Another kind of devices are having an adsorptive like a tiny magnet that attracts and captures objects. It grabs bugs, particulates, and chemicals, leaving clean water behind. Adsorptive filters not only remove bacteria, protozoa, and viruses, but also clean out chemicals. These devices stop working once they're saturated.
Another kind of devices present in market uses a range of water purifiers with mineral and nutrients upkeep in water. Some devices use Reverse Osmosis technology that is used to remove a large majority of contaminants from water by pushing the water under pressure through a semi-permeable membrane.
These days emphasis is being given to water treatment and upkeep of minerals at best and at an affordable cost. Presently, the type of treatment devices available in the market, are either not very efficient or unable to properly treat the water as per the new lifestyle of people.
To overcome the limitations associated with existing /arts,-,, there is a .need to. develop
personalized water treatment devices ;formaintaining.:the. lifestyle; requirements^ : .- ■
SUMMARY OF THE INVENTION
In one embodiment the .present invention relates to a yvater enrichment, and; dispensing device haying a water reservoir, air alkaHne; reservoir, an alkalinity detector to detect alkalinityof water from the water, reseivoir/;an alkalinity proportionate pro alkalinity of the water is adjusted using the alkalinity reservoir, a central instruction processor, wherein the central instruction processor instructs the alkalinity proportionate processer as per readings of the alkalinitydetector and. user ip/eferences.;... \; *•} ■;.;
Further, the present invention relates; tp: a device, where the. user-preferences are stored in local memory of the central instruction processor.
The; present ,-■ invention also, relates to a .device,' having .the: water;: reservoir made:,of .a
biocompatible material. : . .:: .;:; ,v." I •;.:;: v ' ?\'. -;;*;:;■•:?..
In another embodiment, the present invention relates, to a water enrichment and dispensing device having: a/, water reservoir, at least pneminerai. detector to detect mineral content of water from "the water reservoir;'at least one.:mineral reservoir connected to the- mineral detector; a central instruction -processor having at. (east,one' required .mineral.dispensing

value for the at least one mineral reservoir fora user, atleast one mineral proportionate processor, wherein the mineral proportionate;processor detects current mineral content of the water from the water reservoir, compares to user preferred mineral dispensing value, and instructs the mineral reservoir to supplement or deduct the at least one mineral in the water from the water reservoir.
Further, the present invention relates to a device having the user preferred mineral dispensing value is from at least one user profile, wherein the user profile maintains at least one mineral dispensing value for at least one time of day.
The present invention also relates to a device with mineral formulation of the mineral
- reservoir in nano form to deliver with high precision and high absorption rate. N
The present invention also relates to a device having multiple mineral reservoirs to supplement .user preferred minerals in yaripuis corrtbin^tions as.per the medical or lifestyle requirements of a user. : :\; -. > ;^' ^:,^: .•::.:*; ■;".',*: .-. :v.:. •:. .■■ v/; ■'?« c, *■' , -.' «*.;
The present invention also relates to a device-where; the central instruction
syncr abuser .profile; and .-required mineral dispensing values through a smartphone
application.
?.-::..:"-..:.- ■:•>-• .-.•."■■•.■ -■•-•■: .< .;■--. ■;., . v .,-.., i.,..:.., .: .,._..„ ,.,..... :.. .v • -i .— ' .-
l"he present invention alsprelatestp.ad
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The present invention also relates to;a device having a.mjneral resewojr.wM^ which has slots for receiving and dispensing multiple mineral(s) on nutrients) as-individual packets as per the local water quality,.medical:or_, lifestyle.needs of a user The individual packets can Ipe refilled,by purchasing the mineral(s) or nutrient(s).
The present ..invention;- also relates to a device having a; dispensing unit which. ijses,;high efficiencynanp-fprni.ulgtionQf mineral(s), or nutrients) gnd alkalinity; providers.,: ;.:'./;
The present invention also relates to a device which is useful for personal water quality upkeep at home/ office/ during travel, for kids/ adults/ patients, Jifestyle maintenance and is also ^useful for public water-, dispensing facilities as;, in ;hotels, hospitals, multi-storied buildings,.shopping malls, cinemas, factories. The same; .devipe^without any customization will be directly useful in different geographies be it mountains, plains, deserts, cities, or rural alike as the device will only add or reduce the alkalinity or mineral(s) or nutrient(s) as per local quality of water, without customizing the device.-: r .-, \ DELHI. 0 8;- 0 2 ;2018 ..-16-V.5-.f- /,<. /-■ , . :,: •:;/ -...]•• v'V-. - : •.:.:


The present invention also relates to a device where a user profile is a global profile and a device used frequently as well as a new device for a user will dispense similar quality of water globally i.e. of personalized and customized quality by syncing with a mobile smartphone application in accordance to medical, lifestyle requirements of a user without the user requirement of resetting the device or instructing with water quality requirements.
In yet another embodiment, the present invention relates to,a water dispensing device having a water reservoir, a Nano-membrane filter to clean water from the water reservoir of contaminants, a pH sensor to detect pH value of the water, a pH adjuster to adjust the pH of the water based on readings of the pH sensor and user preferences, a mineral sensor to sense scarce or surplus mineral in the water from the pH adjuster, a mineral reservoir to dispense user specific amount of the mineral in the water, a mineral adjuster to supplement or eliminate the mineral in the water based on the mineral sensor notification and using the mineral reservoir.
The present invention also relates, to a device where the- user-preferred; mineral.dispensing value is from at least one user profile, wherein the. user profile maintainsrat-least one mineral
t
dispensing, valuerfpr^ :■:■,':■?.;;"•;:: vY:;/;;. Y '-:.' u '-:■::;:v.v"-,\i UY-
The present invention also relates to a device where the central instruction processor can
sync-a user profile and. user preferred.pH.&
application:--;'. :■■: :"'\ '."• " ' J-\:-^::;\ x--. \ ■;;;■'/;• \r.:r.\\.y- -.'
The-present: invention.also .relates, to;a;device having .at;least-one, user access: mpdule; wherein.a user is^detected and;profile, is selected on the.device/by using :a: user ^recognition method.: - -— •: vrv;.-: .-.-.•; *..;; -.; /..■; • ;"?■■:;/;..; [.: -•.:— v;-;■;./. ;} ;-.-': \'\. v! c ~:\: ;■''.: r \-z :-\\^\xr:^:-: cr :••/, !;vf ■ •■* .- ...;,-. "•'''/, ".;-. v. .*: r: [' -v,:; ; :-.> ■;;:; r:'-:\ ■ : ;'.'v, :v ,*■: '":::''.c r, ■•■'.-; iy.-i**: ■/>■* In yet ianpttier embodiment, the present invention relates to a water enrichment device having a water channel for receiving water and passing the water through enrichment mpdulesi a pH.cartridge through;.whjch the. water jnt the water channel is .adjusted for pH,at least one mineral cartridge which supplements^atteasV the waterof the yvater .channel and enrich the water for dispensing to a user.
The present invention also relates to a, device; where^the rnineral cartridge, has at Jeast one preset mineral dispensing rate to enrich the water based on the Ipcal quality of water. ■ ■
IPO DELHI 08-02-2018 1&:56

