[0001] This invention relates to a dispenser for use inside an automatic dishwasher to provide
controlled release of dishwashing active ingredients into the dishwasher over multiple
dishwashing cycles.
[0002] It is known to provide devices inside an automatic dishwasher for the supply of ingredients.
EP 154421 describes a solid product formed from polyethylene glycol and nonionic surfactants
which provides controlled release in the wash and rinse cycles for improved cleaning
and reduced spotting and streaking. The product is placed inside a cylindrical dispenser
having a top opening of 20 sq.cm in area and four side openings whose sizes can be
adjustable according to water temperature and which range from 0.6 to 2.5 sq.cm in
area. W096/38638 describes a dispenser for dispensing fragrance in the form of a waxy
cake into a dishwasher during operation. The dispenser has a main body portion forming
a cavity into which the waxy cake is secured by means of retaining pins, and a hinged
lockable front plate having elongated openings through which water can pass to dissolve
and release fragrance. The openings are large enough to provide a visual indication
of the amount of fragrance cake remaining in the dispenser.
[0003] A problem with dispensers such as those described above is their high unit cost and
complexity to manufacture on a large scale, due to their multi-part construction and
the requirement for injection moulding techniques.
[0004] The present invention provides a solution to the problem of obtaining effective controlled
release of dishwashing active ingredients into the interior of a dishwasher in a low
cost and adaptable manner.
[0005] According to a first aspect of the invention, there is provided a dispenser for use
inside an automatic dishwasher to provide controlled release of one or more dishwashing
active ingredients into the dishwasher over multiple dishwashing cycles, the dispenser
comprising a perforated flexible polyolefin sheet which is in fluid communication
with a composition having one or more dishwashing active ingredients, in which the
perforation density of the polyolefin sheet ranges from 1 to 100 perforations per
cm
2 of sheet and in which the perforations individually have an area ranging from 0.0004
to 0.01 mm
2.
[0006] By "multiple dishwashing cycles" is meant at least two dishwashing cycles, and may
conveniently be up to about 100 dishwashing cycles. Conveniently the controlled release
may occur over a period of 2 to 60, preferably 30 to 60, dishwashing cycles. By "dishwashing
cycle" in this instance is meant a complete dishwashing cycle, including any pre wash,
a wash at normal temperature (e.g. 50°C), and any rinses.
[0007] According to a second aspect of the invention, there is provided a method of providing
controlled release of one or more dishwashing active ingredients into the dishwasher
over multiple dishwashing cycles, the method comprising the steps of packaging a composition
containing the one or more active ingredients into a dispenser as defined above, adding
the dispenser to a dishwasher prior to the commencement of a dishwashing cycle, and
leaving it in the dishwasher for multiple dishwashing cycles.
[0008] In a preferred embodiment, the dispenser is in the form of a sachet comprised of
two side walls sealed around the peripheral edges and enclosing the composition as
defined above, in which at least one (but conveniently both) of the side walls comprises
a perforated flexible polyolefin sheet as defined above. Such a sachet is simple and
cost-effective to produce. It also enables improved tailoring and adaptability of
dosage and ingredients, since the low unit cost means that such sachets can be used
in multiples. In this way, the user can boost the dosage of a particular dishwashing
active ingredient as and when required, or can provide a regime of different dishwashing
active ingredients in individual sachets according to requirements. The packaging
of different dishwashing active ingredients into separate individual sachets according
to the invention also solves the problem of product stability in those instances where
such ingredients may be chemically and/or physically incompatible (for example where
oxidative materials such as bleaches are involved together with other oxidation-sensitive
materials).
[0009] Suitable flexible polyolefin materials used to form the perforated flexible polyolefin
sheet in the dispenser of the invention will retain their integrity at the temperatures
involved in dishwashing (e.g. 70 to 75degC) for prolonged periods. Examples include
low density polyethylene, polypropylene, and high density polyethylene. The flexible
polyolefin sheet can also be a laminate.
[0010] Preferably the perforations of the flexible polyolefin sheet have individual areas
ranging from 0.0007 mm
2 to 0.006 mm
2, and a perforation density of from 1 to 10 perforations per cm
2 of sheet. Conveniently, the perforations are circular.
[0011] In a preferred embodiment, the perforated flexible polyolefin sheet of the dispenser
may be coated with a water soluble polymer such as polyvinyl alcohol to prevent egress
of the contents of the dispenser prior to use.
[0012] In a particularly envisaged embodiment, a device (such as a cage structure) for use
in a dishwasher may comprise a number (e.g. 1 to 5, preferably 2 to 5) of dispensers
according to the invention retained in the device, with each dispenser containing
different dishwashing active ingredients intended for use in the dishwashing cycle.
