Liquid detergent dispensing system for automatic washer

Abstract

A liquid laundry detergent dispenser for an automatic washing machine employs a reservoir that holds a quantity of the detergent sufficient for numerous wash cycles. An air/fluid chamber fills through a check valve from the base of the reservoir. To commence a dispense cycle, a timer circuit is actuated to run an air pump that supplies air under pressure through an air hose to the air/fluid chamber, and this displaces the detergent from the chamber and through a detergent dispense hose into the tub or drum of the washing machine. At the end of the dispense cycle, a bleed valve opens to relieve pressure on the air hose and the air/fluid chamber. The automatic detergent dispenser can be attached to existing washers or built in. A multiple arrangement can be used with a bank of washers at a commercial laundry.

Description

Applicant claims priority of Provisional Application 60/633,321, Dec. 6, 2004. The disclosure of such provisional application is incorporated herein by reference.

BACKGROUND OF THE INVENTION

This invention is directed to the automatic washing machines, e.g., for clothes washing and laundry, although the principles could be applied to dishwashers and other automated washing or cleansing systems. The invention is more particularly concerned with systems and devices for automatically injecting a measured amount of detergent and moving it from a storage tank or container into the washing machine.

Automatic washing machines have been used commercially and in homes for many decades. In each case, the user has to measure and dispense a quantity of detergent into the machine at the commencement of a wash cycle. There is always human error in administering the detergent to the machine, and often too much detergent is dispensed. Further, it is inconvenient for the user to have to measure and pour in the detergent. Additionally, there is a need to keep bottles of laundry detergent on hand, and these have to be stored somewhere.

Detergent manufacturers have devised many improved methods of pouring and measuring detergent from the respective container. Also, washing machine manufacturers have introduced built-in dispensers into some washing machines. However, these only hold enough detergent for a single wash cycle.

When using liquid detergent for a wash cycle, it is important to look carefully at the detergent manufacturer's instruction and marking(s). Different amounts are recommended for different size washer loads. Typically, the cap of the detergent container is marked for full and partial loads, but many people find it difficult to fill the cap up to a partial level. More typically, in the case of a medium or light load, the person will simply fill the cap to the “full load” level, even when that is not necessary, e.g., for a medium or light load, resulting in wasted detergent, and creating an environmental burden by injecting unnecessary amounts of the detergent into the fluid waste stream. Also, for most persons, guesswork is involved in the measuring of the detergent. It is desired to create an automated system which avoids any need for human measuring of the amount of detergent, and avoids need for handling or transfer of detergent. It is also desired for a system to match the amount of detergent used to the size of the load of laundry (or other items to be washed).

OBJECTS AND SUMMARY OF THE INVENTION

Accordingly, it is an object of this invention to provide a simple and cost effective system for automatically dispensing liquid laundry detergent directly into a washing machine, that avoids the drawbacks of the prior art.

It is another object to provide a system which dispenses detergent from a bulk tank or container into the drum or tub, i.e., the wash chamber of the washing machine, without need for the user to pour detergent into a measuring device.

It is a further object to provide a system that permits the amount of detergent injected to be adjustable so that the amount of detergent will match the size of the load.

The general purpose and principle behind the invention, as will be described below in greater detail, involves storing the liquid detergent in large quantities in a tank or reservoir, which can be attached onto the washing machine or built-in and located inside the cabinet. A low pressure air pump system or a source of low pressure compressed air (e.g., 5 to 10 psi) is employed to transport the liquid detergent from the reservoir into the washer.

According to one aspect of this invention, an automatic liquid detergent dispensing arrangement dispenses a controlled amount of detergent, during a dispense cycle, into an automatic washing machine. A reservoir or tank, which can either be mounted on the back side of the machine or situated in an available space inside the cabinet, stores a quantity of liquid detergent sufficient for a multiplicity of wash cycles of the automatic washing machine. A positive displacement air/fluid chamber either is situated within the reservoir at the bottom, or else is connected to the lower part of the reservoir. This air/fluid chamber has capacity to hold an amount of detergent sufficient for at least one detergent dispense cycle. A one-way check valve admits detergent by gravity flow from the reservoir tank into the captive air/fluid chamber. A detergent discharge or dispense hose extends from the captive air/fluid chamber to a discharge point for dispensing the liquid detergent from the air/fluid chamber into the washing machine. This can be just above the drum or tub of the washing machine. An air pump is energized for pressurizing the captive air/fluid chamber with sufficient air pressure (e.g., 5 to 10 psi) so as to drive the liquid detergent from the captive air-fluid chamber through said discharge hose. A control circuit is coupled to the air pump for selectively energizing the air pump means, e.g., for a period of time after a switch is pushed to initiate the detergent dispense cycle or discharge cycle. A knob or other selector is provided so the user can select the volume of detergent to be discharged during this cycle. Preferably, the control circuitry employs a variable timer circuit with a manual adjustment for selecting a length of operation of the air pump during the detergent dispense cycle. This can be an RC discharge timer circuit including a variable resistor serving as manual adjustment. The air pump can operate at low voltage DC, e.g., 6 to 12 volts, and is capable of delivering about 2 liters/minute of air at 5 to 10 psi. The air pump can be powered from a battery source or from a small 12-volt transformer-rectifier, which can plug into a standard wall outlet.