The present invention also relates to a device where the pH cartridge has at least one preset alkalinity dispensing rate to enrich the water based on the local quality of water.
The present invention also relates to a device where the mineral cartridge has a manual adjuster to adjust at least one mineral dispensing rate to enrich the water based on the local quality of water.
The present invention also relates to a device where the pH cartridge has a manual adjuster to adjust alkalinity dispensing rate to enrich the water based on the local quality of water.
In yet another embodiment, the present invention relates to a cartridge for use in enriching water of a water enrichment device having a set of slots, wherein each slot can receive a nano-formulation based sachet of a mineral or a nutrient, a gate of the slot is opened for a predetermined period of time based on the instructions of a mineral proportionate processor, wherein, the ;gate,/allpws. the mineral or nutrient to enrichcwater: when ;W$ter .comes into contact from a waterchannel, wherein the mineral proportionate processor instructs the gate to open based on readings of a mineral detector, time of day and user preferences.
The present invent^
least one of Sodium, Potassium, Magnesium, Iron, Calcium, and Vitamin C; the nutrient from
at least one of Lemon, Honey, Trifla, Amla, Harad, Cumin, Fenugreek, Salt, Sugar.
These, and,other aspects,; processes .and features of the invention. will; become more, fully
apparent when the following detailed description is read with the accompanying figures and
eyaimples:; However, both the/fpregping; summary; o£ the invention and .the follpwing:.detai(ed
description of it represent one .potential embodiment, *arrd are not restrictive ;pf ;the jnvent.jon
or other alternate embpdiments of the invention- r - v :; ■:, -; r: ;: :;, ; ;r.;
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: BRIEF DESCRIPTION OF DRAWINGSr ; , , i
To;i||ustrate: the-splutipns according^^^
olearlyj; the;accompanying drawings needed for. describing .the ernbpdiments.are; introduced below briefly. Apparently, the accompanying drawings in the following descriptions merely show gomeipf the embpdiments of;the present.displpsure,;and persons skjlledjn the;art may Obtain other drawings according,to the accompanying drawings without;creative efforts/; " '■ ■ ;'*-•"-«/.''.'.,. ->■ - ', •' ".'..■''. ':•'■:■ '-';■• ,'"'.*-' >■'r. ■ . ' '- "■ V • f. •- ■■-.
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FIG. 1 is a schematic diagram of a water treatment and enrichment device, according to an
embodiment of the invention; ;,; ■ ..-.:-, .. ,,-■; v; ■; ;>.•;*/>■•, ;; '-.-,■■,-
•r ' • 'b' ' ' ■' "" .••.■■-

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FIG. 2 is a schematic diagram of a water treatment and enrichment device, according to an embodiment of the invention;
FIG. 3 is a schematic structural diagram of a central instruction processor of a water treatment and enrichment device, according to an embodiment of the invention;
FIG. 4 is a schematic view of a user interface of a water treatment and enrichment device, according to an embodiment of the invention;
FIG. 5 is a schematic view of a user interface of a water treatment and enrichment device, according to an embodiment of the invention;
While the invention is amenable to various modifications and alternative forms, some embodiments have been illustrated by way of example in the drawings and are described in detail-below: The intention, however, is not to limit the invention by>th;ose exanriples: and the invention is intended ;tp;.QOver all modifications, equivalents, and alternatives to the embodiments described in this specification.
;.-:■.•, DETAILED DE^pRIPTIpN QFvTHEINVENTION ; ^; r
The solutions of the present disclosure are to be clearly described in the following with
referenceto the accompanying drawings; It is obvious,thatrt
are only;a part rather than; all t^ev:embpdiments of the present disclosure. All other
embodiments obtained by persons skilled in the art based on the embodiments of the
present disclosure -without, creative efforts shajl fall wi.tN
disclosures :\t ^•■■-vi::vo:/ i//.;v:-v-,'i,;'
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o It/isthe^prfncipal; object:; of the- present^ invention to, provide ?a -waJei;-itr]sataie'nt^d€»visGe:^g
B provide a personalized, balanced pH and mineralnutrientvyater;.- v - ; >-:; ■<; h
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tfc jt is; a/further object of the invention; to provide balanced- alkalinity water customized as pep
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» thejocal water quality. •" ■, ■ > ;
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£ It is a still further object of the present: invention^ or required mineral
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§ nutrient content in .water customized as per the; local vyater quality/ CM
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It is a still further object of the present invention to provide a user profile based balanced or customized water quality.
It is a still further object of the present invention to provide a customized and personalized water quality as per the medical requirements or lifestyle.
The above and other objects of the present invention are achieved by employing an alkalinity module, mineral module, central instruction processor, alkaline reservoir, mineral reservoir, water reservoir, user profile reader, database module this in-turn personalizes the-water, customizes the quality, increases the dispensing rate, is affordable and portable, accordingly, the present provisional application details the preferred embodiments of the present invention herein below. However, the invention will be worked further within the scope and described various aspects while finalizing the complete specification.
Ther:aboye and other objects of the. present invention .are achieved by; employing nanofiltration membranes.
According to the present invention the: disclosed .water; treatment device -providestreated
water which/is purified; filtered,to avoid undesired contents and contains desired amount of
minerals employing superior filtration process based on nanotechnology, reservoir having
required contents prepared, as Nano formulation and sensor- techniques;,' which. enable - to
analyze and.instruct customize :,..;. :.:;:::.•.. r ::;/:;
*v :.'■.•'.:' rrr. :■:-•; '■, v.-; *. ";;.-. ;, •;:-';.** ■/,::'."...-: .•■ •" ' *. v'V ■, ;, -■■.;.■,• •■■•:;.'■;■".:.-"' •.:.. .; ■. ■...;:..-■.
According ■■_ to - the, .present invention, ;;the rxeservoir;; is /.provided containing.; the desired
constituents forchuman ;health and; daily .life,- wherein said reservoir contains nanpmaterialsy :;
According/.to the. present invention the senspr. used hereinTis deveJoped as;Ngnp ;senspr§
which: .enable effective detection of undesi^:.ejejiients/cpntamina novel
magnetic nanoparticles for water purification/detoxification and allow dispensing required minerals and vitamins or any ptherelements/throughthe reservoir to the user. ;
In accordance with a preferred embodiment of this invention, there is provided a water
treatment dispensing, device comprising; an./alkalinity; detecton;an;-alkalinity, reservoir, a
central instruction processor ,having at' least ;one database; module,'. an alkalinity
propprtionate,processor, wherein the alkalinity of the water.dispensing device is customized
and personalised as. per the local water, quality,; wherein the .reservoir used herein is
biocompatible, and the formulation; used,hereinip; fill;the, reservoir are natural/ herbal and
wherein the used formulations are used in a reduced amount.
O DELHI ,0 8 -.■© 2 - £818. 16 :S6g - : ; ,./;.vo' '<■'-: . ';"•—:

