WO1990015542A1 - Nouvelle composition de preparation de boissons - Google Patents

Nouvelle composition de preparation de boissons Download PDF

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Publication number
WO1990015542A1
WO1990015542A1 PCT/GB1990/000911 GB9000911W WO9015542A1 WO 1990015542 A1 WO1990015542 A1 WO 1990015542A1 GB 9000911 W GB9000911 W GB 9000911W WO 9015542 A1 WO9015542 A1 WO 9015542A1
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WO
WIPO (PCT)
Prior art keywords
weight
beverage
mesh sieve
retained
water
Prior art date
Application number
PCT/GB1990/000911
Other languages
English (en)
Inventor
Terence Charles Piper
Harry George Beevor
Susan Patricia Richards
Original Assignee
The Terence Piper Co. Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by The Terence Piper Co. Ltd. filed Critical The Terence Piper Co. Ltd.
Publication of WO1990015542A1 publication Critical patent/WO1990015542A1/fr

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Classifications

    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F13/00Coin-freed apparatus for controlling dispensing or fluids, semiliquids or granular material from reservoirs
    • G07F13/06Coin-freed apparatus for controlling dispensing or fluids, semiliquids or granular material from reservoirs with selective dispensing of different fluids or materials or mixtures thereof
    • G07F13/065Coin-freed apparatus for controlling dispensing or fluids, semiliquids or granular material from reservoirs with selective dispensing of different fluids or materials or mixtures thereof for drink preparation
    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23FCOFFEE; TEA; THEIR SUBSTITUTES; MANUFACTURE, PREPARATION, OR INFUSION THEREOF
    • A23F3/00Tea; Tea substitutes; Preparations thereof
    • A23F3/06Treating tea before extraction; Preparations produced thereby
    • A23F3/14Tea preparations, e.g. using additives
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/44Parts or details or accessories of beverage-making apparatus
    • A47J31/54Water boiling vessels in beverage making machines