One or more of the dispensers may be interchangeable in the device for a fresh dispenser,
thereby enabling the device to be used for more than the lifetime of the individual
dispensers. Alternatively, multiple dispensers containing the same dishwashing active
ingredient can be used in such a device, so that the user can tailor the number used
and hence the dosage provided into the dishwasher according to the prevailing conditions
(such as water hardness or level of soiling).
[0013] Dispensers according to the invention contain one or more dishwashing active ingredients.
By "dishwashing active ingredient" is meant an ingredient that enhances the end-results
obtained after treatment of articles in the dishwasher. Such enhancement may occur
by improved removal of soil, reduction of deposits such as films, spots or streaks
left on the articles after they have been treated in the dishwasher, or reduction
of negative effects associated with the dishwashing process such as glass corrosion
and colour fading.
[0014] Suitable dishwashing active ingredients include rinse-aids, anti-scaling agents,
bleaches and bleach activators, builders, chelating agents, degreasing agents, anti-spotting
agents and glass anti-corrosion agents (such as those described in WO00/39259 and
WO01/64823).
[0015] Particularly preferred dishwashing active ingredients in the context of this invention
are nonionic surfactants. These provide a rinse-aid functionality in the dishwasher,
and may be used alone or in combination with other dishwashing active ingredients.
[0016] It is important, when the dishwashing active ingredient contains nonionic surfactant,
that the nonionic surfactant is selected or prepared to have the desired leaching
rate through the perforated flexible polyolefin sheet of the dispenser. This may be
achieved by a number of technical routes.
[0017] In one embodiment, the nonionic surfactant is selected so as to be one which forms
a thickened liquid crystal phase, such as a meso-phase on the addition of water. A
meso-phase is a form of liquid crystal which can be formed by the addition of water
to some nonionic surfactants, which liquid crystal form is relatively insoluble. It
is this relative insolubility and the consequent leaching properties which make the
selected nonionic surfactants particularly suitable for use in the dispenser of the
invention.
[0018] Suitable nonionic surfactants which provide such a relatively insoluble meso-phase
on the addition of water include ethoxylated surfactants, ethylene oxide/propylene
oxide block copolymer surfactants, and blends of these with ethoxylated surfactants.
[0019] Preferred specific examples of nonionic surfactants which provide a relatively insoluble
meso-phase on the addition of water include ethoxylates based on C13-15 fully saturated,
branched primary alcohol, available as the SYNPERONIC A series, ex Uniqema. In some
circumstances it may be desirable to use such materials in conjunction with a foam
suppressor to ensure that unduly high levels of foam are not generated.
[0020] In another embodiment, the nonionic surfactant is selected so as to be one which
is a solid at room temperature, which dissolves slowly in water, and which typically
has a cloud point in the range 12°C to 30°C. Preferably the cloud point may be less
than 25°C, more preferably less than 20°C, and in some embodiments may preferably
be less than 15°C. A suitable example of a nonionic surfactant having the above properties
is POLYTERGENT SLF18B45, ex BASF.
[0021] Alternatively, the nonionic surfactant can be prepared so as to have a suitable leaching
rate in the dispenser of the invention. One way is to impregnate the nonionic surfactant
onto an insoluble, preferably flexible textile substrate.
The textile substrate may be woven or non-woven. Suitable textile substrates include
cotton. However, other suitable substrates are inflexible hard solids, and include
porous inorganic insoluble materials such as zeolites, silica, phosphates and carbonates,
as well as clays.
[0022] A further method of preparing a nonionic surfactant so as to have a suitable leaching
rate includes combining it with a suitable thickener or structurant, to provide a
gel.
Suitable thickeners or structurants for use according to the invention include cross
linked polyacrylate materials such as the CARBOPOL series, ex B F Goodrich.
[0023] Nonionic surfactant may typically be present in the composition for use with the
dispenser of the invention at 5% to 100% by weight, more preferably from 50% to 100%
by weight based on total weight.
[0024] The nonionic surfactant may also contribute as a rinse aid.
[0025] Another preferred class of dishwashing active ingredient in the context of this invention
are anti-scaling agents. These may be present in the composition contained in the
dispenser as a suitable dishwashing active ingredient, either alone or in combination
with other dishwashing active ingredients such as the nonionic surfactants described
above. It is preferable if the level of anti-scaling agent is from 0.2 to 95%, preferably
from 0.5 to 50% by total weight of anti-scaling agent based on the total weight of
the composition in the dispenser.