In accordance with a preferred embodiment of this invention, there is provided a water treatment dispensing device comprising; an alkalinity detector, an alkalinity reservoir, a central instruction processor having at least one database module, an alkalinity proportionate processor, wherein the alkalinity of the water dispensing device is customized and personalised as per the needs of the user.
In accordance with a preferred embodiment of this invention, there is provided a water treatment dispensing device comprising; at least one mineral detector, at least one mineral reservoir, a central instruction processor having at least one database module, at least one mineral proportionate processor, wherein the mineral(s) of the water dispensing unit is customized and personalised as per the local water quality.
In accordance with a preferred embodiment of this invention, there is provided a water
treatment dispensing device comprising; at least one mineral detector, at least one mineral
reservoir,'a central-instruction processor having at least one database module,.at. least pne
mineral proportionate -processor, wherein ;the: mineral(s). of the water dispensing runit is
customized and personalised as perthe needs of the. user;;; ., .J ...
In; agcordance with a preferred;sem;bodirnent of this invention, there is provided a water
treatment dispensing device comprising; an alkalinity detector, an alkalinity reservoir, at least
one mineral; detector, at least one/mineral re.seivpir,. a central instruction; proeessprjhaving; at
least one database module,-.an:alkalinity; proportionate ^processor, 9t .least one mineral
proportionate processor, wherein the alkalinity and: minerals) pf.theLWpterdispensing device
is. customized gnd,personalised as per theilocal water qMajity,/ ;>. • : -;r :.: ?;*.:: ;*
In accordance with another preferred embodiment of this invention, there is provided a water treatment dispensing device comprising;: an alkalinity .detector,, an alkalinity reserypj.r, at. least one mineral detector, at least one;.mineral' reservoir, ;att leastone user .profile r detector,; a central instruction processor having,* at least; ;one ..database .rpodute,;. an alkalinity proportionate processor; at least one.mineral proportionate processor, at least one user prpfiile.:identifier wherein, the alkalinity, and. mineral(s) of the water dispensing device is customized and personalised as perthe needs of the user of the dispensing device.
Invaccordance; ;with: a preferred embodiment of this, invention,- there is provided a water
treatment dispensing device.comprising;;an alkalinity;detector, air-alkalinity- reservoir, at least
one.mineral reservoir, a central instruction processor having at-least one database module,
DELHI; :QS - 82 - 2 QI 8 16:;: 569: ; : v

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ari alkalinity proportionate processor, at least one mineral proportionate processor, wherein the alkalinity and mineral(s) of the water dispensing device is customized and personalised as per the local water quality.
In accordance with another preferred embodiment of this invention, there is provided a water treatment dispensing device comprising; an alkalinity detector, an alkalinity reservoir, at least one mineral reservoir, at least one user profile detector, a central instruction processor having at least one database module, an alkalinity proportionate processor, at least one mineral proportionate processor, at least one user profile identifier wherein the alkalinity and mineral(s) of the water dispensing device is customized and personalised as per the needs of the user of the dispensing device.
In accordance with another preferred embodiment of this invention, there is provided a water
treatment dispensing device comprising; an alkalinity detector, an alkalinity reservoir, at least
one mineral detector, at least, one .mineral reservoir,.:at\;leastvpne/us@r:profile-:detector,:.:^
central instruction ;processor haying ; at. least one. database; tfiodule,-/ an: alkalinity
proportionate processor, at least one mineral proportionate processor, at least one user
profile identifier wherein the alkalinity and mineral(s) of the water dispensing device is
customized and;personalised as:per;the local water.;quality;andneed?ipf;1he;user.pf-the
dispensing device:;.;: ■■■; \\ •■/■ ;. -;■ -v.-.:; :.-■.•-; ]■■:■'[ \]'x :;•/."-■ :l~r, ■.;•; ■;:'!-. -v.:'-[/'rx-.:•::-:'.-:. •:-.: :,-7..'v
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In, accordance; with a preferred, embodiment; of;this'invention,; there; is-provided-a -water
treatment dispensing device comprising; at (east one mjnerahdetectqr, atjeagt pne;/mineral
reservoir,)atcentral instruction, processor-jhaving at least one datgba^eimpdule^rat;least one
minecah proportionate, pr^^ the mineral(s) of the water dispensing unit is
customized and personalised as per the local water quality or the needs of the user of the
dispensing device, wherein;the; mineral; prppprtionate; processp.nof thercentraliinstruction
processor.detects; the. current. mineraj(s)' quality;and proportions, of the; running;-water;
compares to the ..standard'values., in database module and ^thereby, the:instructs ;the reservoir
to;supplernentpr;dedupt the .mineral(s) from; the running;water;for better and customised
quality:''- ;-: \.:v:; r. ■' *..•: •;•..'.. ■ -.-;vc:;'*:■.: ■'■'. "--■"■"•■' ■ ^"-.'' • "-- '--V
In accprdancewith another preferred embodiment of this invention, (there is provided a water treatment dispensing device comprising; an alkalinity detector, an alkalinity reservoir, at least one mineral reservoir, at least one user profile detector, a central instruction processor having.,at,Jeast .one database; module, an alkalinity.proportionate; processor, at.least,one mineral proportionate processor; at least on$ user profile1 identifier; wherein the alkalinity ;and
■