Definitions

  • the present invention relates to a novel beverage forming composition and has particular reference to novel beverage forming compositions for vending machines.
  • the traditional method of making beverages such as tea or coffee is to infuse granules of coffee or leaf tea in hot or boiling water to obtain a beverage having the desired flavour.
  • infusion is carried out in a teapot or a coffee pot and with suitable care excellent beverages can be prepared.
  • the brewing period necessary to produce an acceptable cup of tea or coffee is something of the order of 2 minutes. 2. This period can be shortened by forcing the infusion of tea or coffee into the water by exerting pressure, for example, by squeezing the ground tea or coffee. The resulting beverage tends to have a bitter taste because of the unnatural forcing of ingredients into the beverage which would not normally enter the beverage under a more natural brewing regime.
  • the operation involves the use of intermediate containers which act as the equivalent of coffee pots and tea pots within the vending machine.
  • the pots require extensive and exhaustive cleaning on a regular basis to maintain hygiene.
  • Machines which utilize tea-bags containing leaf-tea overcome the disadvantages of having an intermediate brewing container since in such a machine, a tea-bag may be dispensed into a cup, and hot water added directly thereto in order to brew the tea in the container from which it is to be consumed. Furthermore, beverages produced from tea-bags do not suffer from floaters. However, the brewing period necessary to produce an acceptable cup of tea from tea-bags using water having a temperature of less than 100° celcius is of the order of two minutes or more, and tea made from tea-bags and boiling water, although brewing ore-or-less instantly, tends to overbrew resulting in a bitter flavour.
  • a beverage forming composition comprising ground components which, on adding water having a temperature of less than about 90° Celcius thereto in a container or cup, produces an "instant" beverage which has the flavour of fresh brewed leaf tea or coffee granules.
  • a water tank assembly for a vending machine which comprises a water reservoir; means partitioning said reservoir into a de-aerating portion and a water storage portion; heater means associated with the de-aerating portion; inlet means for the introduction of aerated water in juxtaposition with said de-aerating portion, and outlet means communicating with the storage portion for dispensing of de-aerated water to a beverage receptacle; wherein the water in the de-aerating portion is heated to a temperature sufficient to remove at least the deleterious portion of dissolved air or gas therein, the de-aerated water passing from the de-aerating portion to the storage portion where it is maintained at a dispense temperature by heat emanating from the heater via the de-aerating portion of the resevoir.
  • the de-aerating portion of the reservoir may be defined by a substantially erect cylindrical partition with the main water reservoir, said cylindrical partition having a plurality of inlets or
  • the cylindrical partition may be supported at its base by a plurality of circumferentially spaced legs; the spaces between each leg defining the inlets to permit water to enter the de-aerating portion.
  • the top of the reservoir may be open to the atmosphere so that no pressure can build up therein.
  • the upper portion of the cylinder may be open to communicate with the storage portion of the reservoir.
  • Inlet means may be provided in the reservoir to provide fresh aerated water at or towards the base of the cylindrical partition thereby allowing, on heating, the generation of a convection current whereby water is drawn into the cylinder for de-aeration prior to circulation to the storage portion.
  • the storage portion of the reservoir may contain a thermostatic control connected with the heater, whereby the heater is operated to maintain the temperature of the water in the storage portion at an optimum temperature for dispense, namely within the range of from 60° to 90° Celcius.
  • water entry into the reservoir may be controlled by water-level sensing means.
  • said sensing means operates the water inlet means to permit entry of fresh, aerated water into the reservoir.
  • the sensing means operates the water inlet means to prevent further entry of water into the reservoir.
  • the sensing means may be an electromagnetic float switch consisting of a permanent magnet disposed on a float in the reservoir and a 2-state reed switch fixed in the water tank at either the high-water level or the low water level, whereby the influence of the permanent magnet on the reed sets the reed switch either to one state or to a second state, according to proximity of the permanent magnet to the switch.
  • the sensing means may comprise three water-level probes: one probe disposed at the high-water level; a second probe disposed at the low-water level; and a third probe as a reference.
  • Each probe utilizes the conductivity of water at a sensing portion thereof to determine whether the sensing portion of the probe is immersed in water or otherwise.
  • the water level sensing means may comprise optically or capacitively coupled circuits to serve the level of water in the tank.
