Laundry liquid mixing apparatus

Information

  • Patent Grant
  • 10982373
  • Patent Number
    10,982,373
  • Date Filed
    Thursday, June 1, 2017
    7 years ago
  • Date Issued
    Tuesday, April 20, 2021
    3 years ago
Abstract
Apparatus for providing a laundry product to a wash load based on user input, comprising a dosing unit (2) for placing in a washing machine drum and a dispensing device (1) having a dispensing area (3), a nozzle (4) and a plurality of reservoir cartridges (6a, 6b, 6c) containing various laundry products that are combined by a user and which are dispensed into the dosing unit (2) by said nozzle (4) as soon as said dosing unit (2) is placed in the dispensing area (3) located underneath the nozzle (4).
Description

The present invention relates to devices for providing laundry compositions on demand in a user's home.


For many consumers, no one laundry product fulfils all of their needs. As a result, many consumers buy and store more than one laundry product. Selections include biological and non-biological products, products specifically formulated for white or colours or wools/silk. In addition to storing these laundry products, consumers often store one or more additional stain removal products and/or benefit agents. In total, this can amount to a relatively large number of bottles/boxes stored in consumers' kitchens, utility rooms, garages or basements.


Other consumers simply use one laundry product for all loads, regardless of suitability. This can mean that unnecessary enzymes, bleaches etc are used in so-called refresh washes (where the load is not stained) which may have detrimental effects on fabric care and/or the environment.


The present invention seeks to address one or more of these problem identified in the prior art.


SUMMARY

The invention relates to a device for dispensing laundry product into a dosing unit. Suitably, the dosing unit may then be placed in the washing machine drum as normal for the wash program. The dispensing device prepares laundry product according to a recipe. The recipe may be selected based on the user's needs/preferences.


The laundry product is prepared from one or more reservoirs. The reservoirs contain laundry ingredient compositions, which may be liquid or solid (e.g. powder). For example, a first reservoir may comprise a “base” detergent composition, while a further reservoir may comprise an optional ingredient composition. Optional ingredients may include, without limitation, enzymes, bleaches, disinfectant, and fragrance. It will be appreciated that preferably there is more than one further reservoir, permitting more variety in laundry product dosing. The device provides, on command, composition from the first reservoir and optionally one or more of the further reservoirs, thereby providing a laundry product that may be considered bespoke to the user's particular wants and needs. For example, the product may be prepared to target particular stains, obviating the need for specific spot treatment.


An additional or alternative benefit of the present invention is that laundry product ingredient combinations not normally accessible in a single product may be generated by the device. As the time period between dosing the product and beginning the wash is small, problems associated ingredient incompatibility and degradation are avoided.


This is especially true of liquid compositions, in which ingredients are more readily able to react on storage. Similarly, as composition is dosed directly into the dosing unit to a recipe stored within or generated by the device, it is not necessary that the final composition be substantially homogenous or of a particular viscosity, as is normally the case for commercially supplied laundry liquid products. This permits greater flexibility in the identity of, and relative ratios of, various ingredients.


In a first aspect, the invention relates to an apparatus for providing laundry product bespoke to a wash load based on user input, the apparatus comprising a dosing unit for placing in a washing machine drum and a dispensing device having a plurality of reservoirs containing various ingredients that are combined based on the user's input.


Accordingly, in a first aspect, the present invention may provide an apparatus for providing laundry product, the apparatus comprising a dosing unit for placing in a washing machine drum and a dispensing device having a first reservoir containing a detergent composition and a further reservoir containing an ingredient composition; wherein the device has a computer module programmed to cause the device to dispense the detergent composition and optionally the ingredient composition to provide a laundry product in the dosing device as a result of input by a user.


The dosing unit may be conventional dosing ball, or may have one or more features designed to complement or otherwise interact with the device. In some cases, the dosing unit seals the product within a chamber inside the unit, opening during the wash cycle to form a wash liquor.


The composition is dispensed by the computer module according to input provided by the user. Input may be provided in various ways, for example by the user making choices or providing suggestions, or through sensing a tag or label in the article to be laundered (such as a QR “quick response” code). Suitably, this input is captured via a user interface on the device. The device may include a graphical user interface (GUI). For example, the GUI may be presented to the user on a digital screen of the user interface. Input from the user may be captured by the user interface of the device via various user interaction mechanisms including: manipulation of buttons, touch screen, voice commands, gestures or other suitable methods. The computer module may communicate with an external user device such as a mobile phone, tablet or laptop to receive user inputs from a user interface on the external device. Using the interface, the user may select a suitable laundry liquid recipe, or the computer module may select, generate or obtain a recipe based on the input (load type, staining, preferences and previous wash history etc). The recipe used to determine the amounts may be obtained from an internal memory within the device, or may be obtained from an external memory accessed, for example, via the internet.


