US20120234183A1 - Combination concentrate mix and fresh brewed beverage dispensing device - Google Patents

Abstract

A hot tea dispensing machine is disclosed. The hot tea dispensing machine has a tea brew basket with an urn situated below. Housing is provided for supporting the urn and the brew basket above the urn. Flow control circuits are provided that deposit hot water above the brew basket and makeup water and a concentrate directly into the urn. The makeup water and concentrate is pressurized and the flow directed from nozzles will direct a stream of the concentrate and the makeup water so they intersect within the interior of the urn.

Description

• This patent application claims the benefit of priority of U.S. Provisional Patent Applications Ser. No. 61/452,813, filed Mar. 15, 2011; and Ser. No. 61/528,846, filed Aug. 30, 2011.
FIELD OF THE INVENTION
• Beverage dispensing machines, namely, a beverage dispensing machine that is capable of dispensing fresh brewed and concentrate tea through flow control circuits.
BACKGROUND OF THE INVENTION
• Typically, tea dispensers provide for either dispensing of a tea made from a combination of a concentrate and diluent, such as water, or fresh brewed tea. Fluid flow circuits are typically provided with pumps for metering the flow of a concentrate and a diluent in a controlled ratio so the tea from the concentrate is not too strong and not too weak. Fresh brewed tea mix dispensers typically provide for a combination of hot water with either loose tea leaves or tea leaves in a bag, which tea leaves will steep in the water for a period of time, then deliver to the user.
SUMMARY OF THE INVENTIONS
• A hot tea dispensing machine is disclosed. The hot tea dispensing machine has a tea brew basket with an urn situated below. Housing is provided for supporting the urn and the brew basket above the urn. Flow control circuits are provided that deposit hot water above the brew basket and makeup water and a concentrate directly into the urn. The makeup water and concentrate is pressurized and the flow directed from nozzles will direct a stream of the concentrate and the makeup water so they intersect within the interior of the urn, typically above a fluid high level and below an upper rim of the urn
• A multi-station dispensing unit for dispensing fresh brewed tea or other drink is provided. At least one station of the multi-station unit has an urn adapted to receive fluids from a nozzle assembly located above the urn and also to receive strong, hot fresh brewed tea from a brew basket above the urn for providing the strong, hot fresh brewed tea to the urn. A nozzle assembly is provided so as to provide both makeup water and a concentrate, the makeup water for diluting the strong, hot fresh brewed tea from the brew basket and the concentrate being one or more of a sweetener and/or a flavor.
• A tea dispensing machine is provided for engaging at least one pressurized concentrate source and a pressurized water source. The tea dispensing machine typically has at least one urn having side walls, an urn interior, a floor, and an upper rim, at least one of tea brew basket, a housing having a base and an upper section, the base configured to engage the urn, the upper section configured to engage the tea basket so that the tea basket is over an urn; a hot water fluid circuit comprising a hot water leg, including a flow control valve, with at least one removed end situated above a brew basket; a makeup water/concentrate fluid circuit comprising a makeup water leg, including a flow control valve, with a removed end, the removed end proximate the urn, and also at least one concentrate leg, including a flow control valve, with a removed end, the removed end proximate the urn; wherein the removed ends of the makeup water leg and the concentrate leg are directed such that a pressurized flow controlled fluid emitted from each simultaneously at least partly converges within the urn interior.
• A beverage dispensing valve for dispensing a beverage from a container is disclosed. The beverage dispensing valve includes a downspout assembly having a body having walls with a slot therein. The downspout assembly has a channel, an upper opening and a lower opening, with the slot in the channel between the upper and lower openings. The downspout assembly includes a lateral member typically extending laterally from the downspout assembly and engaging the wall adjacent the slot. A pinch member is designed to be party enclosed within the lateral member and dimensioned to move partially through the slot. A handle typically engaging the removed end of the lateral member and the pinch member moves the pinch member in and out of the slot. A coil spring may be provided for engaging the lateral member and the pinch arm urging the pinch arm at least partially through the slot of the body. A pliable, flexible silicon-based, elastomer sleeve or insert or other suitable member is dimensioned to tightly fit against the walls of the channel of the body, the insert having an open top and an open bottom. The pinch member is engaged to the wall of the slot and when the pinch member moves through the slot into the interior of the channel of the body, the pinch member shuts off and closes any fluid flow therethrough. When the pinch member is moved, via the handle so that it is at least partially out of the slot, fluid is allowed to flow, under the impetus of gravity between the upper opening of the insert and the lower opening of the insert.