  • the water-level sensing means may comprise a float having a stem which is arranged to contact a microswitch disposed out of the water in the reservoir. The float either rises whereby the stem sets the microswitch to one state, or falls whereby the stem sets the microswitch to a second state.
  • water is permitted to enter the reservoir via the inlet means when the sensing means is in one state, and water is. prevented from entering said reservoir when the sensing means is in the other or second state.
  • Water entry into the reservoir of the water tank assembly may be controlled by a simple mechanical ballcock of the type well-known to a man skilled in the art.
  • the upper extremity of the de-aerating portion may extend above the surface of the water in the reservoir by an amount such that, during heating, the water in the de-aerating portion 'boils over' into the surrounding reservoir, thus establishing a circulation within the reservoir as described above.
  • the storage portion of the reservoir is provided with an outlet which is adapted to draw water from a point in the storage portion spaced upwardly from the base thereof.
  • the storage tank is provided with two outlets so that as water is dispensed into a receptacle the two jets from a pair of outlets which can produce a stirring action within the receptacle and aid mixing of the ingredients previously disposed therein.
  • any beverage will benefit from the use of de-aerated water prepared in the water-tank assembly described above, when a beverage is made from the beverage-forming composition as hereinafter described and de-aerated water, the proportion of ground components which float to the surface is less than 1% by weight of the total.
  • a beverage-forming composition comprising ground tea or coffee which is capable of flowing and metering via a powder dispense valve within a vending machine, whereby, the addition of de-aerated water at a temperature of from 60° to 90°c to the composition produces a beverage within a container; the composition having a particle size selected such that the portion of ground components which float to the surface of the beverage is less than 1% by weight of the total.
  • a beverage forming composition comprising a proportion of ground tea having a particle size such that at least 98% by weight is retained on a 38 micron mesh sieve and at least 50% by weight passes through a 125 micron mesh sieve, such that, on formation of a beverage with de-aerated water at a temperature of 60° - 90° celcius, less than 1% of the ground tea is retained on the surface of the beverage so formed.
  • a ground tea having a particle size such that, on successive sieving, 0.1 - 3% by weight is retained on a 250 micron mesh sieve, 28-48% by weight is retained on a 125 micron mesh sieve, 38-61% by weight is retained on a 63 micron mesh sieve, 1.8 - 15.3% by weight is retained on a 38 micron mesh sieve, and less than 0.4% by weight passes through said 38 micron mesh sieve.
  • the beverage forming composition may comprise a blend of ground tea, having the characteristics above, and a leaf tea having a particle size such that at least 10% by weight is retained on a 1 millimetre mesh sieve and at least 98% is retained on an 355 micron mesh sieve.
  • the whole leaf tea is a Kenyan tea having good flow characteristics and a pour density of 0.35 - 0.45 grammes per mil and a settle density of 0.42 - 0.49 grammes per mil.
  • the leaf tea may have a particle size such that, on successive sieving, 0.05-0.25% by weight is retained on a 2mm mesh sieve, 32-46% by weight is retained on a lmm mesh sieve, 32-51% by weight is retained on a 600 micron mesh sieve, 13-21% by weight is retained on a 355 micron mesh sieve, 1.3 - 2.2% by weight is retained on a 250 micron mesh sieve and 0.5 - 1.5% by weight passes through said 250 micron mesh sieve.
  • the beverage forming composition may further incorporate a proportion of surfactant with the tea sufficient to reduce the wetting angle on a tablet of tea by at least 5° and preferably by at least 8°.
  • the surfactant selected is not critical and derivatives of stearic, linoleic and palmitic acids and natural wetting agents such as lecithin may be employed. Sorbitan mono stearate has been found to be particularly useful. The amount employed clearly depends on the nature of the surfactant, but it has been found that, for typical use in a vending machine, a proportion of surfactant in an amount of 0.3 - 1.5% by weight of the tea composition can employed.
  • the beverage forming composition of the present invention may further include a flowing agent to aid dispensing of the tea composition within a vending machine. This aids flow within a dispense valve and allows reasonably accurate metering of the tea during dispense on a timed basis. Thus it is possible within a vending machine to select a mild, medium or strong brew, depending purely on the period during which tea is dispensed into a container prior to mixing with the de-aerated water.
  • Typical flow agents which can be used in this matter are those such as silicon dioxide such as that commercially available under the trade name Neosyl TS.
  • the flowing agent may be present in an amount of from 0% to 1.5%, and preferably from 0.85% to 1.0% by weight.
  • colouring agents may be added to enhance the colour of the tea mix and the colour of the beverage.
  • Colours which can be added are natural canthaxanthin, betacarotene and apocarotenal.
  • the beverage forming composition of the present invention may also include from 23% to 35% by weight, and preferably 30% by weight of a whitener, which is mixed intimately with the other components to assist with the infusion and formation of the beverage.
