit 85 reads from the storage unit 91′ the data to be used for the supply of ink (Step S2).
As shown in
It should be noted that, in this embodiment, the replenishment of the ink refers to additionally filling the ink of the same type without discharging the ink remaining in the ink cartridge, the replacement of the ink refers to filling the ink of the same type after discharging the ink remaining in the ink cartridge, and the change of the ink refers to filling the ink of a different type after discharging the ink remaining in the ink cartridge.
The data 210 concerning the manufacture of the ink cartridge 90 includes data on the model of the ink cartridge 90, data on the period of manufacture, data on a manufacturing line, data on a serial number, and data on the capacity of each ink tank in the cartridge. These items of data are data which are used mainly for determining whether or not the supply of ink to these ink cartridges 90 and 90′ is possible.
The data 220 concerning the use of the ink cartridge includes data indicating the remaining amount of each ink in the cartridge, data on the period of opening the cartridge, and an order placement flag.
The data indicating the remaining amount of ink, together with the data on the capacity of each ink tank, is used for calculating a fillable amount of ink. This fillable amount of ink can be-used to allow an appropriate amount of ink to be determined and poured by the ink vending machine 71. The data on the period of opening the cartridge is data which is used for estimating the deterioration of the ink, and is constituted by the data for specifying the period of loading in the recording apparatus 20. The order placement flag has recorded therein a state concerning whether or not a placement of an order with the return of the cartridge has already been made on the precondition of the return of the cartridge 90 or 90′. When such a placement order has been made, the ink vending machine 71 refuses the filling of the ink.
The data 310 concerning the numbers of replenishment, replacement, and change of the ink includes data indicating how many times the ink cartridge underwent the ink replenishment and the like in the past, as well as data indicating the fillable number of times. These items of data are for preventing malfunctions and ensuring print quality by limiting the numbers of times of filling and the like of the ink within fixed ranges.
The ink-related data 320 includes information on the type of ink accommodated in each ink tank and the effective period of the ink. The information on the type of ink is mainly used for specifying the ink to be filled in the replenishment and replacement of the ink. The effective period of the ink is used to allow the user to determine whether the cartridge is to be replenished with the ink or whether all the ink is to be replaced.
The information 330 on the working environment of the ink cartridge of the printer 72 includes, in this embodiment, recording apparatus ID for specifying the model of the recording apparatus 75 in which the ink cartridge 90 or 90′ was finally used, information on the operating system of the computer 73 to which the recording apparatus 75 is connected, printer driver information indicating the type and version of a printer driver, and firmware information indicating the type and version of the firmware of the recording apparatus. These items of information are used for determining whether or not a change of the type of ink is possible.
It should be noted that, in this embodiment, the “information on the working environment of the ink cartridge” is information which is used when a determination is made as to whether or not the ink after the change can be used properly by the recording apparatus 75 in which that cartridge is used. Generally, the information on the working environment of the ink cartridge includes at least part of information indicating the type of software (printer driver) for generating print data from image data and information indicating the types of hardware (i.e., the recording apparatus) and software (i.e., the firmware of the recording apparatus) for executing printing by using the generated print data.
A determination is made by the main control unit 81 as to whether or not the ink filling by the ink vending machine 71 is possible (Step S3). In this determination, if a determination is made that ink filling is impossible on the basis of the fact that whether or not the numbers of times of replenishment, replacement, and change of the ink cartridge performed is not more than limiting values, a display is given on the display unit 77 to the effect that the ink cannot be filled (Step S8).
On the other hand, if it is determined that ink filling is possible or if ink filling is impossible only with respect to some ink cartridge(s), a display is given to that effect, and the main control unit 81 displays the remaining amounts of ink for the respective ink tanks on the display unit 77 (Step S4).
The user selects which of the replenishment, replacement, and change of the ink in each of the ink tanks of the ink cartridge 90 is to be provided (Step S5). This selection is determined by the user by taking the present state of the remaining amounts of inks into account, as described above.
For example, as shown in
However, in a case where the change of ink has been selected, the following process is performed before proceeding to Step S6. In this process, a determination is first made as to whether or not printing can be effected properly by using the ink after change in the working environment of the ink cartridge of the printer 72 for which the irk cartridge 90 was finally used. This determination is made on the basis of information which specifies the type and form of software for generating data for controlling the ejection of ink, such as the printer driver of the computer 73 and the firmware of the recording apparatus 75. This is because there are cases where the working environment of the ink cartridge does not conform depending on the type of the ink. For example, in the case of a newly sold ink, there are cases where unless a printer driver of a new version is used, a change can occur in the tone of color, possibly making it impossible to effect printing with high image quality equivalent to that of the original ink.
In a case where the ink after change cannot be poured as a result of this determination, a display is given to that effect, and a display which prompts selection between replenishment and replacement is given again on the display unit 77. It should be noted that in a case where the working environment of the ink cartridge can conform if it is changed by upgrading the version or by some other method, a display to that effect is given on the display unit 77, and an inquiry as to whether selection is to be made between replenishment and replacement is displayed again. The determination as to whether or not the working environment of the ink cartridge can conform is made on the basis of the information for specifying the model of the recording apparatus 75. For example, in the case of the recording apparatus of a type in which firmware has been installed in a nonvolatile storage unit which is capable of rewriting, and in a case where the capacity of the nonvolatile storage unit is sufficient with respect to the firmware after the upgrading of its version, a determination is made that conformity can be obtained.