• A beverage dispensing valve is disclosed for engaging a beverage container. The valve typically includes a downspout assembly having a substantially vertical body and having walls defining a generally vertical channel therethrough and having a slot in the walls, the walls defining an upper opening and a lower opening; the body with a lateral member extending laterally from the slot.
• The valve may include a flexible, resilient sleeve-like insert having a channel with an upper and lower opening, the insert dimensioned to snuggly engage the walls of the channel, at least adjacent the slot.
• The valve may include a pinch member dimensioned to move at least partly through the slot and, at least partly into the channel and against the insert and a handle, adapted to engage the pinch member to move the pinch member between a pinched position wherein the channel of the pinch member is substantially closed and an open position wherein the channel is at least partially open. The handle may include a generally vertical portion adapted to be grasped by the hand. The vertical portion may extend generally vertically upward.
• The valve may include a biasing member engaging the pinch member and the body to urge the pinch member to the closed portion.
• The valve may include including a pin for engaging the handle to the pinch member.
• The insert may at least partially extend between the ends of the channel of the body and the insert may be adapted to seal fluidly against the walls of the downspout assembly.
• The insert may have a handle extending at least partly upward from the walls defining the upper opening.
• The insert may be comprised of a silicon-based elastomer
BRIEF DESCRIPTION OF THE DRAWINGS
• FIG. 1 is a right side perspective view of the exterior of the combination unit with a front panel removed, and a brew basket/urn set at a first of four stations.
• FIG. 2 is a rear elevational view of the combination unit.
• FIG. 2A is a rear left side perspective view of the unit with the rear and side housing panels removed.
• FIG. 2B is a rear top side perspective view of the unit with the rear and side housing panels removed.
• FIG. 2C is a bottom front and left side perspective view of the combination unit.
• FIG. 2D is a rear right side perspective view of the combination unit with the rear housing panels removed and showing the interior of the hot water tank.
• FIGS. 3A and 3B are perspective views of the urn.
• FIGS. 4A and 4B are perspective views of the brew basket (without a tea bag).
• FIGS. 5A and 5B illustrate in schematic, the urn fluid circuit and the fresh brew circuit of Applicants' combination unit.
• FIG. 6 illustrates a front elevational view of Applicants' combination unit.
• FIG. 7 is an illustration of a block at one of the stations. The block shows the manner in which injectors of the block are directed towards one another.
• FIGS. 8A and 8B are side elevational and front views of a brew basket, including some representative dimensions therefor.
• FIG. 9 is a side elevational view showing a housing with the urn and the injectors positioned above and within the upper rim of the urn. Dimensions given are approximate.
• FIG. 10 is a top elevational view showing the injectors directed towards one another and over an urn.FIGS. 10A,10B,10C, and10D illustrate top elevational, front cross-sectional, front elevational, and side cross-sectional views of Applicants' nozzle.
• FIG. 11 is a side cross-sectional elevational view of the urn through the valve engaged therewith.
• FIG. 12 is a closeup cross-sectional view of a valve for use with an urn for use with a tea dispensing machine, with the pinch member pinched or closed.
• FIG. 12A is a view as inFIG. 12, with the pinch member in an open or flow condition;FIG. 12B is an exploded view of an urn and valve assembly.
• FIGS. 13 and 14 are external perspective and side elevational views of a valve for use with Applicants' tea dispenser.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
• Turning toFIGS. 1 and 2, it is seen that Applicants provide acombination unit10 which, as will be seen, is at any one of a multiple of stations capable of dispensing at the user's choice, either a fresh brewed tea or a concentrate mix tea prepared from a bag in box (BIB) concentrate and a diluent, such as water. Applicants' device is a combination unit in several senses of the term. In one instance, it provides that, having multiple stations, one station may be programmed to provide an urn full of fresh brew tea and a second station, structurally substantially to the first, may be programmed to deliver an urn full of concentrate mix tea. Therefore, Applicants' unit combines in a single device the capability of providing either a concentrate mix beverage or a fresh brewed beverage. However, Applicants' device is also a combination unit in the sense that a single station of the typically multiple stations combines the ability to adapt and serve, at the user's control, either a fresh brew or a concentrate mixed beverage urn.
• As set forth herein, there are multiple stations in a dispensing unit. Each station is plumbed for either or both of a fresh brewed circuit or a tea concentrate, a makeup water circuit (every station), and a concentrate circuit as set forth in more detail below. Moreover, the concentrate circuit may be one or more of a concentrate tea, a sweetener or a flavor for the tea.
• We will first examine the hardware comprising thecombination unit10. Following this examination of the hardware, we will examine the fluid flow circuits, and lastly look at the electronic control of the fluid flow circuits, and their engagement with the flow control of the fluid flow circuits to provide precise metered delivery of a diluent, a concentrate or a fresh brewed product to the consumer.