  • the whitener may be a non-diary creamer, dried milk powder, or milk.
  • the whitener consists of a semi-instant (agglomerated) non-diary creamer, dextrose monohydrate, lactose and glucidex (maltodextrin) . This whitener mixes particularly well and may have a similar particle size to the ground tea.
  • the non-diary creamer has a particle size such that, on successive sieving, 0.1 to 1% by weight is retained in a 500 micron mesh sieve, 20-23% by weight is retained on 250 micron mesh sieve, 41-45% by weight is retained on a 125 micron mesh, 29-35% by weight is retained on a 63 micron mesh, and 1.4 to 4.3% by weight passes through said 63 micron mesh.
  • the agglomerated non-diary creamer may have a poured density in the range of from 0.47 to 0.48g/ml, and a settled density in the range of from 0.55 to 0.58g/ml.
  • a method of preparing a beverage whereby de-aerated water, having a temperature in the range of from 60 ° - 90°c, is added to a beverage forming composition comprising ground tea or coffee in a container, wherein the beverage forming composition is capable of flowing and metering via a powder dispense valve within a vending machine, and has a particle size selected such that the portion of ground components which float to the surface of the beverage is less than 1% by weight of the total.
  • a beverage can be made from the beverage-forming composition of the present invention using de-aerated water from any source, but a preferred source is a water tank as hereinbefore disclosed.
  • the present invention also includes a method of preparing a beverage by using the novel beverage forming compositions disclosed herein, in combination with de-aerated water obtained using the water tank assembly of the invention, thereby obtaining beverages in which there are no floating components in the cup after dispensing, the solid components being retained in the base of the cup for disposal after consumption of the beverage.
  • the solid components may form a sediment in the base of the cup which, in appearance, is not unlike tea leaves, as this is what it is, and does not produce an unacceptable "sludge" at the bottom of the cup.
  • a further advantage is that beverages prepared using a beverage forming composition, in accordance with the present invention, can employ water at a temperature significantly below boiling, and is therefore more ready for "instant" consumption; such a beverage has a colour and flavour which develops sufficiently quickly to be defined as "instant".
  • Figure 1 is a top view of a water tank of the present invention with the closure removed.
  • Figure 2 is a longitudinal section on line II-II through the water tank of Figure 1.
  • Figure 3 is a longitudinal section through line III - III of Figure 1.
  • Figure 4 is a side view of the water tank of Figure 1, partly cut away to show internal detail.
  • Figure 5 is a top view of a closure for the water tank of Figure 1.
  • Figure 6 is a bottom view of the closure of Figure 5.
  • Figure 7 is a side view of the closure of Figure 5, partly in cross-section through the line VII - VII of Figure 6.
  • Figure 8 is a longitudinal section through line VIII - VIII of Figure 7, with the closure fitted to the water tank of Figure 1.
  • Figure 9 shows the general assembly of a water tank in accordance with the present invention.
  • a water tank 10 has a generally square base 12 which has a cut away at a corner 14 to provide an inwardly directed arcuate portion 15.
  • Base 12 carrries an upstanding peripheral wall 11 which terminates at its upper end in a rim 16.
  • the base 12 and wall 11 define an internal reservoir 13 in which, at cut-away corner 14, the wall 11 defines an arcuate wall portion 11' which terminates spaced downwardly from rim 16 in an outwardly directed step 44.
  • Reservoir 13 carries at step 44 an upstanding generally turret-shaped compartment 17 which is defined by a curved turret-wall 19 extending upwardly from a generally circular turret-base 18, which meets wall 11' at step 44, and terminating in a rim 20, which is continuous with rim 16 of wall 11.
  • Turret base 18 is provided with a generally frustoconical overflow conduit 40, which extends upwardly through said turret base 18 of overflow turret 17 and terminates at an upper end 41 downwardly spaced from upper rim 16 of wall 11.
  • overflow conduit 40 The frustoconical internal surface of overflow conduit is continuous, but the portion of external surface 43 of overflow conduit 40, which is disposed below turret base 18, is wider than the portion of external surface 43 of overflow conduit 14, which extends into overflow turret 17.
  • Wall 11 of reservoir 13 carries towards a corner 21, adjacent turret compartment 17, a steam boss 22 having a generally circular cross-section; said steam boss 22 being disposed towards upper-rim 16 of wall 11 and having an internal conduit 23 of generally circular cross-section, which communicates with reservoir 13 for the purpose of venting said reservoir 13 to the atmosphere.
  • Base 12 has a circular hole at a part juxtaposed corner 14 and 21 of reservoir 13, and carries four upstanding legs 26, which are disposed around said circular hole 24 and circumferentially equi-spaced around a circle slightly eccentric to hole 24.
  • Each leg 26 has a generally rectangular cross-section and is provided with an inwardly-directed step 27, upwardly spaced from base 12.