[0026] Suitable anti-scaling agents include water soluble polymers which reduce phosphate
scale formation. Such a polymer often comprises at least one structural unit derived
from a monomer having the formula:

wherein R
3 is a group comprising at least one sp
2 bond, z is O, N, P, S, or an amido or ester link, A is a mono- or a polycyclic aromatic
group or an aliphatic group and each p is independently 0 or 1 and B
+ is a monovalent cation.
[0027] Preferably, R
3 is a C
2 to C
6 alkene (most preferably ethene or propene). When R
3 is ethenyl, Z is preferably amido, A is preferably a divalent butyl group, each p
is 1, and B
+ is Na
+. Such a monomer is polymerized and sold as Acumer 3100 by Rohm & Haas.
[0028] Another preferred embodiment exists when the water soluble polymer is derived from
at least one monomer with R
3 as 2-methyl-2-propenyl, Z as oxygen, A as phenylene, each p as 1 and B
+ as Na
+, and at least one monomer with R
3 as 2-methyl-2-propenyl, each p as 0 and B
+ as Na
+. Such monomers are polymerized and sold under the name Alcosperse 240 by Alco Chemical.
[0029] The polymers used may be homopolymers or copolymers, including terpolymers. Furthermore,
the polymers may be terminated with conventional termination groups resulting from
precursor monomers and/or initiators that are used.
[0030] The water soluble polymers typically have a weight average molecular weight from
about 1,000 to about 50,000.
[0031] Further suitable polymers for use in this context are those sulfonated polymers which
are described in WO02/04503 (Henkel).
[0032] Further suitable anti-scaling agents are compounds that may be used to reduce carbonate
scale formation. These include polyacrylates (and copolymers thereof) having a weight
average molecular weight from about 1,000 to about 400,000.
Such compounds are supplied by Rohm and Haas, BASF, and Alco Corp. Preferred copolymers
include those derived from acrylic acid and maleic acid monomers like Sokalan CP5
and CP7 supplied by BASF, and Acusol 479N, supplied by Rohm & Haas. Copolymers of
acrylic acid and methacrylic acid (Colloid 226/35), as supplied by Rhone-Poulenc,
may also be used.
[0033] Other materials that may be used to reduce carbonate scale formation include phosphonate
functionalized acrylic acid (Casi 773 as supplied by Buckman laboratories); copolymers
of maleic acid and vinyl acetate, and terpolymers of maleic acid, acrylic acid and
vinyl acetate (made commercially by Huls); polymaleates (like Belclene 200, as supplied
by FMC); polymethacrylates, (like Tomal 850, as supplied by Rohm & Haas); polyaspartates;
ethylene diamine disuccinate, organopolyphosphonic acids (and salts thereof) such
as sodium salts of amino tri(methylenephosphonic acid), diethylene triamine penta
(methylene phosphonic acid); hexamethylene diamine tetramethylene phosphonic acid;
ethane 1-hydroxy-1,1-diphosphonic acid (HEDP); organomonophosphonic acids (and salts
thereof) such as the sodium salt of 2-phosphono-1,2,4-butane tricarboxylic acid, all
of which are sold under the DEQUEST line as supplied by Solutia.
[0034] Particularly preferred anti-scaling agents are organic phosphonates such as alpha-hydroxy-2
phenyl ethyl diphosphonate; ethylene diphosphonate; hydroxy 1,1-hexylidene, vinylidene
1,1 diphosphonate; 1,2 dihydroxyethane 1,1 diphosphonate and 1-hydroxy-ethylene 1,1
diphosphonate. Most preferred is 1-hydroxy-ethylene 1,1 diphosphonate (commercially
available as DEQUEST 2016 and DEQUEST 2016D, ex Solutia) and 2-phosphono-butane, 1,2,4
tricarboxylic acid (commercially available as BAYHIBIT, ex Bayer).
[0035] Mixtures of anti-scaling agents may be used; particularly useful are a mixture of
organic phosphonates and polymers having as monomer units acrylic acid, methyl methacrylic
acid, 4-sulfophenyl methylallyl ether or sodium methallyl sulfonate.
[0036] The anti-scaling agent or agents may be combined with other materials such as a suitable
thickener or structurant to provide a gel as described above, and/or other dishwashing
active ingredients such as nonionic surfactants. The weight ratio of total anti-scaling
agent to total nonionic surfactant in such a combination preferably ranges from 1:20
to 3:1, more preferably from 1:10 to 1:2, even more preferably from 1:1 to 1:2.
[0037] Another preferred class of dishwashing active ingredient in the context of this invention
are bleaches and bleach activators.
[0038] Suitable bleaches comprise one or more peroxy bleach compounds, for example, inorganic
persalts or organic peroxyacids, which may be employed in conjunction with activators
to improve bleaching action at low wash temperatures.