Preferably, a small, flexible air hose extends from the air pump to the air/fluid chamber, and a solenoid bleed valve is present on the air hose for bleeding or venting pressure when the dispense cycle ends. The solenoid valve is normally open to vent the air hose when the air pump is not being energized, but closes to shut off venting when the air pump means is pumping, so that the pressure is directed to the captive air/fluid chamber.

The one way valve can be a check valve, e.g., ball type or flap type, disposed at a lower end of the captive air/fluid chamber. A first port receives fluid detergent from the tank or reservoir, a second port connects to the discharge hose, and a third port connects with the air/fluid chamber for filling said chamber after a detergent dispense cycle and for transmitting the detergent from the captive air/fluid chamber, during the dispense cycle, through the discharge hose and into the washing machine drum or tub. In the case of a dishwasher, for example, the wash chamber would not be in the form of a drum or tub, but the detergent dispenser would operate on the same principle.

In an after-market or add-on version, the reservoir tank can be mounted onto a back panel of the cabinet of the washing machine, and the detergent discharge hose passes through a port on a back panel of the cabinet. A rubber grommet may be used to hold the hose in this opening. An end portion of the hose extends over the drum or tub. In an alternative after-market version, the reservoir tank is mounted onto a back side of the washing machine, as before, but the detergent discharge hose passes outside a cabinet and over the back or one side of washing machine. There is a flat flexible hose portion that extends under the lid of said washing machine, and allows the detergent to be discharged into the drum or tub.

For a front-loading washer, the detergent dispensing hose can be inserted into the detergent receptacle of the unit, rather than injecting the liquid detergent directly into the tub or drum.

In a preferred embodiment, the reservoir tank can take the form of a tall vertical cylinder e.g., a tube, which can have a nominal diameter of about four inches. This provides sufficient capacity to hold at least two gallons of liquid detergent. In this case, the one way valve can take the form of a ball-type check valve disposed at the bottom of the captive air/fluid chamber. The check valve has a first port to receive fluid detergent from the tank or reservoir, a second port onto which the detergent discharge hose is attached, and a third port that connects with the air/fluid chamber for filling the chamber, e.g., by gravity feed, after a detergent discharge cycle. The check valve transmits the detergent from the air/fluid chamber to the detergent discharge or dispense hose during the dispense cycle.

In a built-in version, the cylindrical reservoir tank can be situated within washing machine cabinet in an available space, e.g., at a corner. In an after-market or add-on version, the cylindrical reservoir tank can be strapped onto the back panel of the washing machine, using bungee cords and/or cable ties, for example. There are normally holes or openings in the back panel which are normally used only during shipping of the washing machine, and these can be used to accept the strapping. There is typically an existing hole on the back panel which can be used for inserting the detergent hose, but if not it is a simple matter to drill or bore a hole of about 1/1 inch diameter for that purpose. The captive air/fluid chamber may be situated within the cylindrical tank at the bottom. Alternatively, e.g., in a built-in version, the tank may be connected by a tube or hose to the check valve of the captive air/fluid chamber which may be positioned at a convenient space within the machine.

Rather than a tubular cylindrical tank, the reservoir could be oblong or cuboid in shape.