  • Each leg 26 carries at step 27 an upstanding cylindrical partition 28, which defines an internal de-aerating cylinder portion 37 and is supported in spaced relationship with base 12; the spacing being provided by the legs 26 serving to provide four inlets 30.
  • Cylindrical portion 28 extends upwardly to terminate, downwardly spaced from the upper end 41 of overflow conduit 40, in rim 36 which is adapted in use to be disposed above the intended water level in the tank, indicated generally at 90.
  • Hole 24 in base 12 accommodates a heating element 25 which protrudes through hole 24 and extends upwardly into a lower portion of cylindrical partition 28.
  • each rib 31 extends upwardly from base 12 to just below upper rim 16 of wall 11; each rib 31 has a - 24 - _ generally triangular longitudinal section, a generally rectangular cross-section, and is contiguous with the internal surface of wall 11.
  • Said ribs 31 support a trapezoidal partition plate 33, the narrower bottom end of which abuts each of the steps 32, said plate 33 extending upwardly to terminate just below the upper rim 16 of wall 11. Plate 33 thus partitions an inlet region 34 from the body of reservoir 13; which inlet region 34 communicates with the reservoir 13 via its open lower end 35.
  • the base 12 of water tank 10 is provided with two water outlet conduits 50.
  • Each outlet conduit 50 extends upwardly through base 12 and terminates at an upper end 51 upwardly spaced from lower rim 29 of cylindrical partition 28.
  • Each water outlet conduit 50 has a generally frustoconical internal surface 52, which is slightly downwardly tapered towards lower end 53.
  • Each water outlet conduit 50 emerges from base 12 at lower end 53 in a water outlet boss 54.
  • Base 12 of water tank 10 is also provided with a generally cylindrical, depending drain boss which defines an internal drain conduit 56 of circular cross-section. Drain boss 57 at its upper end is flush with the internal surface of base 12, and terminates at its lower end in an annular rim 58.
  • the water tank 10 is further provided with a thermostat assembly 60 consisting of a thermostat 61 and a thermal trip 62.
  • Thermostat assembly 60 is supported by three upwardly extending support posts 63.
  • Each support post 63 is connected at its lower end to the base 12 and terminates at a height, intermediate the upper and lower ends of cylindrical partition 28, in an upper end 64.
  • Each support post 63 has a generally rectangular cross-section and has a substantially vertical side wall 65.
  • the three support posts 63 are arranged in a generally triangular configuration such that the vertical side walls 65 of each post 63 are disposed adjacent one to the others, thereby defining a vertical recess 66 which houses the thermostat assembly 60; the thermostat assembly 60 is a push fit into the recess 66.
  • Water tank 10 is adapted to be closed at its upper end by a closure 70.
  • Closure 70 has a generally square crown 71 and a depending skirt 72 is disposed around the perimeter of the crown 71, defining an external, peripheral rim 73.
  • the sleeve 75 has a vertical slot 77 extending upwardly from annulus 76 to just below the underside of crown 71 of closure 70. The slot 77 is disposed towards the corner 74 of closure 70.
  • Closure 70 is further provided with three probe conduits 80, which are disposed in crown 71 and arranged colinearly one with the others and adjacent the skirt 72 of closure 70. Closure 70 is further provided with a water inlet conduit 85 disposed in a corner adjacent corner 74 having sleeve 75.
  • Closure 70 carries, on the underside of crown 71, three substantially vertical, depending support posts 86.
  • the posts 86 are circumferentially equally spaced around a circle having the same diameter as and concentric with, the cylindrical partition 28 of reservoir 13.
  • the closure 70 is aligned with the upper rim 16 of the tank 10 such that the sleeve 75 is coaxial with upper end 41 of overflow conduit 40.
  • closure 70 is then pushed onto upper rim 16 of tank 10 such that skirt 72 fits tightly inside rim 16 of wall 11, and rim 73 of closure 70 sits on the upper rim 16 of wall 11 of water tank 10; the frustoconical sleeve 75 surrounds the upper end 41 of overflow conduit 40, and the three support posts 86 are disposed around upper rim 36 of cylindrical partition 28.
  • the inlet conduit 85 is disposed directly above the inlet region 34 of reservoir 13.
  • Each of the three probe conduits 18 houses a generally cylindrical probe grommet 84, having a cylindrical internal bore.
  • a water level probe 81, 82, 83 passes through each probe grommet 84 and extends downwardly into reservoir 13.
  • the water level in the reservoir 13 is maintained by means of the water level probes 81, 82 and 83.
  • the low water level probe 82 registers the low level of water and activates an inlet valve thereby allowing water to enter the reservoir 13 of water tank 10.
  • Water continues to enter the reservoir 13 until the high water level probe 81 registers the high level of water and the valve is closed, thereby stopping the entry of water.
  • the high water level indicated generally at 90 is just below the upper end of cylindrical partition 28.
  • a third water level probe 83 is used as a reference probe.
  • fresh aerated water enters into the reservoir 13 of water tank 10 via inlet 85 of closure 70, inlet region 34 defined by partition plate 33, and under said plate 33 through open lower end 35.