The user interface may include a facility to input data in sets, for example through asking to user to selection certain options or alternatives. Accordingly, the device may have or communicate with a user interface via which the user is able to input data using at least two sets of options.


At least one set of options may prompt the user to input stain identity (grass, chocolate, blood etc).


At least one set of options prompts the user to input fabric colour and/or type. (e.g. cotton, polycotton, polyester).


Based on the data provided for each of these sets, an algorithm may be employed to determine an optimised formulation, balancing the cleaning needs of certain stains against others. The algorithm may be stored and accessed on the computer module of the device, or it may be obtained from an external source such as the internet.


Accordingly, in some cases the computer module is programmed with an algorithm to determine how much product is dosed from each reservoir based on the user input.


Accordingly, in some cases the computer module is programmed to communicate with an external source to access an algorithm and determine how much product is dosed from each reservoir based on the user input.


Each reservoir is in controllable fluid communication with a dispensing nozzle which dispenses into the dosing unit. The compositions from the various reservoirs may be dispensed directly into the dosing unit (as it is not necessary that the various compositions are mixed before use) or may be dispensed via a pre-mixing chamber, which mixes two or more compositions prior to dispensing.


In some cases, the compositions are dispensed directly into the dosing unit. They may be dosed sequentially or concurrently.


In some cases, the device has a pre-mixing chamber in which two or more compositions are mixed prior to dispensing. Individual ingredient compositions may be dispensed into said chamber, where they may be mechanically mixed (by stirring or agitation, for example), or may naturally disperse and mix as each component is added.


For example, and not by way of limitation, the ingredient composition may be an enzyme composition. The user may then select a “biological” or “non-biological” wash, depending on whether or not enzyme is dispensed.


Accordingly, in some cases the device has a further reservoir containing a composition comprising an enzyme.


For example, and not by way of limitation, the ingredient composition may be a whitening composition (for example, containing one or more whiteners, fluorescent compounds, shading dye). The user may select a “whites” or “colours” wash, depending on whether or not whitening composition is dispensed.


Accordingly, in some cases the device has a further reservoir containing a composition comprising a fluorescer and/or a shading dye.


It will be appreciated that preferably the device comprises more than one further reservoir. This permits greater variation in the laundry liquid compositions obtainable from the device.


For example, with one further reservoir, two types of composition are obtainable: Base composition and Base composition+ingredient 1.


With two further reservoirs, four types of compositions are obtainable: Base composition; Base composition+ingredient 1; Base composition+ingredient 2 and Base composition+ingredient 1+ingredient 2.


With three further reservoirs, eight types of compositions are obtainable: Base composition; Base composition+ingredient 1; Base composition+ingredient 2; Base composition+ingredient 3; Base composition+ingredient 1+ingredient 2; Base composition+ingredient 1+ingredient 3, Base composition+ingredient 2+ingredient 3 and Base composition+ingredient 1+ingredient 2+ingredient 3.


In some embodiments, the device has only one further reservoir. In some embodiments, the device has two or more further reservoirs. In some embodiments, the device has three or more further reservoirs. In some embodiments, the device has four or more further reservoirs. In some embodiments, the device has five or more further reservoirs. It will be understood that, while there is no upper limit, for simplicity it is likely that no more than eight, optionally no more than seven, optionally no more than six further reservoirs are present.


The reservoirs may be integral to the housing of the device or, more preferably, they may be provided as pre-filled cartridges that cooperate with the housing of the device, such that the composition in the reservoir is in fluid communication with a nozzle for dispensing the composition into the dosing unit or a pre-mixing chamber.


A reservoir cartridge may have stiff walls. In other words, the cartridge may retain its shape regardless of the amount of laundry product in the reservoir. A reservoir cartridge may have flexible walls. It will be appreciated that the cartridge may be configured to suit the overall design and shape of the device. Said reservoir cartridge may be, without limitation, a pouch or stiff plastic container.


Each reservoir cartridge may be fixable within the device such that the contents of the reservoir are sealable by a valve. Suitably, therefore, the cartridge comprises mating means configured to engage with complementary mating means on the device such that, when in place, the reservoir cartridge is held securely and laundry product within the reservoir cartridge is contained or released according to whether the valve of the device is in a closed or open state. In other words, the cartridge may comprise a connecting portion which mates with a complementary connection portion of the device.