A commercial laundry version of the automatic liquid detergent dispensing arrangement allows the detergent to be dispensed automatically to any of a number of automatic washing machines. The principle is the same as discussed previously for dispensing a controlled amount of detergent during a dispense cycle, with the detergent going into a selected one of the washing machines. Here, a large reservoir tank stores a quantity of liquid detergent sufficient for a multiplicity of wash cycles for an entire bank of automatic washing machines. For each of the washing machines, there is an associated captive air/fluid chamber, which operate on the same principle as the ones discussed before. Each of these chambers is adapted for holding an amount of detergent sufficient for at least one detergent dispense cycle, and each has an associated one-way valve that admits detergent from the reservoir tank, e.g., by gravity flow. For each washing machine there is an associated detergent discharge hose, each extending from a respective one of said captive air/fluid chambers to the washing machine for discharging a charge of liquid detergent from the captive air/fluid chamber into the washing machine. There is also an air pump or pumps for selectively pressurizing one or another of the captive air/fluid chambers to drive the liquid detergent in the respective captive air-fluid chambers through the associated discharge hose. A control circuit, which can have a panel or mechanism on each of the washing machines, is coupled to air pump or pumps to control the energizing the air pump(s). This can include a provision for initiating a detergent discharge cycle, and a timer to limit the amount of air provided by the pump to the particular chamber. The period of the timer can be adjusted (manually or automatically) so that the proper amount of detergent is dispensed for the load of laundry to be washed.

The above and many other objects, features, and advantages of this invention will present themselves to persons skilled in this art from the ensuing description of preferred embodiments of this invention, as described with reference to the accompanying Drawing.

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1 is a front perspective view of a top loading clothes washing machine on which is mounted a liquid detergent dispensing device according to an embodiment of this invention.

FIG. 2 is a rear view of the washing machine with the detergent dispensing device of this embodiment.

FIG. 3 is a front perspective view of a washing machine showing a second embodiment of this invention.

FIG. 4 is a rear view of the washing machine showing this second embodiment.

FIG. 5 is a schematic elevation of a positive displacement chamber and one-way fluid valve assembly which can be employed as components of the embodiments of the invention.

FIG. 6 is a schematic view showing a reservoir, positive displacement chamber assembly, and associated tubes and hosing, air pump, solenoid bleed valve, and control components, according to an embodiment of the invention.

FIG. 7 is a circuit schematic diagram of timer and associated components of an embodiment of this invention.

FIG. 8 is a schematic view illustrating an embodiment of the invention configured for multiple-washing machine use.

FIG. 9 is a front view of the control module employed in this invention.

FIG. 10 is a perspective view of an alternative embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT(S)

With reference to the Drawing, FIG. 1 shows an embodiment of the present invention in conjunction with a top-loading clothes washing machine 10. It should be understood that this is an example of one practical application, and that the liquid detergent dispensing arrangement of this invention could be employed with other automatic washing devices, e.g., a front-loading clothes washer, a dish washer, etc. FIG. 2 shows the same arrangement from the rear of the washer 10.

Here, the washing machine 10 has a cabinet or housing 12, in which there is a tub or drum in which the clothes undergo wash, rinse, and spin cycles. A mechanism 16 for rotating and oscillating the drum 14 and any associated clothes agitator (not shown) is represented schematically. A console or control panel 18 is situated at the back of the top deck of the cabinet, behind a lid or cover 20. The lid 20 is hinged or pivoted at the back so it can be lifted for access the drum 14.

In this embodiment, which concerns an after-market arrangement, the add-on dispenser mechanism or automated liquid detergent injection system 22 is mounted externally on the back of the cabinet or housing 12. There is a reservoir or tank 24 in the form of a cylinder of four inches diameter and nominally forty-two inches high. The tank 24 has a capacity of two gallons or more, and holds enough detergent to last for a few dozen wash cycles. Detergent may be added by pouring it into the top of the cylindrical reservoir or tank, and a cover or closure may be provided to fit the top end of the reservoir or tank.

A positive displacement chamber and check valve arrangement 26 is situated within the reservoir 24 and at the base or lower end thereof. The positive displacement chamber arrangement 26 fills with detergent by gravity feed through a check valve, which is discussed in detail later. In this embodiment, the positive displacement chamber arrangement 26 is situated within the cylindrical tank or reservoir, but in other embodiments, the arrangement 26 can be located elsewhere, with a tube or conduit supplying the detergent from the reservoir 24.

A pump module 28 is mounted on the back of the washer cabinet 12, and includes a low voltage air pump that supplies air through a small-diameter air hose 30 to the positive displacement chamber arrangement 26 to push the detergent from there, through a detergent dispense hose 32 or detergent discharge hose. In this embodiment, the hose 32 fits through a pre-existing opening 34 in the back of the washing machine, and extends to a point over the tub or drum 14. The pump module 28 is also coupled through a multiple conductor electrical wiring harness or cable 37 to a control module 36 that is mounted on a convenient location on the front of the console panel 18.