mineral(s) of. the-water dispensing device is customized and personalised as per. the local water quality and needs of the user of the dispensing device.
In accordance with a preferred embodiment of this invention, there is provided a water treatment dispensing device comprising; at least one mineral reservoir, a central instruction processor having at least one database module, at least one mineral proportionate processor, wherein the mineral(s) of the water dispensing unit is customized and personalised as per the local water quality or the needs of the user of the dispensing device, wherein the mineral proportionate processor of the central instruction processor is fed with the current mineral(s) quality and proportions of the running water, compares to the standard values in database module and thereby the instructs the reservoir to supplement or deduct the mineral(s) from the running water for better and customised quality.
In accordance with one other preferred embodiment of the present invention, there is provided::;.multiple mineral detectors' and; multiple, mineral: reservoirs asc a cartridge to supplement'the desired. minerals in, local "water quajityor. as per the medical or lifestyle requirements of a user.
Inj accordance ;with.one pthervpreferredembpdi
provided multiples
reservoirs as a partridge tq;suppleTn^
themgdical ppljfestyje.requirements of a:gser, ;■ v\ -:?:V;: ■ ■-■■; ?;-•,■.-- K y''. -\'.r: ■ r.;: .: ■':7\:\r:
In laccordgnce; with one other preferred em.bpdiment; pf-. the/pne.§ent jnyentipn,;;the.miners!
reservoir supplements the water with: a. mineral or nutrient ^produced; by: the nanP^°rmu|atipn
fprm^rhigfrefficieopy and efficapy^ ; i- ;-\■•*,■*;•■..:•■:: :=;:,;;..
In appprdance. with)one:other^preferred:embpdim^n^of,-jhe/present;invention;:the:mineral reserypir supplements the; water with multiple; minerals or nutrients produced by -the nanp-form.ulationat the same time asp.er, the Ipcal.water.quality pr the medical or lifestyle needs, of theus$r. : .^. .-.: ,..- _.
In accordance with; oneothjer- preferred, embodiment of. :thepresent: in ventionr;the. central
instruction. ^processorjs,gdaptable to learn-tire water; qual^
settingsforeven fasteroperatipns. .-..:.•; : -.5 :.:■';; :"' *:.'//'.'•:]: ; -'.;-' :*-/ :* ■:
^L^/Q^-Q^riaiS, 16 1 56^ : ; - -;<;v.- rmv ;

In accordance with one other preferred embodiment of the present invention, the central instruction processor can sync the user profile through a smartphone application of the user or can also sync the water detected quality and logs and indexes to the smartphone application. Thus, it provides the user with a multi-faceted support and access, visibility to the device features. On loading of the medical or lifestyle requirements the smartphone application can load the profile and required mineral(s) or nutrient(s) requirements to the central instruction processor.
According to the present invention, a mineral reservoir has a cartridge which has slots for receiving and dispensing multiple mineral(s) or nuthent(s) as individual packets as per the local water quality, medical or lifestyle needs of a user. The individual packets can be refilled by purchasing the mineral(s) or nutrient(s).
According to the present invention, the developed water dispensing unit uses high efficiency
nanorfprmulationdf minerals) or nutrient(s).and alkalinity providers. It has low losses, better
efficiency;; customized; and personalized water;delivery and :ijs\compact;in_sjze. This also
helps;in reduction of; overall mineral -usage and thus*; reduces: the'wastage.iBecause; of the
high; efficiency, <_ low cost; limited maintenance, -portability; and use customizability, the device
is very much useful for.personal upkeep .at-homes,, during ;travel, for kids,, patients, lifestyle
maintenance and is. also useful for public water dispensing facilities as. in.hptels; ;hpspitals,
multirstoried; buildingsy shopping malls, cinemas, factories. The same device without any
customization will be directly useful in different geographies be it mountains, plains, deserts,
cities; .Pr rural alike; as the device will only ;add ;pr\reduce the alkalinity pf; nr)ineral(s) or
nu.trient(s)/aS;Rer^ .:; ..;.. ;'-,::,
The foregoing and other objects,, feature and advantages of the invention*as well as the presently preferred embodiment thereof, will become more apparent from the accompanying drawings in which:. /,.;..- /;. :, ;.,;.;..-;:/; ; \.,.;-;■.: ,p:-. C:.:: \::± , vv-~; i\'.::['* ■iiV:.:-;::iV:--;/
FI(G-1 is a schematic diagram of a .water treatment ;and enrichment device ;10,Q,;according:to
an embodiment of the.invention. . f : . y
A device-100; is-illustrated, for water treatment andenrjphment purposes:. An enrichment module 126;inputs;filtered.water from a water:reservoir 102 anctioutputs enriched, water to; a water dispenser 124 with alkalinity-and mineral or nutrient ;content. adjustment ;as/per .needs of a user *.*■.;. :■'.'.; ■■, -/:•■.-' -: .- .-,■:.. ;.•; ;:■;"'■:•■..■• •; .;-■".; -■-. ;.■. ;•: ..■-. ■■■. ;.!-*' •."•■, ..'■
Q DELHI 0 8 ~ ® 2 - 2Q1 §; ' 1& : S& 12