• FIGS. 1 and 2 illustrate ahousing12, typically fabricated from sheet steel or other suitable material.Housing12 is seen to provide support for at least onetea urn14 and at least onebrew basket16. Attention is called to the position and size of theurns14 andbrew baskets16. Oneurn14 is disposed below onetea basket16 to create one dispensing station. Four dispensing stations are illustrated, A-D as seen inFIG. 6.Urn14 is significantly larger than the brew basket, typically about 3 gallons in capacity, and has anopening31ain top orlid31 for receipt of a strong fresh brewed tea from thesmaller brew basket16, which may be about 96 ounces in capacity and is located above the urn. Moreover, there are seen to be four sets of urns and tea baskets (that is to say, four dispensing stations), though only one is illustrated inFIG. 1. The urns slide into thehousing12 as illustrated inFIG. 1 and thetea baskets16 slide into the rails20cas seen inFIG. 1. That is, one of the functions ofhousing12 is to support both tea urn (from below) and a brew basket, so that the brew basket is above the urn.
• Turning tohousing12 is seen to comprise abase18 and a spaced apartupper housing20 with anupper housing support22 between the base and the upper housing.Upper housing20 is seen to comprise atop cover20aand afront face20b.Upper housing support22 is seen to include afront wall22a.Housing12 may also include asplash plate24 across the front ofbase18, whichsplash plate24 is typically located below dispensingvalve assembly36 ofurn14.Base18 may also be provided with adrip tray26 for spillover and draining in ways known in the art.Legs28, such as the four illustrated inFIGS. 1 and 2, may be provided on a bottom perimeter (seeFIGS. 2aand2b) for supporting the unit on a support surface.
• Turning toFIGS. 3A,3B,9, and10, views oftea urn14 are illustrated.Tea urn14 is seen to comprise anurn base32 and anurn body34 having an upper perimeter or rim14a.Urn base32 may have alower perimeter lip32athat may be a rubber or soft grommet or border or that is simply the lower perimeter of the side walls and is designed to engage rails18bof base atop surface18aof34 as seen inFIG. 1. This will provide lateral positioning of the urns as they lay adjacent aligned one with another as seen inFIG. 6.Urn body34 is intended to hold the mixed (ready to serve) beverage andvalve assembly36 is provided to dispense, by gravity, the beverage contained in the body to a handheld drink container (not shown).
• Turning now toFIGS. 4A,4B,8A, and8B, it is seen thatbrew basket16 comprises abrew basket body38 for containing atea bag17 dimensioned to conform to the interior ofbrew basket body38 and for receiving a fluid, such as hot water, as more specifically set forth below.Tea bag17 is typically kept off the floor of the brew basket by ribs, ridges orstandoffs16a. Brewbasket16 is seen to have ahandle40 dimensioned for receipt of a hand to grasp and manipulate, such as when changing outtea bag17. Brewbasket16 is also seen to have anupper rim42, which upper rim is designed to engage rails20cofupper housing20 as seen inFIG. 1 to support the weight of the brew basket as it is suspended over the urn. Extending belowbase38aofbrew basket body38 is a pair oflegs44 which, combined with the dimensions of thefeed spout46, allows the brew basket to sit level on a horizontal surface.Feed spout46 is seen to depend belowbase38aand has asmall feed opening48, such as a feed opening of approximately 0.082″ diameter, will provide for steeped, hot tea fluid intourn14.Feed opening48 is engaged with amesh filter50 to provide for a clean, filtered steeped fluid passing throughfeed opening48. As seen inFIGS. 2A and 2B, Applicants'combination unit10 typically will include ahot water tank51 as set froth in more detail below.
• It may be helpful to view an embodiment of Applicants' device as having a number of fluid flow circuits. With reference toFIGS. 2A,2B,2C,5A, and5B, and these specifications, these circuits will be described. A first circuit illustrated schematically inFIG. 5A and inFIGS. 2A and 2B, may be considered a circuit adapted to direct at least one (and typically more) flow controlled fluid directly into the urn. In the first circuit, at least one concentrate leg, engaged to a bag in the box or a “BIB” pressurized source (typically outside the housing), is represented by letters C and D, designating either one of tea concentrate, sweetener or flavor concentrate (or other suitable concentrate). That is to say, pressurized concentrate source C and D may be a tea concentrate and flavor concentrate mix use as set forth below or a tea flavor or sweetener concentrate for use as set forth below, or any other suitable concentrate.
• One of the first circuits is illustrated inFIGS. 5a,2a, and2b. The first circuit may have at least one concentrate leg (beginning at C and/or D) and a makeup water leg (seeFIG. 5a). Turning toFIG. 5a, with reference to the concentrate leg, it is seen that concentrate C and/or D may be a bag and box pressurized concentrate known in the art. Here, C and D is designated numeral52, which may be used to designate a bag in box pressurized concentrate source. Aline56bwill carry the concentrate to aflow control58a, such as Schroeder American Part No. 6390030 (which may be used in some or all flow controls used in unit10), which may provide controlled output downstream flow, even when upstream pressure inline56bmay vary. These flow controls are known in the art of bar gun dispensers and typically comprise a spring, sleeve, and piston, etc. Downstream offlow control58a, the concentrate is carried inline56bto asolenoid60a, which is controlled by a control circuit as set forth in more detail below, to ablock62 having aninjector64cthereon.