Additionally or alternatively, the contents of the reservoir may be supplied by pressure and/or vacuum generated within the device. It will be appreciated that the device may have a pump to move the liquids from the reservoirs to the dosing nozzle, optionally via a pre-mixing chamber, to be dispensed.


Accordingly, each reservoir cartridge may be fixable to the device by mating means configured to engage with complementary mating means on the device such that, when in place, the reservoir cartridge is held securely and laundry product within the reservoir cartridge is contained or released according to whether the pump is on or off.


In some embodiments, the device may comprise a further reservoir containing an ingredient composition comprising a disinfectant. This may be optionally dosed for a hygiene wash, for example when a member of the household has been ill or for fabric stained with bodily fluids or biological waste. Additionally or alternatively, the device may comprise a further reservoir containing an ingredient composition comprising a bleach, which may be optionally dosed for a hygiene wash, suitably when the fabric is white.


The further ingredients may also be used to top up ingredients that may be present in the detergent formulation to provide a boost effect.


In a further aspect, the invention provides a dispensing device as described in the first aspect. It will be appreciated that all options and preferences previously described apply were permitted.





DESCRIPTION

The invention will now be described without limitation with reference to the following diagrammatical drawings in which:



FIG. 1 shows a representative drawing of the apparatus of the invention.



FIG. 2 shows a partially cut away representative drawing of the apparatus of the invention showing part of the cartridge arrangement.





The apparatus as illustrated in FIG. 1 has a dispensing device 1 and a dosing unit 2. The apparatus is a standalone device, designed to be placed on a countertop or similar. For example, it may be placed on a countertop in a kitchen or utility room, or may be placed on top of a washing machine. It may also be built into a kitchen unit.


As illustrated, the dosing unit is a conventional dosing ball, which is typically made of plastics material. In use, the dosing unit is placed in a dispensing area 3 located underneath a nozzle 4. As illustrated, the dispensing area 3 is a recess provided in the device housing, and the dosing unit 2 is placed on a surface provided in the housing. However, it will be appreciated that the housing may be shaped in different ways such that, for example, the dosing unit is placed directly on the countertop (or other surface on which the device is placed) in use.


Laundry product ingredients are dispensed into the dosing unit 2 via the nozzle 4. As shown, only one nozzle is used. However, it will be appreciated that more than one nozzle may be provided. For example, different reservoirs may be in fluid communication with different nozzles such that a first reservoir is in fluid communication with a first nozzle and a second reservoir is in fluid communication with a second nozzle.


The device has a control/information interface 5. As illustrated, the interface 5 is a touch screen provided in the housing that both displays information and allows selections and information to be inputted to a computer module (not shown).


However, in other embodiments the device may be provided with a panel having buttons, dials or similar for inputting information. In other embodiments, input may be conveyed via command or gesture. It will be appreciated that a display screen in the housing of the device is not essential. The device may be configured for use without a display screen, or an external display screen on for example a phone or tablet may be coupled to the device (for example, via Bluetooth or similar).



FIG. 2 shows a partially cutaway image of the apparatus of FIG. 1. The interior houses three reservoir cartridges 6a, 6b, and 6c. Each cartridge houses an ingredient composition. For example, in this non-limiting illustrated embodiment, 6a houses a detergent formulation, 6b houses an enzyme formulation, and 6c houses a whitening composition (which may include a shading dye or similar). Each cartridge has a valve 7. Each cartridge is in fluid communication with the nozzle via a flow path 8. Flow from the cartridge to the nozzle (where it is dispensed) is controlled by the valve. In this embodiment therefore each valve is a metering valve, with the volume metered controlled by the computer module. It will be appreciated that the valves may be located at any point along the flow path, and other types of valve may be used. It will also be appreciated that metering of the ingredient compositions may be achieved in other ways, for example through generation of pressure in the reservoir to force the liquid out.


The diagram shows individual flows running from each reservoir to the nozzle 4. It will be appreciated that flow paths may meet before the nozzle is reached. For example, the device may have a pre-mixing chamber in which different ingredient compositions meet before they are dispensed into the dosing unit.