As shown in more detail in FIG. 9, the control module has a start button 38 which is pushed to commence a detergent dispense cycle, and an volume adjustment knob 40 which is rotated by the user to adjust the amount of detergent dispensed during a cycle, here marked with “light”, “medium”, or “heavy” corresponding to the size of the laundry load to be washed. The knob 40 adjusts a variable resistor 140 (shown in ghost) within the module 36.

As shown in more detail in FIG. 2, the reservoir or tank 24 is affixed onto the back panel of the washing machine 10, using some of the numerous holes or apertures that are present. These holes 42 are typically used for attaching protective pads during shipping of the washing machine, but are not used once the machine is installed. One of these is the hole 34 that is situated just above the level of the top of the drum 14, and this one is selected for insertion of the hose 32. For securing the cylindrical tank 24, straps 44 pass around the tank and through selected ones of these openings 42, 42. The straps 44 can take the form of wires, bungee cords, cable ties, or other sufficiently strong strapping material. Also shown on the back of the washer are its water drain tube and an electrical cord, which are not numbered. Typically, a clearance of four inches or more between the washing machine 10 and the wall is needed for the hot and cold water hoses, electrical cord, and drain hose, and this same clearance is sufficient for the cylindrical tank 24 plus other parts of the detergent dispensing arrangement 22.

Another embodiment of the invention is illustrated in FIGS. 3 and 4, in which the elements of a detergent dispensing arrangement 122 are built into the cabinet of the washing machine. Here, the elements that are the same as used in the first embodiment are identified with the same reference numbers. The tank or reservoir 24, which here is in the form of a cylinder of about four inches in diameter and forty-two inches in height, is installed within the cabinet 12 at one corner. A detergent fill port 17 is connected with the tank 24, and detergent is poured in here rather than pouring the liquid detergent into the tank or reservoir directly. Also in this embodiment the positive displacement chamber arrangement 26 is situated within the cabinet 12 but outside the reservoir, and is connected by means of a fill tube 27 to the base or bottom of the reservoir 24. The pump module 28 is also located near the positive displacement chamber arrangement. The air hose 30 extends within the cabinet 12 from the module 28 to the top of the positive displacement chamber arrangement 26, and the detergent dispensing hose 32 extends from the latter, within the cabinet 12 to a dispensing point located above the drum or tub 14. Both these hoses loop upwards above the level of maximum fill of the reservoir 24, so as to avoid unwanted siphoning of the liquid detergent between dispense cycles. The wiring harness or cable 37 is also shown extending from the pump module 28, in this case to a control module located within the console panel 18. Here a single control knob 136 is shown which combines the functions of the switch 38 and knob 40. The knob 136 can be turned to adjust the amount of detergent dispensed, and can be depressed to start the dispense cycle.

FIG. 5 shows details of the positive displacement chamber arrangement 26, which includes a holding chamber and a fluid valve assembly 26. In this preferred embodiment, there is a detergent holding chamber 50, which has an inside diameter of about two and one-half inches and a height of about three inches, giving the chamber 50 a capacity sufficient for holding about eight fluid ounces. At a lower end of the chamber 50 is a threaded neck 52 to which a flow control valve assembly 54 is attached by means of mating female threads. At the mid level of the assembly 54 is a check valve 56 arranged for admitting flow of the liquid detergent in the upward direction. Below the check valve is an inlet port 58 to admit the liquid detergent by gravity flow from the tank or reservoir 24. Above the check valve 56 is an outlet port 60 that connects to the detergent dispensing hose 32. The air hose 30 connects to an air hose fitting 62 at the top of the chamber 50. Another optional check valve 156 can be located in the hose 32 to block reverse flow and keep the hose 32 primed for the next use. This additional check valve 156 can be installed in the discharge hose 32 at the catptive fluid/air chamber 26 or more preferably at the distal end of the hose. This keeps the hose full and keeps the detergent in the hose from draining into the washer after the end of a detergent dispense cycle.