The filtration of water for input into the water reservoir 102 is done by trapping contaminants in the water against an outer surface of a filter while water permeates through the outer surface. A nanofiltration membrane(s) is used for reduction of hardness, odor, color and heavy metal ions from undrinkable water.
The filter is developed employing a desired and innovative polymeric material which enable low cost operation, reduction in undesired materials. Further the same obviates the drawback associated with existing filtration techniques such as membrane fouling, insufficient separation, treatment of concentrate, membrane lifetime, chemical resistance, insufficient rejection for individual components etc., wherein said filter according to the present invention can be reused.
Further, the water reservoir 102 employs the nanofiltration membranes, this filter is developed by employing nano membranes, which enables removing of undesired toxic $ubsfances. The filter is preferably (developed as biofjlter based ;o,nmanotechnoJogy and can be reused after a mechanical treatment or enzyme .treatment.-. In/a;.prqcess-;the filtration of source water is done ;by reverse osm;o$iS;process;, -/:a";^ v; !■:.::'. ;:/: ; :'".v, c: ■-.:,* -.•;■.:■
Further, an alkalinity detector 104 detects current pH value or alkaline level of the water from the water reservoir 102. The alkalinity;level readings.are:shared;vyith,a central;instruction processor ;H0-.-which further has * a database moduje llZand. air alkalinity proportionate processor 114. The alkalinity;level readings are;yhich;Sayes;the;user specific or function specific alkalinity levels; The desired alkalinity; leyel is CQi7iputed;and instructed;to 9n alkalinity reserypir 106, which further feeds the required alkaline level into the water from the water reservoir 102 in a water channel 122.
In one embodiment;:the alkalinity is.adjusted by;arj;electrolyzing process.i.ncludi.ng. the step
pf controlling generation of electrolysis/current \p produce the,alkalinewater.y,: v v : ;
In another embodiment addition of calcium and potassium in required proportions adds the
alkalinity. Any other prevalent method can also be used if it can be controlled by an alkalinity
prppprtionate;prpcessor114. ; •'■■; \..;,;.- ;•; . .'-;• '. \-;. :
..",*« . ■ * ,.*-"'p > * ' , i : «. ; .i .", r .■ i. v " ' .' . '-_ ."*■;■.>■ '..».*
j - .
A user profile detector 108 is employed in the enrichment module 126, through this-a user can access the enrichment device 100; and dispenses customized/water quality; A user profile detection happens by any, user recognition methods like.fingerprint; retina scan; PO DELHI parG2-2818 16 - 56^

password code; card swipe detection, smartphorie reader, app sync, NFC chip, gesture or
any existing user detection methodology, the user is recognized and matched with a user
profile stored in the device using a user profile identifier 118 of the central instruction
process 110. /
The central instruction processor 110 further comprises a mineral proportionate processor 116 which instructs mineral reservoir cartridges 120a, 120b, 120c ...120n to dispense the required amount of mineral or nutrient in the water of the water channel 122 from the water reservoir 102. The enriched water in the water channel 122 is further dispensed to user through a water dispenser 124.
FIG. 2 is a schematic diagram of a water treatment and enrichment device 200, according to an embodiment of the invention.
An.enrichment module 126 has-mineral detectors;202a, 202b, 202q, ...202n: The mineral detectors 202a, 202b, 202c, ...202n are used to detect the various mineral content in water of a water-channel 122 from a water, reservoir ;,,102:;The;minerals, suchvas;.calcium, magnesium,, potassium, iron etc. can be detected and readings are shared with a mineral proportionate processor 116. A central instruction processor 110 further comprises the mineral ^proportionate processor 116 vyhich: further; instructs respective mineral-reservoir cartridges; 120a, 120b,_120p,..:-120n to dispense required amount of nfiinera) or nutrient; in the/water of the water channel 122,from the water reservoir 102. The enriched;, water in the vyaterchannel 122 is.further dispensed to user through a;water dispenser 124....
FIG. 3 is a schematic structural diagram of a central instruction processor 110 of a water treatment and enrichment device 300; according toan embodiment.ofrthe.invention: j \>
A device 300 operates by using an enrichment module shown in structural details here. A .microcontroller 302 Js the. brains of.fits operation ; and presides, in a.;central Jnstructjpn prpcessQr;t10. An LED.based detector.304, connected to the microcpntrol!er;3Q2,; signals a user and indicates:if a; mineral reservoir 12Q is empty or; not. Distinct colors of LED; will indicate different status to the user. The LED based detectors can be plural 304a, 304b, 304c, ..:304n proportipnaltp respective mineral reservoirs 120a, 120b, 120c, ..,120n. -.Further,: a user input,306 Is repeiyed from a user upon rpres,sing. a ;button; or using' other detection technologies listed earlier The user input 306 is received and compared by-a user profile-detector 108. and. is. connected to the: microcontroller 302, The user input 306 is DELHI G8-02-2Q1& i&:5%4

' <;* 4 • ' V
compared by the microcontroller 302 using its EPROM memory. The user input 306 enables the microcontroller 302 to pick a user specific and corresponding alkalinity value and one or more mineral values stored in the memory and send same to an alkalinity proportionate processor 114 and a mineral proportionate processor 116 or the mineral dispenser(s) 308a, 308b, 308c, ...308n for respective mineral dispensing by associated motor(s). The values are used further to dispense required quality of water to the user. The user profiles can be reassigned or reprogrammed using a Bluetooth connection with a smartphone application.
A motor enabled mineral dispenser 308a, 308b, 308c, ...308n are actual dispensers which dispenses different minerals or nutrients present in respective mineral cartridges as per the requirements of the user. The motor turns are controlled by the microcontroller 302 to dispense right amount of drops/ mg material. A water inlet valve 310 allows inlet of water in the water channel 122 for further enrichment with one or more minerals or nutrients. A water outlet valve 312 allows dispensing of water from the water channel 122 to the user using a W9ter-dispenser.v124v ;■"/':/ ••;■:;.";'-.:. \y; '.':.:. i;:-:\0'V :•'.•:■.;':;"'. 7r,-; ;..?;*:* r. '■'.;> -':':-s. ..*^:-;:,z
■'■ *' ; ,li -'.■«■*",*■,■'■■.. " '_■'.'' , ... ..._,- .„_ • _ . '-:■■*;« .■'.■••-'-. ■.*',• *■*-,■ i ■•■•-•..; l- ■ -■■».-%•%■
. i .*«• .:.■..■-.".,.*,■.. . ■ • . . - ' i ■. .." ■ . j .'-, ■ • v ; • . _ .'. . .■ . '. . . .. . '.■»•... ' . ■ . •> ■. .t —:
In one .embodiment, a^deviceistgtus iEP,indicat0s^
indicator; LED shows ifwaterispresentin,a water channet; 122. .-;;; r. ... c :/ ■:/.•; ] ::
Further, in- one -embodiment, a glass or container sensor ;is part-of aco.ntrpl unit 314;which
checks .if user hsas.put in ;a container/1 glass,beneath :-a -water outlet';valy :;:"- -r/-; "•.' .:■:'.' • ' -