In use, the dosing unit is located under the nozzle (such that product dispensed through the nozzle enters a chamber of the doing device). The user inputs information about the laundry load to the computer module. Typically, data may be entered in two or more sets, each set requiring certain information from the user. For example, Set I may be used to input the load type: whites or colours. Set II may be used to input the presence or absence of staining and, optionally, the stain type. The user may therefore select whites, grass stains, mud stains. Other data requirements may include the fabric type (cotton/polycotton/polyester) as optimal fabric care benefit agents and amounts may be different in each case; fragrance selection (different members of the household may prefer different fragrances for their clothing, or it may be desirable to fragrance bedding and towels but not clothes); extent of staining (for example, lots of grass stains, only light mud stains); size of load (small loads may require less product).


An optimised wash composition is then determined and the appropriate amount from relevant cartridges dispensed. The computer module (not shown) controls the amount dispensed.


The recipe used to determine the amounts may be obtained from an internal memory within the device, or may be obtained from an external memory accessed, for example, via the internet. Often, particularly where there is more than one stain type, an algorithm may be employed to determine the optimised formulation, balancing the cleaning needs of certain stains against others.


In the apparatus as illustrated, 6a houses a detergent formulation, 6b houses an enzyme formulation, and 6c houses a whitening composition. Accordingly, if the user selects:

    • 1. Colours→Not stained: the computer module may not dose the contents of 6b and 6c as the memory bank or algorithm may determine they are unnecessary.
    • 2. Whites→Stained: the computer module may dose the contents of all three cartridges as the memory bank or algorithm may determine they are desirable.
    • 3. Whites→Not stained: the computer module may not dose the contents of 6b as the memory bank or algorithm may determine it is unnecessary but may dose the contents of 6c as the memory bank or algorithm may determine it is desirable.
    • 4. Colours stained: the computer module may not dose the contents of 6c as the memory bank or algorithm may determine it better for fabric care, but may dose the contents of 6b as the memory bank or algorithm may determine it is desirable.


Detergent Formulation

Also referred to as base formulation, this composition comprises one or more surfactants.


Example components for a concentrated detergent base include the following:


Anionic surfactants, for example having an anion selected from linear alkyl benzene sulfonate (LAS), primary alkyl sulfate (PAS), alkyl ether sulfate (AES) and mixtures thereof.


Nonionic surfactants, for example which may include primary and secondary alcohol ethoxylates, especially C8-C20 aliphatic alcohol ethoxylated with an average of from 1 to 20 moles of ethylene oxide per mole of alcohol, and more especially the C10-C15 primary and secondary aliphatic alcohols ethoxylated with an average of from 1 to 10 moles of ethylene oxide per mole of alcohol. Non-ethoxylated nonionic surfactants include alkyl polyglycosides, glycerol monoethers and polyhydroxy amides (glucamide). Mixtures of nonionic surfactant may be used.


Amine Oxide Surfactants of formula R1N(O)(CH2 R2)2 in which R1 is a long chain moiety and each CH2R2 is a short chain moiety. R2 is preferably selected from hydrogen, methyl and —CH2OH. In general R1 is a primary or branched hydrocarbyl moiety which can be saturated or unsaturated, preferably, R1 is a primary alkyl moiety having chain length of from about 8 to about 18 and R2 is H. These amine oxides are illustrated by C12-14 alkyldimethyl amine oxide, hexadecyl dimethylamine oxide, octadecylamine oxide.


Some zwitterionic surfactant, such as sulphobetaine, may be present. A preferred zwitterionic material is a betaine available from Huntsman under the name Empigen® BB.


Preferably the compositions contain less than 10 wt %, more preferably less than 5 wt % zwitterionic surfactant.


Cationic Surfactants may be included, but are preferably substantially absent from the detergent formulation.


A particularly preferred surfactant system is provided by linear alkyl benzene sulfonate (LAS) and C10-C15 alcohol ethoxylated nonionic surfactant with 2 to 7 EO.


Further Reservoir Laundry Ingredient Compositions


The present invention enables individual ingredients of the laundry product to be segregated in different compositions. Any further reservoir of the device may contain any one of the follow non-limiting examples of suitable compositions.


A suitable laundry ingredient composition may comprise on or more enzymes. Suitable enzymes include for example, lipases, proteases, amylases, mannanases, cellulases, and pectate lyases.


While enzymes are powerful stain removers, for many wash loads some or all enzymes may be omitted. For example, different families of enzymes are effective against different classes of stain, and a large number of laundry loads are not stained at all. Including enzymes in each and every wash may therefore be wasteful.