  • the water is metered into the tank by means of a separate supply or break tank as required by local water supply regulations.
  • the aerated water passes into the reservoir 13 through and via the inlets 30 into de-aerating cylinder portion 37.
  • the thermostat 61 senses the low temperature of the incoming water and switches the heating element 25 to its operative state.
  • the heating element 25 produces rapid heating of the water within the cylindrical partition 28 to a temperature above that at which air is removed from the water.
  • the temperature of the water increases to boiling which causes turbulence in the de-aerating portion 37.
  • the boiling water boils over the upper rim 36 of the cylindrical partition 28 into the body of the reservoir 13 of the water tank 10 while de-aerated water moves from the body of the reservoir 13 of the tank 10 via the inlets 30 beneath the lower rim 29 of cylindrical partition 28 into the de-aerating portion 37.
  • the process continues with the water circulating and being de-aerated by heating until thermostat 61 registers the predetermined temperature, thereby operating thermal trip 62 and switching off heater 25.
  • the water in the reservoir 13 will slowly cool in which case the lower predetermined threshold thermostat 61 will sense the lower threshold temperature, and activate the heating elements 25 to produce heating and renewed deaeration as necessary, with water boiling over the top of cylindrical partition 28 into the body of the reservoir 13 of the tank 10 and water passing from this body of reservoir 13 into the lower portion of de-aerating portion 37, until the temperature of the water in the storage portion reaches the temperature at which the thermostat 61 deactivates the heater 25.
  • the solid ingredients for the beverage such as leaf tea and creamer
  • a receptacle such as a plastic cup
  • the receptacle will then be placed in a water dispense location for the vending machine.
  • Activation of a water valve will release a predetermined amount of water into the cup via water outlet conduit 50, thereby producing a stirring and mixing action in the cup to produce the beverage.
  • Water for tea is dispensed from one outlet 50 only to reduce turbulence and bubble formation. The vortex formed by one jet of water entering the cup at the edge mixes the tea beverage adequately.
  • both dispenser outlets 50 are used for other drinks such as ground coffee mix.
  • de-aerated water can be supplied at predetermined temperatures for the formation of beverages.
  • the base 12 of water tank 10 is provided with drain conduit 56 for the purpose of draining down the tank completely for cleaning and maintenance purposes.
  • Neosyl TS 0.91 parts
  • Betacarotene 1% CWS 0.27 parts
  • the ground tea had a particle size such that, on successive sieving, 1.22% by weight was retained on a 250 micron mesh sieve, 47.40% by weight was retained on a 125 micron mesh sieve, 50.41% by weight was retained on a 63 micron mesh sieve, and 0.95% by weight was retained on a 38 micron mesh sieve.
  • the whole leaf tea was produced by the method of cut, twist and curl (CTC) , well known to a man skilled in the art, . and had a particle size such that, on successive sieving, 0.06% by weight was retained on a 2mm mesh sieve, 22.74% by weight was retained on a 1mm mesh sieve, 52.86% by weight was retained on a 600 micron mesh sieve, 20.62% by weight was retained on a 355 micron mesh sieve, 2.21% by weight was retained on a 250 micron mesh sieve and 1.28% by weight passed through the 250 micron mesh sieve.
  • CTC cut, twist and curl
  • the beverage forming composition was prepared as follows:-
  • a quantity of tea was loaded into a grinder hopper and ground to produce the ground tea having the characteristics described above.
  • a quantity of each of the sorbitan monostearate and the colouring agents was weighed out and the latter mixed with a portion of semi-agglomerated non-diary creamer.
  • the remainder of the non-diary creamer was mixed for one minute with the lactose, colouring agents, sorbitan monostearate and Neosyl TS. The mixing was stopped and to the mixture was added the leaf tea, followed by the ground tea as prepared above.
  • a second beverage forming composition for use in a vending machine was produced, using the method as described above, and having the formulation given above.
  • the ground tea used in the composition had a particle size such that, on successive sieving, 0.38% by weight was retained on a 250 micron mesh sieve, 29.94% by weight was retained on a 125 micron mesh sieve, 59.00% by weight was retained on a 63 micron mesh sieve, 10.43% was retained on a 38 micron mesh sieve, and 0.07% by weight passed through said 38 micron mesh sieve.
  • the whole leaf tea used had a particle size such that 14.95% by weight was retained on a 1.0mm mesh sieve, 62.65% by weight was retained on a 600 micron mesh sieve, 19.61% by weight was retained on a 355 micron mesh sieve, 2.03% by weight was retained on a 250 micron mesh sieve, and 0.74% by weight passed through said 250 micron mesh sieve.
  • beverage forming composition described above will wet, disperse, sink and brew in circumstances with, for example, water heated to a temperature of from 60°c - 90°c in a kettle, although it is preferred to use de-aerated water obtained using the water and tank assembly substantially as described herein.