f* »• -»■* ~ •- -1 - - -> i "/...-■ J « . " .
wilkbe unanswered or. answered,as.invalid.. The-.application will know which device is communicating with the application using the device ID. On selection or change in user profiles, mineral content values and alkalinity value are synced, shared and calibrated as per latest changes. The application will send latest changes to the device so any user made changes are recorded in the device in a format in memory. Another use of Bluetooth 316 is to configure a device with device ID, time, ,user profiles, as per time zones.
m
FIG. 4 is a schematic view of a user interface 402 of a water treatment and enrichment device 400, according to an embodiment of the invention.
A smartphone application 400 has a user interface 402. The user interface 402 has options including but not limited to below. A target dispensing volume 404 of a unit of water dispensed at a time. A time selection 406 field helps to set the time using a real-time clock 318. A user profile selection 408 helps to select, save, edit or update a user specific profile. wjth alkalinity/, different minerals or nutrients 1,2^
yqlume selectipn 410 during water enrichment process;.::Thefediting, updating:chgnges :are savedthrpugh M2 as 27mg,r...; M4 as\30 nig.jThe> user .profilesare -storediwithrthe unique IDs
starting; withidevipe.IDr Later cap be/^
unique user profile generate.d.byj^ :::,■ -» v--. :■■;;*/■■;
F|Q.\5;is a schematic view of a user interface -of, a watentreatment and enrichment.devi.ee, according to an embodiment pfthe invention;
The mineral or nutrientvvalues 504M1, 504M2, ,.504Mn values against time zones 502T1,
5G2X2i;v;5Q2Tn are stored in a-memory for each user separately^ User profiles^are stored in
orderpf time zp.nes and a new user is added wittefurthiBr/MlrMOraRd'T-.lrTo values.in same
order./All rvalues can ;be programmed, reprogrammed,. revised.as per:user requirement
through Bluetooth based mobile, app sync,* ■.:•/
DELHI* .08 -02-;2eir 16:5% ■ ;■■ \...;v.

For each user a similar profile type will be created as shown in 500, accessible through a
V
smartphone application. The minerals or nutrients M1-Mn values against a time zone T1-Tn are listed for a specific user to suit the medical or lifestyle requirements of the'user. User X preference can be seen in FIG.5 representing that all minerals/ nutrients in M1-M8 format and time zone applicable in T1-T4 format. M1-M8 can change, in count and in content type, as per user requirement and as per embodiments used.
In an embodiment, each mineral dispenser 308 dispenses one drop at a time using a calibrated motor. For correct selection of each mineral and dispensing into water channel we need to know how much milligrams of each mineral or nutrient is present in each drop. Based on the calibration of device used in one of the embodiment we used, we found that one drop of magnesium has 5 mg, one drop of calcium has 10 mg, one drop of ferrous has 12 mg, one drop of zinc has 10 mg, one drop of honey has 50mg and one drop of lemon has 2 mg and alike for other materials. The device will dispense water according to time of the day and in accordance to.a user profile it is; serving tor. For iexample.^>:tiine':zoilQS:J^Iis morning time 4-11AM, T2; is noon time. 1-1 AiyitSPM; T3 is evening time 5-11PJV!.andTWyis night time ;1.1PM-4AM;.:, _;-.:- \ ;;; j -;, ;.r,:o:i:: ::*;:/., \i v;— ---- c.:i.-:.'r.;-:;v. *J;:; ;:
, !TT one :q.f the embodiments, 'if user xhas savedhjs profile jwith; MJ content/to, .^
rnorning.-time Tt and M5content to be;8mginevening. When user X selects a dispense
water button on device at 6:30AM, the device will dispense 30mg M1 automatically without
renjjnding; user what -he. is-supposed to .drink,at that time.: While, the; same.device without
Qhapging any setting, just because the'us^
S:1:0iPMi;8mg M5 will be;dispensedin*the^ ..;..--. ;^;.;,
The various combinations;pf M1-M8. multiple or togetheriare.ppssible.within a time^zpne T1-T4.iHo,that case <3 :pr. 5: pr.even 8 minerals, wift be. added;at same; .dispense ..with=vsripus yalu^s:5Q6p;f minera!;contentto;be dispensed,-; ;\=;'j ::;.: ^vv \.^>? •;:; ,/:V: ';:iVv: orfh*
In an embodiment, a device status shows LED 304;with blinking green. For ex.-if;the timejs 21:22pm, and a user X is accessing the device for dispensing required water. An evening profile of user X mentions mineral M2 as 24mg and mineral M4 3mg is required to be dispensed:. The ,mg content will be translated into 3 drops, of M2 and-1 drop .of M4.in. this situation by corelating from a database table ^having«values;:pf; minerals listed, in it. The dispenser wjlLdispense from. M2 by rotating motor for dispensing 3;drops:i.:e:;3 cycles ;or,as perthe calibration used in a.device and by. rotating M4 for dispensing 1 drop i.e. 1 cycle.
DELHI 08-02^2018' 26:sSi7 ■ : ^

The mineral will be dispensed in the water channel attached to the dispensing units. The , water present LED will blink green to show some water is present in device. On placing the glass/ container near the outlet. The water will be dispensed and device status led will turn red as device is now in idle state. If user X again wants a water at a time falling under same time zone, same process will be repeated and user X will get water of his choice. If user X cancels the operation full water is flushed out with the mineral already dispensed. If user Y wants water at the same time zone or a different time zone the user Y profile will be checked and in one embodiment M1 with 4 drops and M4 with 3 drops will be dispensed as per the saved user profile.
In an embodiment, a motor pump used in a mineral dispenser 308a, 308b, ...308n is a DC 12V-D2 Mini Peristaltic Dosing Pump ID2mm with specifications as: pump line diameter: 2.0mm(ID) x 4.0mm(OD), pump length: -40mm, flow rate: 5-40ml/min, motor type: DC motor, voltage: 12V, lift: 10m, suction range: 5m.
Inan embodiment, an Inlet water valve 310 and. an.outlet.water valve .31.2used-.arerDC:.24y
solenoid valves with specifications as: dimensions:: 33 xt2;3 x 0.2;cmy weight:- 99:.8gi; Valve
type: DQ valve,:voltage: 24V;;pressure::Q-120PSI, orifice diameter; 25MM..7; ;. ;: v
In,an ^embodiment, a Bluetooth rfloduler^
specifications as;.dimensions:. 12.7mm><.20TTim;-operating frequency; 2,4GHz and hardware features;as:; typical. r80dBrp sensitivity, up to :+4dBrn RF transmit ;ppwer;; low: Power ,1 8V Operation ; 1.8 to 3.6V I/O, PIO control, UART interface with programmable baud rate, with , integrated antenna, with edg4 connector and software features as: default baud rate: 38400, data :bjts:;8,;stop bit::A,; parity: no parity,;data control: has, supported baud rate: 9600,;i920.0; 38400,v 57600; .115200, 230400; 4608.00; .awto-conneet::;-.t©-\the: last, device :pn; power as default, :permit pairing device to connect as default, auto-pairing, PINQQDE;"0000" asdefault, autp^cpnnect in30:min when disconnected.as.a result of beyond the range of connection.
In ■an^^mfeoid|m©ntv■\a^\rea^tirTle .clpck,.318ris a. DS3231 real time ; clock module; wi.th
specifications as; frequency: 32.768kHz, Osc. type: TOXO^tiining adjustment type: digital,
freq.; qutputtype:CMOS open-drain,- frequency^tabifity (±ppm/yr) Q:to +40°C: 2, frequency
stability (±ppm/yr) -40 to 0°C/ +40 to +85°C: 3.5, frequency stability (±ppm/yr) vs. VCC: 1
(typ),, frequency stability (±ppm) VS: aging:.5 (0T10 :Years)CVSUPPLY (V):-.2,3 to 5.5,
package/pins; ;.SOIG/16, Interface:, I2G, time, keeping current (nA)tvp: 840,- integrated
resonator: XTAL, functions: RTC. :
DELHI 06-02-201S 26 :5fc : ;: ;