The state of the remaining amounts of inks at the present time and the state of the remaining amounts of inks after replenishment are shown in an upper portion of the display unit 77 in the form such as the one shown in FIG. 18. The display of “UP/DOWN” below each column representing the remaining amount functions as the input unit 76 for setting the state of the remaining amount of ink after replenishment.
As for the amount of ink after replenishment, replacement, or change of the ink, if the user touches, for instance, the portion “UP” of light cyan, the column of light cyan in the column graph extends upward, and the fee increases. Thus it is possible to set the amount of ink after the replenishment, replacement, or change while confirming the fee. Incidentally, all the ink tanks of the ink cartridge are to be filled up, it suffices if the display of “FILL UP ALL” is touched (Step S6). Upon completion of the setting, the display of “START PROVISION” on the input unit 76 is touched. If this is done, the result of the setting is inputted to the main control unit 81, and the operation proceeds to Step S7.
In the operation of ink replenishment, ink of the same type is additionally filled without discharging the ink remaining in the ink cartridge (Step S1 in FIG. 19(a)). The process of ink filling is effected in a state in which a filling needle 110 (
It should be noted that, at this time, by taking into account the evaporation of the solvent in the ink after the opening of the ink cartridge, prior to the filling of the ink a valve V3 may be opened, and the solvent of the ink may be poured through the filling needle 110 in a prescribed amount, e.g., an amount commensurate with the period of time elapsed from the opening of the ink cartridge 90.
Upon completion of the filling of the ink, information concerning ink filling and information on such as the remaining amount of ink after replenishment and the number of replenishment, replacement, or change are written in the storage unit 91 (Step S2 in FIG. 19(a)). Upon completion of writing in the storage unit 91, the filling needle 110 and the discharge needle 111 are withdrawn, the ink cartridge 90 is ready to be removed, and a display to that effect is given on the display unit 77, so that the user is able to remove the ink cartridge 90 from the holder 101.
Next, referring to the flowchart in
Initially, the cleaning of the ink tank of the ink cartridge 90 is carried out (Step S1 in FIG. 19(b)). In this cleaning, the filling needle 110 (
Next, a valve V2 is opened, and an inert gas such as nitrogen is filled through the filling needle 110 to drive the ink remaining in the tank through the discharge needle 111 by applying pressure thereto. The valve V3 is opened, and the solvent of the ink is filled through the filling needle 110 to clean the interior of the ink tank 92′. Furthermore, the valve V2 is opened, and a gas is charged to discharge the solvent of the ink through the discharge needle 111.
At the stage when foreign substances in the ink tank 92′ have been discharged, the valve V1 is opened, and the filling of ink is started (Step S2 in FIG. 19(b)). The filling of the ink is effected in a state in which the discharge needle 111 is deeply inserted such that its tip reaches an upper portion of the inner space of the ink tank 92′, i.e., a position higher than the liquid level of the ink to be filled.
Upon completion of the filling of the ink, in addition to the information on the filled ink and information on the remaining amount of ink after replenishment and the number of replenishment, replacement, or change, information on the effective period of the ink is written in the storage unit 91 (Step S3 in FIG. 19(b)).
The procedure of the operation of filling the ink of a different type after discharging the ink remaining in the ink cartridge, i.e., the change of ink, is executed by a procedure substantially similar to that of the above-described ink replacement. However, the difference lies in that, in the recording operation of the storage unit 91 after the ink filling, data concerning the type of ink is changed to the type of ink which has been filled.
As described above, in accordance with this embodiment, by merely installing the ink vending machines in convenience stores and the like, the users are able to fill the ink in the used ink cartridges at nearby places, so that the collection operation by the manufacturer is made unnecessary, and the reuse of the ink cartridges can be promoted. In addition, the users are able to receive the supply of ink at low fees.
It should be noted that although, in the above-described embodiment, the setting operation for filling the ink into the cartridge is performed at the ink vending machine, processing in Steps S2 to S6 in the flowchart shown in
Incidentally, in the above embodiments, the description is described with reference to the ink cartridge, the ink filling apparatus and a method of filling the ink in the ink cartridge. However, the present invention can be applied to a laser printer, for example. In the case of the laser printer, a toner cartridge and a toner filling apparatus are employed as the recording material container and the recording material filling apparatus, respectively, and toner which is recording material is filled in the toner cartridge by the toner filling apparatus.
As described above, in the invention, the amount of ink to be filled and the type of ink can be optimized on the basis of the data of the storage unit of the ink cartridge, the reuse of the cartridge is facilitated, and a reduction of cost incidental to recycling can be attained.
This is a Continuation-In-Part of application Ser. No. 10/048,180 filed March 22, 2002, now abandoned which is a National Stage Application filed under §371 of PCT Application No. PCT/JP01/04490 filed May 29, 2001; the above noted prior applications are all hereby incorporated by reference.
Number | Name | Date | Kind |
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5583549 | Ujita et al. | Dec 1996 | A |
6158850 | Cook | Dec 2000 | A |
6361138 | Seino et al. | Mar 2002 | B1 |
6431448 | Nelson et al. | Aug 2002 | B1 |
Number | Date | Country |
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2000-94715 | Apr 2000 | JP |
2001-301198 | Oct 2001 | JP |
Number | Date | Country | |
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20030151648 A1 | Aug 2003 | US |
Number | Date | Country | |
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Parent | 10048180 | US | |
Child | 10338675 | US |