• The first circuit (FIG. 5a) typically includes a water leg comprising, typically, city water.City water54 is typically pressurized and carried inline66 to, optionally, amanifold68. Manifold68 (seeFIG. 2a) may have a number of output lines, here, four (one for each station), and oneline70awill carry pressurized city water to flowcontrol58b. Downstream offlow control58bisline70b, which carries water, in a volume controlled flow, to solenoid60b. All solenoids are normally closed and are controlled by a control board88 and microprocessor as set forth in more detail below. Whensolenoids60a/60bare opened, pressurized flow will pass throughblock62 to injector64a/64c(concentrate) and64b(makeup water) for injection into the urn.Injectors64a/64bare directed such that their fluid streams will intersect (converge) in the interior of the urn, typically above a high fluid level F_LH(seeFIGS. 7 and 9).
• Flow controls58a/58bmay be adjusted for flow volume in ways known in the art for the proper ratio or brix between amount of concentrate C and/or D and amount of makeup water. For example, there may be a 5 to 1 ratio between water and a tea concentrate.
• Typically, but not necessarily, there are four first circuits (concentrate and makeup water legs) each similar to that illustrated inFIGS. 5A,2A, and2B, they may have the same or different bag in box sources A/B/C/D, and each able to, through manual adjustment of flow controls and the timed circuits from the control board provide a proper mix ratio of concentrate to makeup water and, if used, steeped fluid, each providing for dispensing into an urn placed adjacent or belowblock62.
• FIG. 5B illustrates a second circuit or fresh brew hot water circuit. The fresh brew hot water circuit is provided for allowing the option of providing a fresh brew tea rather than a bag in box concentrate tea (flavored or unflavored, sweetened or unsweetened). The fresh brew circuit provides water heated inhot water tank51 to aninjector86 placed above each of the fourbrew baskets16. The brew baskets, if the fresh brew circuit is selected, will contain a tea bag17 (seeFIG. 4A) selected for the appropriate volume of fresh brew tea, a maximum given by the size of the urn beneath the brew basket. Hot water tank may include drain51bwithstop clip51cengaged therewith and plug51eat the end.
• With reference toFIGS. 2A,2B,2D,5A and5B, it is seen that fresh brew hot water circuit typically receivespressurized water54 through line74a(which may or may not bypass manifold68—here it is shown bypassing manifold68). Water is provided to flowcontrol76 through line74a. Downstream offlow control76, line74btakes flow controlled water to a hot watertank fill solenoid80, then tohot water tank51 atinlet51afor heating as set forth in more detail below. Inlet water tube51d(FIG. 2D) will release the water near the bottom of the tank and adjacent theheating element92 as seen inFIG. 2D. Engaged with anoutput line82 of the gravity fed water fromhot water tank51 issolenoids81a/81b/81c/81d(seeFIG. 2b). Downstream ofsolenoid81a,line82 carries heated water by gravity feed, to plate84. Each of the four solenoids controlling hot water tank flow toinjectors86 has aline82 downstream to engagesolenoids81a/81b/81c/81d.
• Plate84 has aninjector86 mounted above the brew basket as seen, for example, inFIGS. 1 and 2b.Injector86 allows hot water to flow, under gravity, to thebrew basket16.Solenoid81a, in the manner set forth below, allows the controlled flow of gravity fed hot water, to be received in the brew basket16 (which may contain leaf tea or a tea bag) for a controlled amount of time (cycling open normally closedsolenoid81a). Knowing the accurate gravity feed flow rate (given head of tank water level above injector86), the control board is programmed to provide a time cycled to the normally closedsolenoid80 to allow it to be opened for a precise period of time, which will allow a precise volume of hot water delivered to thebrew basket16. This controlled volume of hot water is the steep water (creating a strong tea mix) and will only be a fraction of the water provided to the urn. Indeed, unheated “makeup water” is provided from the makeup water leg illustrated inFIG. 5A above. For example, if 96 oz. of steep water (for creating hot, strong tea in the brew basket) is provided through fresh brew circuit illustrated inFIG. 5bto brewbasket16, makeup water may be, for example, 3 gallons less the 96 oz. This makeup water is provided throughinjector64bby the timed cycling ofsolenoid60b; if the fresh brew circuit is selected, to provide a total of 3 gallons of fresh brewed tea in theurn14 as situated below the brew basket chosen for the fresh brew circuit.
• If the fresh brewed circuit ofFIG. 5ais selected, not only is makeup water at ambient temperature be provided from the water leg of the first circuit ofFIG. 5A, but a flavor (for the fresh brew) may be provided at bag in box C/D2, for example, a sweetener for the hot brewed tea. The first circuit carrying the bag in box tea concentrate may carry at C/D instead or in addition a sweetener, in pressurized bag in box form for use with a fresh brewed circuit. In such a manner, both makeup water, throughinjector64band flavor throughinjector64aor64cmay be provided when a fresh brew circuit is chosen as set forth in more detail below and the sweetener option in bag in box form, placed at C/D as illustrated inFIG. 5A.
