초록 ▼

A method of determination of the conditions of exhaustion of a filtering cartridge for filtering carafes with replaceable cartridges is described, in which an initial identification of impedance of the water to be filtered is provided for in order to consequently calculate an important parameter for

A method of determination of the conditions of exhaustion of a filtering cartridge for filtering carafes with replaceable cartridges is described, in which an initial identification of impedance of the water to be filtered is provided for in order to consequently calculate an important parameter for definition of the efficient lifespan on the filtering cartridge. Furthermore a carafe operating in compliance with such method is also described.

대표청구항 ▼

The invention claimed is: 1. A method comprising: providing a filtering carafe and a replaceable filtering cartridge; calculating at least one parameter using at least one electrode pair within and fitted onto a cover of the filtering carafe, wherein the at least one electrode pair is positioned in

The invention claimed is: 1. A method comprising: providing a filtering carafe and a replaceable filtering cartridge; calculating at least one parameter using at least one electrode pair within and fitted onto a cover of the filtering carafe, wherein the at least one electrode pair is positioned in the filtering carafe upstream from the replaceable filtering cartridge; and determining a lifespan of the filtering cartridge using the at least one parameter; wherein the at least one parameter calculated using at least one electrode pair, is calculated based on at least one condition of exhaustion selected from quality of water to be filtered and a number of filtering cycles carried out from initial activation of the filtering cartridge. 2. A method comprising: providing a filtering carafe comprising at least one electrode pair fitted onto a cover of the filtering carafe; providing a replaceable filtering cartridge; calculating a number of filtering cycles carried out from initial activation of the replaceable filtering cartridge using the at least one electrode pair; and determining a lifespan of the replaceable filtering cartridge using the number of filtering cycles. 3. The method of claim 2, wherein the number of filtering cycles comprises a number of filling cycles as determined by a current flowing through water in the carafe closing a circuit between the at least one electrode pair. 4. The method of claim 2, wherein the at least one electrode pair is positioned within the carafe to avoid accidental submersions of the electrodes due to movement of the carafe. 5. The method of claim 2, further comprising determining whether a circuit between the electrode pair has been closed or opened for at least a predefined period of time before counting each filtering cycle. 6. A system comprising: a filtering carafe having at least one electrode pair fitted onto a cover of the filtering carafe; a replaceable filtering cartridge, wherein said filtering carafe is adapted to receive the replaceable filtering cartridge; and a counting means adapted to count a number of filtering cycles carried out in the filtering carafe from an initial activation of the replaceable filtering cartridge, using the at least one electrode pair. 7. The system of claim 6, wherein the number of filtering cycles comprises a number of filling cycles as determined by a current flowing through water in the carafe closing a circuit between the at least one electrode pair. 8. The system of claim 6, wherein the at least one electrode pair is positioned within the carafe to avoid accidental submersions of the electrodes due to movement of the carafe. 9. The system of claim 6, further comprising a display. 10. The system of claim 6, further comprising a signal means to indicate exhaustion of the filtering cartridge. 11. The system of claim 6, further comprising a timer adapted to activate upon closing of a circuit, and adapted to exclude counting if duration of the closing is for an amount of time lower than a predefined time limit. 12. The system of claim 11, further comprising a microprocessor into which signals generated by a timer may be fed, to determine data regarding a lifespan of the cartridge. 13. The system of claim 6, further comprising a microprocessor into which signals generated by at least one of the electrode pairs and counting means may be fed, to determine data regarding a lifespan of the cartridge. 14. A filtering carafe comprising: at least one electrode pair fitted onto a cover of the filtering carafe; a first collection basin; a second collection basin, wherein the filtering carafe is adapted to receive a replaceable filtering cartridge between said first basin and said second collection basin, and wherein the filtering carafe is adapted to receive a liquid and expose the liquid to the at least one electrode pair during a filtering cycle, before the liquid passes from the first collection basin through the replaceable filtering cartridge into the second collection basin; a calculation means adapted to determine filtering cycles by receiving signals from the at least one electrode pair upon exposure of the at least one electrode pair to the liquid; and a signal means adapted to inform a user of the filtering carafe of exhaustion of the replaceable filtering cartridge based on the filtering cycles. 15. The filtering carafe of claim 14, wherein the signal means is adapted to inform a user of remaining uses of the replaceable filtering cartridge before exhaustion of the replaceable filtering cartridge. 16. The filtering carafe of claim 14, wherein the signal means is adapted to inform a user of an amount that the replaceable filtering cartridge has been used since initial activation of the replaceable filtering cartridge. 