[0039] Organic monoperoxy acids include alkyl peroxy acids and aryl peroxyacids such as
peroxybenzoic acid and ring-substituted peroxybenzoic acids (e.g. peroxy-alpha-naphthoic
acid); aliphatic and substituted aliphatic monoperoxy acids (e.g. peroxylauric acid
and peroxystearic acid); and phthaloyl amido peroxy caproic acid (PAP). Organic diperoxy
acids include alkyl diperoxy acids and aryldiperoxy acids, such as 1,12-di-peroxy-dodecanedioic
acid (DPDA); 1,9-diperoxyazelaic acid, diperoxybrassylic acid, diperoxysebacic acid
and diperoxy isophthalic acid; and 2-decyldiperoxybutane-1,4-dioic acid.
[0040] Preferred inorganic persalts are sodium perborate monohydrate and tetrahydrate, and
sodium percarbonate, advantageously employed together with an activator. Monopersulphate
is a further possibility.
[0041] Chlorine bleaches may also be used. Among suitable reactive chlorine-or bromine-oxidizing
materials are heterocyclic N-bromo and N-chloro imides such as trichloroisocyanuric,
tribromoisocyanuric, dibromoisocyanuric and dichloroisocyanuric acids, and salts thereof
with water-solublising cations such as potassium and sodium. Hydantoin compounds such
as 1,3-dichloro-5,5-dimethyl-hydantoin are also quite suitable.
[0042] Particulate, water-soluble anhydrous inorganic salts are likewise suitable for use
herein such as lithium, sodium or calcium hypochlorite and hypobromite. Chlorinated
trisodium phosphate and chloroisocyanurates are also suitable bleaching materials.
[0043] Suitable bleach activators include (6-nonamidocaproxyl) oxybenzene sulfonate (as
described in EP 170,386) N,N,N',N'-tetraacetylethylenediamine, nonanoyloxybenzenesulfonate,
cationic nitriles, cholyl(4-sulfophenyl)carbonate, and quaternary imine salts (e.g.,
N-methyl-3,4-dihydrooisoquinolinium p-toluenesulfonate) and salts of sulfophenyl alkyl
carbonates such as sodium p-sulfophenyl octyl carbonate.
[0044] Other bleach activators which may be used include transition metal-containing bleach
catalysts such as [Mn
IV 2(µ-0)
3(Me
3TACN)
2](PF
6)
2 (as described in U.S. Patent Nos. 4,728,455, 5,114,606, 5,153,161, 5,194,416, 5,227,084,
5,244,594, 5,246,612, 5,246,621, 5,256,779, 5,274,147, 5,280,117), [Fe
II(MeN4py)(MeCN)](CIO
4)
2 (as described in EP 0 909 809) and [Co
III (NH
3)
5(OAc) ] (OAc)
2 (as described in U.S. Patent No. 5,559,261, WO 96/23859, WO 96/23860, WO 96/23861).
[0045] Another active ingredient is a builder. Preferred water-softening builders to include
in the composition are sodium tripolyphosphate, sodium citrate, sodium carbonate and
sodium silicate.
[0046] A chelating agent for metal ions (often referred to as a metal ion sequestrant) may
be present in the composition. It can function to stabilise bleach against premature
decomposition catalysed by transition metals and/or to inhibit calcium carbonate scale
formation.
[0047] Preferred chelating agents include organic phosphonates, amino carboxylates, polyfunctionally-substituted
compounds, and mixtures thereof.
[0048] Particularly preferred chelating agents are organic phosphonates such as α-hydroxy-2
phenyl ethyl diphosphonate, ethylene diphosphonate, hydroxy 1,1-hexylidene, vinylidene
1,1 diphosphonate, 1,2 dihydroxyethane 1,1 diphosphonate and hydroxy-ethylene 1,1
diphosphonate. Most preferred is hydroxy-ethylene 1,1 diphosphonate, 2 phosphono-1,2,4
butanetricarboxylic acid or salts thereof.
[0049] Optionally non ionic surfactants are also serving as degreasing and/or anti-spotting
agents.
[0050] A perfume may be incorporated as an optional adjunct ingredient in addition to the
one or more dishwashing active ingredients in the composition for use in the dispenser
of the invention. Given the intended use of the dispenser of the invention, and in
particular its residence in the dishwasher over repeated wash cycles, the perfume
is preferably relatively substantive to provide the dishwasher with a pleasant aroma
after successive washes over a prolonged period. The perfume may be included as a
solid (e.g. porous) block, or may otherwise be provided on a substrate such as a plastic
or fabric sheet. Examples of such perfume dispensing systems are described in FR2471929
and FR 2492776.