• There may be a plurality of electronic control circuits whose functionality is set forth in more detail below. These electronic control circuits are controlled generally from a control board88 containing a microprocessor (not shown). First, there is a station/choice control circuit. This control circuit includes the manual input and display boards41a/41b/41c/41d(for example, via touch screen), typically one for each station or a single input and display, which can manually output signals to control board88. Manual input and display boards41a/41b/41c/41dare typically located just above the brew baskets/urn combination at that station that it is intended to control. In an alternate embodiment, a single manual input anddisplay board41 is used (seeFIG. 1). In the station/choice control circuit, the user may input at a selected one of four stations, make a selection of a fresh brew or concentrate circuit, go to the second, go to the third, and finally to the fourth station, choosing at each station whether or not the beverage choice will be fresh brewed tea (which may be with or without flavor concentrate) or concentrate made tea (bag in box). Optionally, the system may have a beverage strength option (strong, regular, mild) for beverage strength control. Optionally, also, a beverage volume control may be input (small volume, medium volume, and full urn of beverage volume). This uses less makeup water for different volumes or stronger/weaker mixes. A microprocessor in control board88 is programmed in ways known in the art for the control circuit input to receive input from the input anddisplay board41,41a/41b/41c/41dand to output selections to the timed solenoid cycles as more specifically set forth herein.
• By way of example, station A (leftmost inFIGS. 1-2d) is selected by the user and a choice of fresh brew tea is made. The microprocessor will respond to a start cycle (start/stop button59) by opening normally closedsolenoid80 for a period of time sufficient to deposit a first volume of hot water in the brew basket at station A. The microprocessor will measure a delayed time sufficient for the hot water to steep in the bagged tea in the basket and, typically for at least one of the steeped tea, to drain through feed opening48 into the urn below.
• Following the opening and then closing ofsolenoid80 and typically following the time delay sufficient for some of the hot water to have steeped and drained into the urn below, normally closedsolenoid60bwill open for a period of time sufficient to deposit a second volume of unheated or “makeup” water into the urn to mix with the first volume of steeped water. The first volume of steeped, hot fluid plus the second volume of unheated makeup water will substantially equal the desired beverage volume.
• If chosen via user (input), the optional flavor and/or sweetener circuit may be opened for a time period sufficient to sweeten or flavor the beverage volume, such time period to preferably be within the time period that solenoid60b(makeup water) is opened—ensuring simultaneous flow of the flavor or sweetener and makeup water and proper mixing thereof.
• Turning now back to station A, in the next example, instead of a choice of fresh brew being made, the user has placed a bag in the box tea concentrate at C/D and has input the “concentrate choice” (rather than fresh brew) mode at station A.
• The microprocessor thereafter responds to the start cycle (via user input) by openingsolenoid60bfor a period of time to deposit a first flow controlled volume of water through the injector into the urn (not into the brew basket). This period of time may also be responsive to beverage volume control (for a strong, regular or mild beverage strength). Typically, whilesolenoid60bis opened,solenoid60awill also be open for a period of time (usually less) to deliver sufficient tea concentrate to the beverage volume. This period may also be responsive to either the optional beverage strength or beverage volume control. Additionally, a flavor and/or sweetener circuit may provide flavor and/or sweetener to the urn.
• A temperature control circuit operates through the microprocessor and control board88. Its function is to maintain temperature in ahot water tank51 between a preset high and a preset low temperature limit (for example, 195°-205° F.). The temperature control circuit includes aheating element92, atemperature sensor94 on heat tank51 (seeFIG. 2d). Periodic monitoring of sensor (temperature probe)94 input will allow the control board88 to control current toheating element92.
• Flow control as set forth herein is typically adjustable to control the ratio of the mix; that is, concentrate to water on the first circuit. However, controlling the ratio of the mix may also be achieved by varying the solenoid open time periods. For example, if a 5 to 1 mix is required, between water and concentrate, a flow control of water at five times the rate of the flow control of a concentrate will achieve such a mix, so long as the time period of the solenoids in their open condition is the same for both the water and the concentrate. On the other hand, if the flow control were adjusted so that the rate of flow of the concentrate and the water were the same, then to achieve the 5 to 1 ratio, the solenoid for the water would be open for five times the period of the solenoid opening for the concentrate. Variations between these extremes may be provided. Typically, however, the period of time is controlled such that the flow of the concentrate is within the time period of the flow of the water. Moreover, as can be seen withFIG. 7, it is seen how the twoinjectors64a/64bor threeinjectors64a/64b/64care directed toward one another so that the stream of the makeup water and the concentrate(s) mix at a mid-point mp, which mid-point is typically above the highest level of fluid intended to be deposited in the urn and below theupper rim14aof the urn. This mid-stream mixing is designed to achieve a more thorough co-mingling of the two or three fluids as the case may be.