The inventors have observed that certain enzymes cannot be stored in combination. For example, protease and lipase cannot usually be combined in a single liquid composition because as the protease may digest the lipase on storage. Similarly, protease may digest cellulase on storage in a liquid. However, lipase gives excellent benefits on removal of fats, while cellulase gives improved fabric treatment with colour preservation and pill removal and/or background whiteness benefit (depending on the cellulase used). This means that conventional laundry projects often contain an enzyme mix.


The present invention permits, through use of more than one laundry enzyme ingredient composition, the assorted benefits of these enzymes to be accessed in a single load.


For example, the device may comprise a first further reservoir containing a first ingredient composition comprising a protease (and suitably not containing a cellulase and/or a lipase) and a second further reservoir containing a second ingredient composition comprising a cellulase and/or a lipase (and suitably not containing a protease). Neither, one or both of these compositions may then be supplied depending on, for example, the type of staining.


Accordingly, in some embodiments, the device has a further reservoir containing an ingredient composition comprising a protease. Additionally or alternatively, the device may comprise a further reservoir containing an ingredient composition comprising a cellulase and/or a lipase.


In some embodiments, the device may comprise a further reservoir containing an ingredient composition comprising a bleach. This may be optionally dosed for white loads.


The further ingredients may also be used to top up ingredients that may be present in the base formulation to provide a boost effect. For example, the applicant has observed large benefits for adding extra sequestrant into the wash cycle, over and above the amounts typically able to be formulated in laundry liquid formulations. The present invention enables the use of larger quantities of sequestrant than would normally be accessible by providing all or additional sequestrant in a separate reservoir to be dosed separately into the formulation provided in the dosing unit. Furthermore, the applicant has observed that the apparent benefits of greater sequestrant content are improved at lower pH. It will be appreciated that the present invention permits the provision of multiple liquid compositions, each having a different pH for storage, combined shortly before a wash begins.


In some embodiments, the device may comprise at least one further reservoir containing a fragrance composition. This offers two advantages: firstly, the user may select the fragrance to suit (for example, fresh, floral or musky) rather than being constrained by the sometimes limited options for certain laundry liquid products, and secondly, may optionally chose an unperfumed wash according to inclination.


Advantages of the Present Invention



  • 1. Active ingredients and benefit agents are dosed only as needed wanted, reducing waste and environmental impact. This may also improve the appearance and longevity of garments.

  • 2. Each wash can be tailored to specific needs for different types and load and for different family members, including:
    • selective non-biological washes
    • hygiene washes for babies, pets and elderly relatives
    • garment care refresh washes for adult work wear
    • tough stain removal for kids' clothes and sportswear
    • fragrance free washes according to preference
    • optionally, the invention may include the facility to store preferred formulations for user-defined groupings such as “bedding”, “school uniform”, “nursery”.

  • 3. In addition to “general” wash categories listed at point 2, each wash can be tailored to the specific type of stain(s), e.g. grass, beef fat, red wine.

  • 4. Incompatible ingredients can be stored separately, and combined only in the wash liquor. Exemplary incompatible ingredient combinations are described herein.

  • 5. Combinations of, and relative ratios of, ingredients can be used that are outside the normal limits of liquid laundry composition stability.



It is to be understood that the examples and embodiments described herein are for illustrative purposes and that various modifications or changes in light thereof will be suggested to a person skilled in the art and are included in the spirit and scope of the invention and the appended claims.