[0051] The invention will now be further described by way of the following non-limiting
examples, in which all percentages are by weight based on total weight unless otherwise
specified.
EXAMPLES
[0052] Dispensers in the form of peripherally sealed perforated sachets were prepared containing
a variety of dishwashing active ingredients and ingredient compositions. The dispensers
were tested on a standard 55°C wash programme in a Miele G6905C automatic dishwasher.
[0053] The dispensers were placed on a flat cutlery rack in the dishwasher. After each wash
the weight increase or decrease of the sachet was measured. No dishwashing active
ingredients were transferred through the sachet walls themselves; all transfer was
through the perforations in the sachets.
[0054] Two types of film were used for making the sachets; the first was NORPOR™ type 13
(ex NORDENIA International AG), polyethylene with circular perforations of 0.08mm
diameter and a thickness of 0.15mm (hereinafter designated as "type M polyethylene")
and the second was NORPOR™ type 7 (ex NORDENIA International AG), polyethylene with
circular perforations of 0.03mm diameter and a thickness of 0.18mm (hereinafter designated
as "type L polyethylene"). Both films had a perforation density of 31250 perforations/m
2.
[0055] Dishwashing active ingredients and ingredient compositions used were:
1) PLURAFAC LF403, (ex BASF)
2) POLYTERGENT SLF18B45, (ex BASF)
3) SYNPERONIC A3 (ex Uniqema)
4) SYNPERONIC A7 (ex Uniqema)
5) A blend containing 50% sodium tripolyphosphate, 47.5% PEG6000 and 2.5% DEQUEST
2016, (ex Solutia)
6) DEQUEST 2016D, (ex Solutia)
7) SOKALAN PA25, (ex BASF)
Example 1
[0056] 35-40g POLYTERGENT SLF18B45 nonionic surfactant was packaged in a perforated sachet
made of type L polyethylene having a total surface area of 100-120cm
2. The release of the nonionic surfactant from the sachet was steady over multiple
dishwashing cycles.
Example 2
[0057] 6-12g SYNPERONIC A3 nonionic surfactant was packaged in a perforated sachet made
of type L polyethylene having a total surface area of 25-50cm
2. The release of the nonionic surfactant from the sachet over successive washes was
steady over multiple washes, and approximately half of the contents was dispensed
after 25 dishwashing cycles.
Example 3
[0058] In Example 3, a dishwashing active ingredient composition was prepared by making
a 5% CARBOPOL (cross-linked polyacrylate, ex BF Goodrich) solution in water and combining
this with PLURAFAC LF 403 nonionic surfactant in the ratio 1:1 to provide a gel. 16g
of gel was packaged in sachets made from both type L and type M film, each having
a surface area of approximately 40cm
2. The resulting sachets provided satisfactory dispensing of the nonionic surfactant
over successive dishwashing cycles.
Example 4
[0059] Several KLEENEX (trade mark) wipes of dimensions 21cm x 20cm with a collective weight
of 5g were impregnated with 20g of molten POLYTERGENT SLF18B45 nonionic surfactant.
The wipes were folded and placed in sachets made from both L and M type polyethylene,
the sachets having a surface area of approximately 80cm
2. The resulting sachets provided satisfactory dispensing of the nonionic surfactant
over successive dishwashing cycles.
Example 5
[0060] 25g tablets of a blend containing 50% sodium tripolyphosphate, 47.5% PEG6000 and
2.5% DEQUEST 2016, ex Solutia were pressed and packaged in sachets made from both
L and M type films. The resulting sachets provided satisfactory dispensing of the
dishwashing active ingredients over successive dishwashing cycles.
Example 6
[0061] 10g of DEQUEST 2016D anti-scaling agent, ex Solutia was packaged into sachets made
from both L and M type polyethylene having a surface area of approximately 40cm
2. The resulting sachets provided satisfactory dispensing of the anti-scaling agent
over successive dishwashing cycles.
Example 7
[0062] A gelled anti-scaling agent composition was prepared containing 3% CARBOPOL polymer,
30% DEQUEST 2016D and the balance water. 25g of the gel was packaged into sachets
made from both the L type and the M type polyethylene having a surface area of 70
to 80cm
2. The resulting sachets provided satisfactory dispensing of the anti-scaling agent
over successive dishwashing cycles.
Example 8
[0063] 12g of SOKALAN PA25 anti-scaling agent was packaged in sachets made from both L and
M type polyethylene, the sachets having a surface area of 30cm
2. The resulting sachets provided satisfactory dispensing of the anti-scaling agent
over successive dishwashing cycles.