• The control board may also be programmed for a water only circuit. That is to say, the water leg may be opened while all the other solenoids are shut down to provide ambient water only throughinjector64bto the urn.
• While tea is a beverage that may be fresh brewed, other beverages are also possible, such as, for example, bagged coffee or loose ground coffee using a filter and a drip mode. Moreover, there is also, in one embodiment, a single station wherein the combination is the ability to either fresh brew, with makeup water and optionally flavor, or to concentrate mix the dispensed beverage.
• A tank fluid level control circuit is also provided to maintain proper fluid level in hot water tank51 (water level above the four outlets and substantially covering the heating element). At this point, it is noted that the four outlets of thetank51 are also above theinjectors86, to allow gravity flow of the hot water into the brew basket. Voltage is measured at the control board to thewater level sensor90 mounted on top and depending into the hot water tank (FIG. 2d). Microprocessor and control board88 is set to detect the presence of fluid or lack of fluid (the resistance change affecting voltage). The microprocessor will keep the water above the water outlets ofhot water tank51 covered and also substantially covering theheating element92 immersed therein. If the fluid level drops below a minimum water fill,solenoid80 is open for a period of time sufficient to deposit water to just below the maximum fluid level, as detected by the sensors.
• There may be three injectors just above the urn, typically above the upper rim. That is to say, while some embodiments use two injectors for injecting fluid into the urn, three may be provided. For example, the first circuit, besides having makeup water leg, may include a concentrate leg having a flavor (such as lemon or raspberry) and a concentrate leg having a sweetener as seen inFIG. 5a. In such a circuit, only fresh brewed tea is available, with the makeup water being provided as set forth hereinabove, and both a flavor and a sweetener through the second and third injectors—the makeup water, flavor, and sweetener for injecting directly into the urn.
• On the other hand, in a first circuit, there may again be three legs, again a makeup water leg, but a second (concentrate) leg being bag in box tea (leg), and a third (concentrate) injector along with a third circuit having a concentrate sweetener.
• In addition, there may belevel sensors96 for indicating the level of fluid inurn14. It may be an optical level sensor or an ultrasound level detector, and positioned over an at least partly open urn. One such level sensor is Part No. QS180PA, 12-30 VDC, available from Banner Engineering, Pennsylvania, an ultrasound level detector. This level sensor is a “one position” sensor and is typically engaged to the control circuit and microprocessor. A one position level sensor will continuously monitor the level of fluid in the urn and, when it hits a preset low position, will signal an action, such as “re-brew.” This will generate solenoid commands as programmed—usually to begin a fresh brew or concentrate cycle.
• There may be multi-position sensor and microprocessor combinations, which sensors monitor the fluid level and which microprocessors include algorithms for certain flow control actions to occur at specified levels. For example, there may be a detection of a “no container” position, in which the algorithm will generate a “no flow” (also solenoid closed) or “no fluid” position.
• Applicants' unit is multi-functional in that it may be adapted to brew fresh brewed, concentrate tea or a combination, with all circuits at least providing makeup water separately in an urn. Makeup water as set forth herein means water added to either a steeped fluid in the hot brew circuit or a concentrate bag in box tea for a concentrate brew circuit.
• When the unit is configured for only fresh brewed tea, then only the fresh brewed circuit and the water leg of the first circuit need be provided. Optionally, a concentrate leg may also be provided in the first circuit to add a flavor and/or sweetener.
• If the unit is to be configured as a concentrate beverage only, then no fresh brewed circuit is required and only the first circuit, with at least a water leg and a concentrate leg for the bag in box tea concentrate, and, optionally, an additional concentrate leg for a flavor or a sweetener, may be provided. Typically, Applicants' unit will be configured to provide both fresh brewed and concentrate and may have two or more stations as necessary.
• There is a safety circuit operating with the temperature control circuit in which a fluid level drop to below a minimum fluid level on the tank will automatically shut off energy to theheating element92.
• It may be noted that there is no mixing nozzles or no mixing at all of water with any concentrate where such mixing occurs anywhere but in the urn interior or brew basket. That is, the machine has no point within it, not in the nozzles or upstream of the nozzles, where there are concentrates (whether tea concentrate or a flavor or a sweetener concentrate) and water mixing. Other than non-electrical flow control devices and the solenoids, there are typically no electrical elements, such as electrical valves or pumps. All mixing is done downstream of the machine, in the urn or above the fluid level in the urn.