Claims
  • 1. An apparatus for providing laundry product comprising: a dosing unit configured to be placed in a washing machine drum anda dispensing device having a first reservoir containing a detergent composition and a further reservoir containing an ingredient composition; wherein the device has a computer module programmed configured to cause the device to dispense the detergent composition and optionally the ingredient composition to provide a laundry product in the dosing unit as a result of input by a user,wherein the device is configured to communicate with a user interface whereby the user is able to input data using at least two sets of options to provide user input, andwherein the at least two sets of options are configured to prompt the user to input stain identity.
  • 2. The apparatus of claim 1 wherein the device comprises at least three reservoirs, wherein each reservoir contains a different composition; optionally wherein the device comprises at least four reservoirs.
  • 3. The apparatus of claim 1 wherein at least one set of options prompts the user to input fabric colour and/or type.
  • 4. The apparatus of claim 1 wherein the computer module is programmed with an algorithm to select how much product is dosed from each reservoir based on the user input.
  • 5. The apparatus of claim 1 wherein the computer module is programmed to communicate with an external source to access an algorithm and determine how much product is dosed from each reservoir based on the user input.
  • 6. The apparatus of claim 1 wherein the device has a further reservoir containing a composition comprising an enzyme.
  • 7. The apparatus of claim 1 wherein the device has a further reservoir containing a composition containing a protease and a second further reservoir containing a lipase and/or a cellulase.
  • 8. The apparatus of claim 1 wherein the device has a further reservoir containing a composition comprising a fluorescer and/or a shading dye.
  • 9. The apparatus of claim 1 wherein the device has a further reservoir containing a composition comprising a disinfectant.
  • 10. The apparatus of claim 1, wherein the apparatus is a dispensing device for a washing machine.
  • 11. A dispensing device comprising: a first reservoir containing a detergent composition, anda further reservoir containing an ingredient composition; wherein the device has a computer module programmed to cause the device to dispense the detergent composition and optionally the ingredient composition to provide a laundry product in a dosing unit as a result of input by a user,wherein the device is configured to communicate with a user interface whereby the user is able to input data using at least two sets of options to provide user input, andwherein the at least two sets of options are configured to prompts the user to input stain identity.
Priority Claims (1)
Number Date Country Kind
16173792 Jun 2016 EP regional
PCT Information
Filing Document Filing Date Country Kind
PCT/EP2017/063403 6/1/2017 WO 00
Publishing Document Publishing Date Country Kind
WO2017/211699 12/14/2017 WO A
US Referenced Citations (62)
Number Name Date Kind
3094247 Marchi Jun 1963 A
4932227 Hogrefe Jun 1990 A
5897671 Newman et al. Apr 1999 A
6349440 Amberg Feb 2002 B1
8631972 Kessler et al. Jan 2014 B2
9469933 Miller Oct 2016 B2
9949612 Lonski Apr 2018 B2
10240274 Miller Mar 2019 B2
20010049846 Guzzi et al. Dec 2001 A1
20020077265 Buzzacarini et al. Jun 2002 A1
20030075237 Bettiol et al. Apr 2003 A1
20030154560 Behrens et al. Aug 2003 A1
20030216274 Del Duca et al. Nov 2003 A1
20040147416 Woo et al. Jul 2004 A1
20050033647 Crisp, III Feb 2005 A1
20050102767 Aouad et al. May 2005 A1
20050106192 Parekh et al. May 2005 A1
20060102656 Troost et al. May 2006 A1
20060138169 Cafferty Jun 2006 A1
20060272360 Hsu et al. Dec 2006 A1
20070044820 Chan et al. Mar 2007 A1
20080276655 Luckman et al. Nov 2008 A1