In an embodiment, a microcpntroller 302 is a Atmega32 microcontroller with specifications as: high performance, low power Atmel®AVR® 8-bit microcontroller, advanced RISC architecture, 131 powerful instructions - most single clock cycle execution, 32 x 8 general purpose working registers, fully static operation, up to 1 MIPS throughput per MHz, on-chip 2-cycle multiplier, data and non-volatile program memory, 16/32/64K bytes flash of in-system programmable program memory, 512B/1K/2K bytes of in-system programmable EEPROM, 1/2/4K bytes internal SRAM, write/erase cycles: 10,000 flash/ 100,000 EEPROM, data retention: 20 years at 85°C/ 100 years at 25°C(1), optional boot code section with independent lock bits, in-system programming by on-chip boot program, true read-while-write operation, programming lock for flash program and EEPROM data security, on chip debug interface (debugWIRE), CAN 2.0A/B with 6 message objects - ISO 16845 certified, LIN 2.1 and 1.3 controller or 8-Bit UART, one 12-bit high speed PSC (power stage controller), non-overlapping inverted PWM output pins with flexible dead-time, variable PWM duty cycle and frequency, synchronous update of all PWM registers, auto stop function for 0merge.ncy,event,; peripheral features^one 8-bit general purpose timer/counter with, separate prescaler, compare mode, and capture mpde; on^.16-bit; general purpose timer/counter with separate prescaler, compare mode and capture mode, one master/slave.SPI serial interface, lOrbitADG, up To 1,1 single, ended channels, and; 3 fully; differentia! ADC .channel pair?; programmable; gain (5*, 1;Qx, 2Qx; 40*) on differential/channels, internal:reference.voltage direct ppwer/supply voltagermeasurement;; 10-bit:PAQ for variable yoltage preference (comparators, ADC), four analog comparators with variable threshold.d?tectipti,-100|jA ±2% current source (LINnode identification), interrupt and:w$keruptonpin change,, programmable watchdog timer with-. separate :on-chip oscillator,, on-chip temperature sensor; -special microcpntroller features;, low power idle, noise reduction,- and .power down modes,; power.On reset and programmable brown out deteption, Jn-system; programmable via SPI ;port, :high precision ;crysta.lr oscillator for CAN operations (16MHz),; interna) calibrated: RC oscillator, ( 8MHz>;;Qn^hipPfcLi::for.f9rt:;PWM (32MHz,64MHz) and.CPU (16MHz), operating voltage: 2,7V : 55V,extended operating .temperature: T40PG; to+85°C,core speed grade: 0 -8MHz @'2,-7r4v5V/ 0 - 16MHz @ 4.5 - 5;5V.
The embpdiments-in the specification are described in ;a progressive manner, and focus of description in each embodiment is the difference from other embodiments. For same;.or similar parts of each embodiment, reference may. be made to each-other. Because the method;disclosed in the; embodiment is corresponding to the apparatus.disclosed,in the embodiment, :the description; of the method;istsirTiple.; For related parts; reference may be made to thedescription of the apparatus;.

It will be appreciated by those skilled in the art-that the foregoing description was in respect of preferred embodiments and that various alterations and modifications are possible within the broad scope of the appended claims without departing from the spirit of the invention with the necessary modifications.
Persons skilled in the art should understand that all or a part of the processes of the method according to the embodiments of the present disclosure may be implemented by a program instructing relevant hardware. The program may be stored in a computer readable storage medium. When the program is run, the processes of the method according to the embodiments of the present disclosure are performed. The storage medium may be a magnetic disk, an optical disk, a read-only memory (Read-Only Memory, ROM) or a random-access memory (Random Access Memory, RAM).
Based on the description of disclosed embodiments, persons skilled in the art can implement pr.apply the present disclosure,; Variousmodifications Pfthe.embpdiments are apparent .to persons . skilled - in the art, and general- principles defined\in 'the;specificatipn /can be irnplemented in other embodiments,without departing frpm.:therspirit pr-scpp^.of the present disclosure: -Therefore, - the present disclosure is not limited to the embodiments in the specification, but intends to cover the most extensive scope consistent with the principle and the npyetfeatures-disclosed in.the specification-.

We Claim:
1. A water enrichment and dispensing device (100), the device comprising:
a water reservoir (102);
an alkalinity reservoir (106);
an alkalinity detector (104) to detect alkalinity of water from the water reservoir (102);
an alkalinity proportionate processor (114), wherein the alkalinity of the water is adjusted using the alkaline reservoir (106);
a central instruction processor (110), wherein the central instruction processor (110) instructs the alkalinity proportionate processer (114) as per readings of the alkalinity detector (104) and user preferences.
2. The device according to claim 1, wherein the user preferences are stored in local ■memory of the central instruction processor and detected through a user profile detector (108).
3. The device vaccqrdingv to: qlgim 1, wherein the water reservoir (102) is made of biocompatible material.
' 4. A water enrichment and dispensing device (200), the device comprising:
a water;reservoip(1.02);
at. least voneminera! detector (202;a...n) to detect mineral content of water from the water.reserypjrd02);
iat: least ;one; mineral* reservoir (120a.v.-n) connected to, the- mineral detector (202a;;;n>;:r
a central instruction processor (110) having
at least .one requiredYmirjeralydispens [mineral
reservoir;.(202a,. ..n) far; a user,;
at least one mineral proportionate processor (116), wherein the mineral proportionate processor (116) detects current mineral content of the water from the wafer- resesrvqir :(102), compares to; user preferred.: mineral .dispensing : value, and instructs;the mineral jeservoir (120a...n) to supplement or deduct the at least one mineral in the water from the water reservoir (102).