• FIGS. 8A and 8B illustrate side and front views of a brew basket for use with Applicants' tea dispenser. A sloped floor is shown with upstanding elements provided to allow drainage to feedopening48.
• FIGS. 9 and 10 illustrate the manner in which block62, having multiple injectors thereon, is positioned, typically above anupper rim14aof an urn. It is also sent hat aremoved end36a(from which fluid is dispensed) ofvalve assembly36 is recessed both back fromfront wall14cof the urn and up from the portion of lower lip orperimeter32athat engagesbase18.
• If there is a lid or top31 on the urn, typically the injectors are positioned above the opening31aof the lid and having the direction set so the flow is through the opening in the top of the lid of the urn. It is seen with reference to the Figures that, with respect to a principal axis Pa, which is seen in the view ofFIG. 9, to be horizontal and straight, and inFIG. 10 to split the block bilaterally so that there are injectors on either side equidistant from the center. It is seen inFIG. 9 that the injectors typically direct the pressurized fluid flow downward at an angle C with respect to the principal axis.
• InFIG. 10, it is seen that the injectors that are on either side of the principal axis direct the fluid flow toward the principal axis in the view set forth inFIG. 10. Angles with respect to angle C and angle B may be in the range of about 15″ to 70″; angle C (FIG. 9) about 15° to 90° (straight down) or any other suitable angle such that the 2 or 3 streams are directed at a conveyance point Cp within the urn interior. Preferably, the point is within the interior, below the urn upper rim (for example, about an inch below), but in an alternate embodiment, the nozzles may be directed to a point above the urnupper rim14a. Typically, the nozzle directs the flow toward a convergence point that is above F_LHand below the rim and within the interior. In an alternate embodiment, thenozzles64a/64bor64a/64b/64care directed to convergence point Cp.
• FIGS. 10A,10B,10C, and10D illustrate further details of Applicants'nozzle62. It is seen to include walls defining a directedchannel65a, for each of theinjectors64a/64b/64c, which are directed to a convergence point Cp as set forth herein. It is also seen to include walls defining an engagement port65bfor engagement with the removed ends of the makeup water legs and the one or two concentrate legs as set forth herein.
• Dimensions forurn14 are given and are approximate; the maximum dimension is typically up to about 15 inches or less.FIGS. 11 and 12 illustrateurn14 with anupper rim14aand afloor14b.Urn14 hasvalve36 typically engaged to the floor thereof.
• InFIGS. 11,12,12A,12B,13, and14, it is seen thatvalve assembly36 may include adown spout assembly100, typically projecting generally vertically downward from thefloor14bof the urn, close to the front side wall thereof. Moreover, it is seen that downspout assembly100 may include afloor engagement member102 fluidly sealed to the floor. Abody104 extending downward thereof is coupled to the removed end of thefloor engagement member102 with acoupling member106. An O-ring or other sealing means108 may be used between the removed end offloor engagement member102 and the upper end ofbody104. Threaded engagement may be provided to pull the two members tightly together in fluid sealing relation. It is seen thatbody104 is vertically situated and has walls defining an inner channel and walls defining aslot109 therein between a near and removed end of the body. Alateral member112 having a channel open to the body extends laterally or horizontally outward from the body and substantially enclosesslot109.Lateral member112 is seen to be configured to engagehandle116 in the manner set forth below. Moreover handle116 is seen to be substantially outside of floor spaced apart from the front side wall of the urn as seen inFIGS. 11 and 12, so as to provide easy access thereto. Handle116 is seen to have an upstanding member116aand a cammed pin engaging member116b.
• Pinch member110 haspinch arm110ais dimensioned to extend therefrom and adapted to extend at least partially into a channel defined bybody104.Pinch member110 may also include aslot110bfor engaging apin118, the pin extending through to spaced apart portions of pin engagement member116b.
• Turning now toFIGS. 12,12A, and12B, an additional element of Applicant'svalve assembly36 is illustrated.Insert120 is a pliable, flexible member dimensioned to couple withdown spout assembly100.Insert120 may include ahandle122 engaged with abody124. Handle122 andbody124 may be integrated and form a flexible fluid tight element.Ring extensions126 may project outward from the outer walls ofbody124 to resiliently grip the inner walls ofbody104.Body124 has walls defining aninlet128 and anoutlet130, and a channel therebetween. Thewalls defining body124 are dimensioned to couple closely and adjacent to the inner walls ofbody104.Pinch arm110aengages the outer walls ofbody124 that layadjacent slot110b. Pin engagement member116bmay be cammed or configured to allowhandle116, in a first position to urge, under the impetus ofcoil spring114 against the insert as seen inFIG. 12.Pinch arm110ato the pinched position as seen inFIG. 12 or, in a second position, retractpin arm110aat least partially so as to allow the flow of fluid through the channel ofinsert120, as seen inFIG. 12A.
• Although the invention has been described in connection with the preferred embodiment, it is not intended to limit the invention's particular form set forth, but on the contrary, it is intended to cover such alterations, modifications, and equivalences that may be included in the spirit and scope of the invention as defined by the appended claims.