20080276964 Hendrickson et al. Nov 2008 A1
20080276965 Aykroyd et al. Nov 2008 A1
20090044129 Ebrom et al. Feb 2009 A1
20090044137 Bartley et al. Feb 2009 A1
20090194562 Kessler et al. Aug 2009 A1
20090276101 Yankee et al. Nov 2009 A1
20100102076 Hendrickson et al. Apr 2010 A1
20100102082 Ebrom et al. Apr 2010 A1
20100163573 Wegelin et al. Jul 2010 A1
20110139818 Kessler et al. Jun 2011 A1
20110154864 Schulze Jun 2011 A1
20110174346 Kessler et al. Jul 2011 A1
20110290281 Kessler et al. Dec 2011 A1
20110315709 Fileccia et al. Dec 2011 A1
20120015858 Kessler et al. Jan 2012 A1
20120018451 Fileccia Jan 2012 A1
20120021965 Bastigkeit et al. Jan 2012 A1
20120031930 Feliccia et al. Feb 2012 A1
20120056827 Kim et al. Mar 2012 A1
20120088710 Kessler et al. Apr 2012 A1
20120204356 Bastigkeit et al. Aug 2012 A1
20120247158 Ditze et al. Oct 2012 A1
20120088709 Kessler et al. Dec 2012 A1
20130036775 Brueckner et al. Feb 2013 A1
20130042652 Brueckner et al. Feb 2013 A1
20130061404 Jenkins Mar 2013 A1
20130175293 Burgess Jul 2013 A1
20130263630 Doh et al. Oct 2013 A1
20130340178 Riesenberg et al. Dec 2013 A1
20140102153 Lee et al. Apr 2014 A1
20150330013 Miller Nov 2015 A1
20150368846 Del Pos et al. Dec 2015 A1
20150375900 Larson Dec 2015 A1
20160060800 Ghosh et al. Mar 2016 A1
20160289883 Lv et al. Oct 2016 A1
20170081616 Baltsen et al. Mar 2017 A1
20170107658 Bolton et al. Apr 2017 A1
20170292217 Kulkarni Oct 2017 A1
20180171531 Miller Jun 2018 A1
20190136162 Cooke May 2019 A1
Foreign Referenced Citations (88)
Number Date Country
13548 Sep 1988 AU
1387563 Dec 2002 CN
1401030 Mar 2003 CN
101886323 Nov 2010 CN
101886324 Nov 2010 CN
102571129 Jul 2012 CN
202744828 Feb 2013 CN
103485122 Jan 2014 CN
103726273 Apr 2014 CN
103924415 Jul 2014 CN
204211975 Mar 2015 CN
104652098 May 2015 CN
105143543 Dec 2015 CN
205258897 May 2016 CN
106192308 Dec 2016 CN
744406 Jan 1944 DE
102007041643 Mar 2009 DE
102008047941 Mar 2010 DE
102008053312 Apr 2010 DE
10201003776 Oct 2011 DE
102010027991 Oct 2011 DE
102010028353 Nov 2011 DE
102010027993 May 2012 DE
102013018175 Jun 2015 DE
102016212981 Jan 2018 DE
102016212982 Jan 2018 DE
0368680 May 1990 EP
1041187 Oct 2000 EP
1088927 Apr 2001 EP
1317524 Jun 2003 EP
1318225 Jun 2003 EP
1468926 Oct 2004 EP
1212398 Jun 2006 EP
1728912 Jun 2006 EP
1990461 Nov 2008 EP
1995368 Nov 2008 EP
2065860 Jun 2009 EP
2141275 Jan 2010 EP
2314542 Apr 2011 EP
2642013 Sep 2013 EP
2913431 Sep 2015 EP
2939975 Nov 2015 EP
2955150 Dec 2015 EP
3130968 Feb 2017 EP
3176298 Jun 2017 EP
2612894 Sep 1988 FR
2437555 Sep 2008 GB
2468158 Sep 2010 GB
2581486 Apr 2013 GB
WO2017205280 Nov 2017 GB
20100081221 Jul 2010 KR
WO9115623 Oct 1991 WO
WO0196645 Dec 2001 WO
WO0208371 Jan 2002 WO
WO0220893 Mar 2002 WO
WO2004101122 Nov 2004 WO
WO2008008392 Jan 2008 WO
WO2008016683 Feb 2008 WO
WO2008074680 Jun 2008 WO
WO2009022223 Feb 2009 WO
WO2009033828 Mar 2009 WO
WO2009094999 Aug 2009 WO
WO2009095003 Aug 2009 WO
WO2009117795 Oct 2009 WO
WO2009153184 Dec 2009 WO
WO2010007054 Jan 2010 WO
WO2010031607 Mar 2010 WO
WO2010067303 Jun 2010 WO
WO2011042867 Apr 2011 WO
102009046546 May 2011 WO
WO2011128676 Oct 2011 WO
WO2011131256 Oct 2011 WO
WO2011134690 Nov 2011 WO
WO2011138218 Nov 2011 WO
WO2012084005 Jun 2012 WO
WO2012118285 Sep 2012 WO
WO2013054089 Apr 2013 WO
WO2014031753 Feb 2014 WO
WO2014079621 May 2014 WO
WO2016173679 Nov 2016 WO
WO2017042087 Mar 2017 WO
WO2017067936 Apr 2017 WO
WO2017176292 Oct 2017 WO
WO2017211698 Dec 2017 WO
WO2017211700 Dec 2017 WO
WO2017211701 Dec 2017 WO
WO2018011167 Jan 2018 WO
WO2018011179 Jan 2018 WO
Non-Patent Literature Citations (55)
Entry
Search Report and Written Opinion in PCTPE2019054368; dated Apr. 23, 2019.
Search Report and Written Opinion in PCTEP2019052152; dated Mar. 29, 2019.
Search Report and Written Opinion in PCTEP2019054369; dated Apr. 23, 2019; .
Written Opinion 2 in PCTEP2018075459; dated Aug. 26, 2019.