5. A water enrichment and dispensing device (200), the device comprising:
a water reservoir (102);
an alkalinity detector (104) to detect alkalinity of water from the water reservoir (104);
at least one mineral detector (202a...n) to detect mineral content of the water;
at least one mineral reservoir (120a...n) connected to the mineral detector (202a...h);
a central instruction processor (110) having
at least one required mineral dispensing value for the at least one mineral reservoir (120a...n) for a user,
'an alkalinity proportionate processor (114), wherein the alkalinity of he water from the water reservoir (102) is adjusted as per readings of the alkalinity detector (104) and user preferences,
at least one mineral proportionate processor (116), wherein the mineral proportionate;processor-(116) detectscurrent .mineral content.of the water from the alkalinity proportionate/processor (114), compares to user preferred mineral dispensing value, and instructs the mineral reservoir (120a.v.n);tq supplement pr;deducttheatteast one tnineral in the water from the water reservoir (102).
6. The deyjce, according/to /claim 4: or 5;; wherein mineral .formulation .of; the mineral reserypir;(120a...n) is in nano form to deliver with high precision and high absorption rate. -\ CL.-;-.-. ' :. ■::■:•: " ;-\.w ;.::v(\ • ::) / :v\V;
7. Ttie. deyice;;;according to claim 4 or 5, further comprising multiple mineral reservoirs (120a..;.n) to supplement user.;preferred minerals in.yanous-combinations:^a medical.-or-lifestyle requirementspf;a user,: * ■-•; :; ;;■;,; :!.; : ■•.;...>
8. The device; according to claim,4 or; 5,; wherein the centralinstruptionprpcessprXI ftO^caji synco-3 *yser: profile; and; required -mineral dispensing values•.throughv9: ;smartphqn§ application;(400):. v ;,.*.-.•;,;.;.■. ,(i 1 '), ^;* ; ; ; ; v; ■' • -: Vr 'i i/.'-V:." i */W-.•">?.;: *•
9. The deyiceiaccording to ,claim;4 or5, wherein the; central instruction processor (110) is adaptable to learn the water mineral quality and adjust instructions.
10. A waterdispensing device (200); the deyicei comprising:- . ;.:.,.:;;
a water reservoir (102);

a nanomembrane filter to clean water from the water reservoir (102) of contaminants;
a pH sensor(104) to detect pH value of the water;
a pH adjuster (114) to adjust the pH of the water based on readings of the pH sensor and user preferences;
a mineral sensor (202a...n) to sense scarce or surplus mineral in the water from the pH adjuster (114);
a mineral reservoir (120a...n) to dispense user specific amount of the mineral in the water;
a mineral adjuster (116) to supplement or eliminate the mineral in the water based on the mineral sensor notification and using the mineral reservoir (120a...n).
11. The device according to claim 4, 5 or 11, wherein the user preferred mineral dispensing
value is from at least one user profile (118), wherein the user profile (118) maintains at
least one;mineral dispensing, value, for at least one timeofday.* .■-'.;. v {; V*. 12. The device .-according to; claim-11; wherein; the centra! instruction processor (110) can sync abuser: profile- and; user, preferred pH'& mineral ;dispeTi§ingvyalue,;through;;a smartphone application (400).
13. The .device according to claim 4,5 or 11, further comprising at least one user access module (408)*. wherein a useris detepted^ on;the device,by;ugjng a,user recognition method (108).
14. A water enrichment device ;(200), comprising:. ,-•>■:; \vi • *"
a water channel (122) for receiving water and passing the water through
:'•;, enrichment modules; ;■ -\ .-. :.- r;> v.:.\:■;;.•;■•; ■■■■••• u-r: *v.-V;v :v.; * :v: r.'.:,-• ■::-.:.)•
>.;.: ;. a pH; cartridge (106) through .which thewater in the. water channel ;(122). j.s
adjusted;forpH;;:,;.', ••■,.-.:.;;•..; \;::. / - :; ,\ ■;;;"■; w ;y': ■:;?*•/.
at least one mineral cartridge (202a...n) which supplements at least one user .;;. preferred-mineral arppunt in the:\yater of the;water channel (122) and; enrich the;watei: fprdispensing to:a user.: • •-■;..■ v..*- •-, ■. •-; ;' ,;. :;. ; ; .;:;,:, v,j\:.-. C:r-•."':)
15. The device according to claim 14, wherein the mineral cartridge (120a...n) has at least
v.-). one preset mineral dispensing rate-to;enrich;the;water; b.ased; on.;the.lQcal quality-pf
water; ■■

16. The device according to claim 14, wherein the pH cartridge (106) has at least one preset alkalinity dispensing rate to enrich the water based on the local quality of water.
17. The device according to claim 14, wherein the mineral cartridge (120a...n) has a manual adjuster to adjust at least one mineral dispensing rate to enrich the water based on the local quality of water.
18. The device according to claim 14, wherein the pH cartridge (106) has a,manual adjuster
. to adjust alkalinity dispensing rate to enrich the water based on the local quality of
water.
19. A cartridge for use in enriching water of a water enrichment device, said cartridge
comprising:
a set of slots, wherein each slot can receive a nano-formulation based sachet of a mineral ora nutrient;
a gate,of;the slot is.opened,for a predetermined period.of time,based on the
instructions of a mineral proportionate processor, wherein the gate allows the mineral or
;7. nutrient to. enrich water when water comesjnto contact from a t>A(ater.channel,?whereir|
the mineralrprppprtipnate processor instruct? the gate tp.ppen,based, on readings ;of ;a
mineral detector, time of day and user preferences.
20r The cartridge according to daim 19, wherein the; sachet having themineral from at least pne.^f/Spdium;, Potassium- Magnesium,: Iron,; Qalpiumv.and; Vitamin C; the;nutrient;from atjeast one of Lemon, Honey, Trifla, Amla, Harad, Cumin, Fenugreek, Salt, Sugar.