Claims (19)

1. A tea dispensing machine for engaging at least one pressurized concentrate source and a pressurized water source, the tea dispensing machine comprising:

at least one urn having side walls, an urn interior, a floor, and a lower rim and an upper rim

at least one of tea brew basket;

a housing having a base and an upper section, the base configured to engage the urn, the upper section configured to engage the tea basket so that the tea basket is over an urn;

a hot water fluid circuit for engaging a pressurized water service, the hot water fluid circuit comprising a hot water leg, including a flow control valve, with at least one removed end situated above a brew basket and a hot water tank downstream of the pressurized water source and upstream of the removed end; and

a makeup water/concentrate fluid circuit comprising a makeup water leg, including a flow control valve, with a removed end, the removed end proximate the urn, and also at least one concentrate leg, including a flow control valve, with a removed end, the removed end proximate the urn;

wherein the removed ends of the makeup water leg and the concentrate leg are directed to a convergence point within the urn interior.

2. The tea dispensing machine ofclaim 1, wherein the removed ends of the makeup water leg and the concentrate leg comprise injectors, said injectors positioned above the urn and directed downward toward the urn.

3. The tea dispensing machine ofclaim 2, wherein said injectors comprise one for makeup water and one for concentrate.

4. The tea dispensing machine ofclaim 2, wherein said injectors comprise one for makeup water and two for concentrate; and wherein said makeup water/concentrate fluid circuit has two concentrate legs.

5. The tea dispensing machine ofclaim 2, wherein said urn includes a lid with an opening therein, said injectors configured to direct fluid emitted therefrom through the opening of the lid.

6. The tea dispensing machine ofclaim 2, wherein the at least one urn and at least one brew basket are multiple urns and multiple brew baskets, and comprising multiple hot water and makeup/concentrate multiple fluid circuits.

7. The tea dispensing machine ofclaim 6, wherein the removed ends of the makeup water leg and the concentrate leg comprise injectors, said injectors positioned above the urn and directed downward toward the urn.

8. The tea dispensing machine ofclaim 7, wherein said injectors comprise one for makeup water and one for concentrate; and wherein said makeup water/concentrate fluid circuit has two concentrate legs.

9. The tea dispensing machine ofclaim 7, wherein said injectors comprise one for makeup water and two for concentrate.

10. The tea dispensing machine ofclaim 7, wherein said urn includes a lid with an opening therein, said injectors configured to direct fluid emitted therefrom through the opening of the lid.

11. The tea dispensing machine ofclaim 7, further including user microprocessor and solenoid controlled valves to initiate and terminate flow of fluid through the legs of the circuits.

12. The tea dispensing machine ofclaim 11, wherein user microprocessor and solenoid controlled valves engaged with the concentrate legs are configured to provide a pulsed flow of concentrate while the makeup water is flowing.

13. The tea dispensing machine ofclaim 11, wherein the flow control of the fluid circuit is adjustable to control the volume of flow of fluid therethrough.

14. The tea dispensing machine ofclaim 6, wherein the brew baskets include a floor with ridges.

15. The tea dispensing machine ofclaim 6, wherein the urn has a floor located above the lower rim.

16. A tea dispensing machine for engaging at least one pressurized concentrate source and a pressurized water source, the tea dispensing machine comprising:

at least one urn having side walls, an urn interior, a floor, and a lower rim and an upper rim

at least one of tea brew basket;

a housing having a base and an upper section, the base configured to engage the urn, the upper section configured to engage the tea basket so that the tea basket is over an urn;

a hot water fluid circuit for engaging a pressurized water service, the hot water fluid circuit comprising a hot water leg, including a flow control valve, with at least one removed end situated above a brew basket and a hot water tank downstream of the pressurized water source and upstream of the removed end; and

a makeup water/concentrate fluid circuit comprising a makeup water leg, including a flow control valve, with a removed end, the removed end proximate the urn, and also at least one concentrate leg, including a flow control valve, with a removed end, the removed end proximate the urn;

wherein the removed ends of the makeup water leg and the concentrate leg are directed to a convergence point within the urn interior;

wherein the at least one urn and at least one brew basket are multiple urns and multiple brew baskets, and comprising multiple hot water and makeup/concentrate multiple fluid circuits;

wherein the removed ends of the makeup water leg and the concentrate leg comprise injectors, said injectors positioned above the urn and directed downward toward the urn; and

further including user microprocessor and solenoid controlled valves to initiate and terminate flow of fluid through the legs of the circuits.

17. The tea dispensing machine ofclaim 16, wherein said injectors comprise one for makeup water and two for concentrate.

18. The tea dispensing machine ofclaim 17, wherein user microprocessor and solenoid controlled valves engaged with the concentrate legs are configured to provide a pulsed flow of concentrate while the makeup water is flowing.

19. A tea dispensing machine for engaging one pressurized tea concentrate source, a second concentrate source compatible with tea, and a pressurized water source, the tea dispensing machine comprising:

at least one urn having side walls, an urn interior, a floor, and a lower rim and an upper rim

at least one of tea brew basket;

a housing having a base and an upper section, the base configured to engage the urn, the upper section configured to engage the tea basket so that the tea basket is over an urn;

a hot water fluid circuit for engaging a pressurized water service, the hot water fluid circuit comprising a hot water leg, including a flow control valve, with at least one removed end situated above a brew basket and a hot water tank downstream of the pressurized water source and upstream of the removed end; and

a makeup water/concentrate fluid circuit comprising a makeup water leg, including a flow control valve, with a removed end, the removed end proximate the urn, and also two concentrate legs, each including a flow control valve, with a removed end, the removed end proximate the urn, the one of the two concentrate legs for engaging one of the first or second concentrate, the other of the concentrate legs for engaging the other of the first or second concentrate;

wherein the removed ends of the makeup water leg and the concentrate leg are directed to a convergence point within the urn interior.

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