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  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Polymers & Plastics (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Beverage Vending Machines With Cups, And Gas Or Electricity Vending Machines (AREA)
  • Apparatus For Making Beverages (AREA)

Abstract

L'invention concerne une composition de préparation de boissons comprenant du thé ou du café moulu, pouvant s'écouler et être mesuré par l'intermédiaire d'une vanne de distribution de poudre se trouvant à l'intérieur d'un distributeur automatique, de sorte que l'addition d'eau désaérée à une température comprise entre 60° et 90°C à ladite composition, produit une boisson dans un récipient; la composition présente une granulométrie sélectionnée de sorte que la partie des composants moulus flottant à la surface de ladite boisson est inférieure à 1 % en poids du total.
PCT/GB1990/000911 1989-06-13 1990-06-13 Nouvelle composition de preparation de boissons WO1990015542A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GB8913545.3 1989-06-13
GB898913545A GB8913545D0 (en) 1989-06-13 1989-06-13 Improvements in or relating to formation of beverages

Publications (1)

Publication Number Publication Date
WO1990015542A1 true WO1990015542A1 (fr) 1990-12-27

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ID=10658346

Family Applications (2)

Application Number Title Priority Date Filing Date
PCT/GB1990/000912 WO1990015563A1 (fr) 1989-06-13 1990-06-13 Ensemble de reservoir d'eau
PCT/GB1990/000911 WO1990015542A1 (fr) 1989-06-13 1990-06-13 Nouvelle composition de preparation de boissons

Family Applications Before (1)

Application Number Title Priority Date Filing Date
PCT/GB1990/000912 WO1990015563A1 (fr) 1989-06-13 1990-06-13 Ensemble de reservoir d'eau

Country Status (4)

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EP (2) EP0477241A1 (fr)
AU (2) AU5832590A (fr)
GB (3) GB8913545D0 (fr)
WO (2) WO1990015563A1 (fr)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20130129873A1 (en) * 2010-07-30 2013-05-23 Michael Alan Cooper Process for fabricating leaf tea products
US8986770B2 (en) 2010-07-30 2015-03-24 Conopco, Inc. Process for fabricating leaf tea products
WO2020172227A1 (fr) * 2019-02-21 2020-08-27 The Coca-Cola Company Système de distribution de boisson avec systèmes de stockage de micro-ingrédient à distance

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH675819A5 (fr) * 1988-06-10 1990-11-15 Nestle Sa
JP2701731B2 (ja) 1994-01-31 1998-01-21 日本電気株式会社 コンピュータ接続対応無線選択呼出受信機
GB2322282A (en) * 1997-02-19 1998-08-26 Slotz Group Ltd Tea compositions
IT201900019211A1 (it) 2019-10-17 2021-04-17 Rancilio Group Spa Modulo di infusione e macchina per caffè provvista di un modulo di infusione

Citations (5)

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US8709522B2 (en) * 2010-07-30 2014-04-29 Conopco, Inc. Fabricated leaf tea products
US8986770B2 (en) 2010-07-30 2015-03-24 Conopco, Inc. Process for fabricating leaf tea products
WO2020172227A1 (fr) * 2019-02-21 2020-08-27 The Coca-Cola Company Système de distribution de boisson avec systèmes de stockage de micro-ingrédient à distance
US11591201B2 (en) 2019-02-21 2023-02-28 The Coca-Cola Company Beverage dispensing systems with remote micro-ingredient storage systems

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GB2234336A (en) 1991-01-30
GB2234336B (en) 1994-03-02
AU5819390A (en) 1991-01-08
EP0477241A1 (fr) 1992-04-01
AU5832590A (en) 1991-01-08
GB2234151A (en) 1991-01-30
EP0478618A1 (fr) 1992-04-08
GB9013212D0 (en) 1990-08-01
GB9013213D0 (en) 1990-08-01
GB8913545D0 (en) 1989-08-02
GB2234151B (en) 1993-02-24
WO1990015563A1 (fr) 1990-12-27

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