17. The filtering carafe of claim 14, wherein the number of filtering cycles comprises a number of filling cycles as determined by a current flowing through water in the carafe closing a circuit between the at least one electrode pair. 18. The filtering carafe of claim 14, wherein the at least one electrode pair is positioned within the filtering carafe to avoid accidental submersions of the electrodes due to movement of the carafe. 19. The filtering carafe of claim 14, further comprising a timer adapted to activate upon closing of a circuit, and adapted to exclude counting if the duration of the closing is for an amount of time lower than a predefined time limit. 20. The filtering carafe of claim 14, wherein the signal means comprises a display of a relative amount of use of the replaceable filtering cartridge since initial activation of the replaceable filtering cartridge, or uses remaining before exhaustion of the replaceable filtering cartridge. 21. A method comprising: providing a filtering carafe; recording a signal generated by at least one electrode pair incorporated into a cover of the filtering carafe upon the at least one electrode pair contacting a liquid during a filtering cycle, before the liquid passes from a first collection basin of the filtering carafe, through a replaceable filter cartridge, and into a second collection basin of the filtering carafe; and calculating, using a microprocessor, a number of filtering cycles carried out since initial activation of the replaceable filtering cartridge based on the recorded signals. 22. The method of claim 21, further comprising providing a signal to a user of the filtering carafe to inform the user of relative exhaustion of the replaceable filtering cartridge based the number of filling cycles carried out since initial activation of the replaceable filtering cartridge. 23. A method comprising: providing a filtering carafe and a replaceable filtering cartridge; calculating at least one parameter using at least one electrode pair within and fitted to the carafe, wherein the at least one electrode pair is positioned in the filtering carafe upstream from the replaceable filtering cartridge; and determining a lifespan of the filtering cartridge using the at least one parameter; wherein the at least one parameter calculated using at least one electrode pair, is calculated based on at least one condition of exhaustion selected from quality of water to be filtered and a number of filtering cycles carried out from initial activation of the filtering cartridge; said method further comprising determining a current between at least one pair of consent electrodes to confirm that a closing or opening of a circuit between the at least one electrode pair has not been accidentally provoked by movement of the carafe. 24. A method comprising: providing a filtering carafe comprising at least one electrode pair; providing a replaceable filtering cartridge; calculating a number of filtering cycles carried out from initial activation of the replaceable filtering cartridge using the at least one electrode pair; determining a lifespan of the replaceable filtering cartridge using the number of filtering cycles; and determining a current between at least one pair of consent electrodes to confirm that a closing or opening of a circuit between the at least one electrode pair has not been accidentally provoked by movement of the carafe. 25. A system comprising: a filtering carafe having at least one electrode pair; a replaceable filtering cartridge, wherein said filtering carafe is adapted to receive the replaceable filtering cartridge; a counting means adapted to count a number of filtering cycles carried out in the filtering carafe from an initial activation of the replaceable filtering cartridge, using the at least one electrode pair; and at least one pair of consent electrodes adapted to confirm that a closing or opening of a circuit between the at least one electrode pair has not been accidentally provoked by movement of the carafe. 26. A filtering carafe comprising: at least one electrode pair; a first collection basin; a second collection basin, wherein the filtering carafe is adapted to receive a replaceable filtering cartridge between said first basin and said second collection basin, and wherein the filtering carafe is adapted to receive a liquid and expose the liquid to the at least one electrode pair during a filtering cycle, before the liquid passes from the first collection basin through the replaceable filtering cartridge into the second collection basin; a calculation means adapted to determine filtering cycles by receiving signals from the at least one electrode pair upon exposure of the at least one electrode pair to the liquid; a signal means adapted to inform a user of the filtering carafe of exhaustion of the replaceable filtering cartridge based on the filtering cycles; and at least one pair of consent electrodes adapted to confirm that a closing or opening of a circuit between the at least one electrode pair has not been accidentally provoked by movement of the carafe. 27. A method comprising: providing a filtering carafe; recording a signal generated by at least one electrode pair in the filtering carafe upon the at least one electrode pair contacting a liquid during a filtering cycle, before the liquid passes from a first collection basin of the filtering carafe, through a replaceable filter cartridge, and into a second collection basin of the filtering carafe; calculating, using a microprocessor, a number of filtering cycles carried out since initial activation of the replaceable filtering cartridge based on the recorded signals; and determining a current between at least one pair of consent electrodes to confirm that a closing or opening of a circuit between the at least one electrode pair has not been accidentally provoked by movement of the carafe.