IPRP2 in PCTEP2018075452; dated Jan. 10, 2020; .
Written Opinion 2 in PCTEP2019054368.; dated Jan. 24, 2020.
Search Report and Written Opinion in PCTEP2018076486; dated Nov. 6, 2018.
Search Report and Written Opinion in PCTEP2018075459; dated Nov. 27, 2018.
Search Report and Written Opinion in PCTEP2018075439; dated Nov. 27, 2018.
Search Report and Written Opinion in EP17206467; dated Jun. 19, 2018.
Search Report and Written opinion in EP18155012; dated Jul. 13, 2018.
Search Report and Written Opinion in PCTEP2017072935; dated Nov. 16, 2017.
Search Report and Written Opinion in EP17194249; dated Mar. 26, 2018.
Search Report and Written Opinion in EP17194986; dated Apr. 19, 2018.
Search Report and Written Opinion in EP17194201; dated Mar. 9, 2018.
Search Report and Written Opinion in EP16193266; dated Mar. 29, 2017.
Written Opinion 2 in PCTEP2018050562; dated Jan. 10, 2019.
Search Report and Written Opinion in PCTEP2018075452; dated Jan. 2, 2019.
Search Report and Written Opinion in PCTEP2018076258; dated Nov. 6, 2018.
Search Report and Written Opinion in EP18162886; dated Sep. 4, 2018.
Co-Pending Application; entitled Provision of Laundry Product; filed Nov. 29, 2018.
Co-Pending Application; entitled Laundry Products; filed Nov. 29, 2018.
Search Report and Written Opinion in PCTEP2019052151; dated Mar. 29, 2019.
IPRP2 in PCTEP2019050562; dated May 15, 2019.
Search Report in Application No. GB1803058.5; dated Mar. 11, 2019.
IPRP2 in PCTEP2017063403; dated Aug. 10, 2018.
Search Report and Written Opinion in PCTEP2017063403; dated Aug. 23, 2017.
Search Report and Written Opinion in EP16173798; dated Nov. 24, 2016.
Search Report and Written Opinion in EP16173811; dated Nov. 28, 2016.
Search Report and Written Opinion in EP16173806; dated Dec. 19, 2016.
Search Report and Written Opinion in EP16173793; dated Dec. 9, 2016.
Search Report and Written Opinion in PCTEP2017063402; dated Sep. 4, 2017.
Search Report and Written Opinion in PCTEP2017063401; dated Aug. 31, 2017.
Search Report & Written Opinion in PCTEP2017063404; dated Aug. 3, 2017.
Written Opinion in PCTEP2017063405; dated May 17, 2018; World Intellectual Property Org. (WIPO).
Written Opinion 2 in PCTEP2017063404; dated Apr. 18, 2018.
IPRP2 in PCTEP2017063405; dated Sep. 17, 2018.
IPRP in PCTEP2017063402; dated Sep. 24, 2018.
Written Opinion 3 in PCTEP2017063404; dated Aug. 16, 2018.
Search Report and Written Opinion in PCTEP2018050562; dated May 11, 2018; Partial Search Report.
Search Report 2 and Written Opinion 2 in PCTEP2018050562; Jul. 4, 2018; World Intellectual Property Org. (WIPO).
IPRP2 in PCTEP2017063401; dated Jul. 23, 2018.
Search Report and Written Opinion in PCTEP2017063405; dated Jul. 25, 2017.
Search Report and Written Opinion in EP17152439; dated Jul. 17, 2017.
IPRP in PCTEP2017063404; dated Oct. 10, 2018.
Written Opinion for PCTEP2018075452; dated Sep. 19, 2019.
Spruce App; Spruce App; 2019; pp. 1-12 (https://www.thespruce.com/there-is-an-app-for-laundry-2146366).
Clorox My Stain App; Clorox My Stain App; 2020; pp. 1-3 https://play.google.com/store/apps/details?id=net.clorox2.mystain&hl=en_US.
Apps for Dry Clearners; Apps for Dry Cleaners; 2020; pp. 1-2, dlionline.org/apps.
VeryWear App STAIN; VeryWear App STAIN; 2020; pp. 1-4, https://appadvice.com/app/the-stain/510901231.
AEG, My AEG Care App; AEG, My AEG Care App; 2020; pp. 1-10, https://www.aeg.co.uk/about-aeg/connectivity-hub/#732729.
Hoover, Hoover Wizard App; Hoover, Hoover Wizard App; 2020; pp. 1-6, http://www.hooveronetouch.com/gb/index.html.
Candy Smart Touch App; Candy Smart Touch App; 2020; http://www.candysmarttouch.com/eu/index.html.
Samsung, SmartThings Classic App; Samsung, SmartThings Classic App; 2020; https://play.google.com/store/apps/details?id=com.smartthings.android&hl=en.
IPRP2 in PCTEP2019054368; Jun. 23, 2020.
Related Publications (1)
Number Date Country
20190292710 A1 Sep 2019 US