The assembly of FIG. 5 operates generally as follows. Normally, i.e., between dispense cycles, there is a neutral pressure in the air hose 30, so the chamber 50 vents to the atmosphere, and the liquid detergent can flow past the check valve 56 into the chamber 50 until the chamber is full. At the appropriate time during a wash cycle, the pump module 28 applies air under pressure via the hose 30 into the chamber 50, and this closes the check valve and displaces the detergent within the chamber. The liquid detergent then proceeds up through the dispensing hose 32 and into the tub or drum 14 of the washing machine. After a period of time, the pump module 28 stops pumping air, and then the pressure in the air hose 30 is relieved. This causes flow of the detergent to cease up through the dispensing hose, and allows the chamber 50 to begin to refill, by gravity flow from the reservoir 24. In this embodiment, the length of time that the pump module 28 is energized to supply air under pressure is adjusted for controlling the amount of detergent dispensed. However, other embodiments could control other parameters to adjust the amount of detergent dispensed.

In the preferred arrangement as shown in FIG. 5, the air hose 30 is favorably a quarter-inch diameter vinyl tubing, and the detergent dispense hose 32 is half-inch diameter vinyl tubing. The check valve 56 in this embodiment is a ball-type check valve, with tubular housing made of polypropylene, a ball guide formed of acetal, and the ball being made of a suitable thermoplastic. Other check valve constructions could also serve this function, e.g., a flap valve.

FIG. 6 illustrates details of the embodiment of FIGS. 1 and 2, in which the positive displacement chamber assembly 26 is situated within the cylindrical reservoir or tank 24 and at the base of bottom thereof. Also shown here, the pump module 28 is shown in more detail. The module 28 includes a small, low-volume 6-volt to 12-volt DC powered air pump 66, with a volume flow of about two liters per minute at a pressure of about 5 to 10 psi. The pump 66 can be energized by means of a variable timer for periods from about ten seconds to about thirty seconds to control the amount of detergent for small to full loads.

A solenoid bleed valve 68 is connected to the air hose 30. The bleed valve 68 closes when the air pump 66 is energized so that the air under pressure is directed to the chamber 50. The bleed valve 68 opens when the pump cycle ends to relieve pressure from the air hose 30 and from the chamber 50, so that the chamber 50 is allowed to refill from the reservoir 24 through the check valve 56.

A printed circuit board 70 carries the necessary control electronics, and a diaphragm pressure switch 72, communicating via a pressure sensor tube 64 with the base of the reservoir 24, turns on when a low pressure is detected, indicating the level of the detergent in the reservoir 24 is below a refill level.

FIG. 7 illustrates schematically the general circuitry employed for controlling the dispensing of detergent according to the above-described embodiments. The pump module 28 is generally illustrated, and this schematic also shows the multi-conductor harness or cable 37 connecting the control module 36 to an eight-pin connector T2 on the pump module. There is a power socket 76 for accepting a connector (not shown) from a suitable 12-volt power supply, and providing DC power to an RC variable timer circuit 74. In the latter, a timing capacitor C1, nominally about 220 microfarads capacity, is disposed in series with potentiometer or variable resistance 140 (e.g., 50 kilohms), with the variable resistance 140 being situated in the control module 36 and having a stem that is rotated by the knob 40 (shown in FIG. 9). The timing capacitor C1 charges up when the start switch 38 is depressed, and the high voltage on this capacitor turns on a timing transistor Q1, which in turn turns on a transistor Q2, which then draws current through the coil of a relay R1. This relay R1 closes and supplies current to the motor of the air pump 66 and to the solenoid of the bleed valve 68. The capacitor C1 gradually discharges through the variable resistance 140, and when its voltage falls below a threshold for the transistor Q1, the transistors Q1 and Q2 shut off, terminating current through the relay coil, and shutting off the pump 66 and bleed valve 68. As also shown here, the pressure switch 72 is arranged to open upon detecting a low level, which turns off an indicator LED D1 on the control module 36. This LED D! Is ont to indicate sufficient detergent is present in the tank 24, and goes off to indicate a refill is needed. Alternatively, the LED D1 could be configured to be normally off and would come on to indicate a low level of detergent. The closed condition of the relay R1 provides current to a run indicator LED D2 on the module 36, indicating that a detergent dispense cycle is taking place.

While the timing and control circuitry shown in this embodiment are made of traditional and inexpensive analog parts, such as capacitors, NPN transistors, relays, and resistors, the same functions could be carried out using available digital timing and control elements. In this embodiment, control of the amount of detergent dispensed is carried out by timing the actuation of the air pump 66; however other possible embodiments could employ other means for metering the liquid detergent.

FIG. 8 generally shows an alternative embodiment for use with multiple washing machines, e.g., in a commercial laundry or a coin laundromat. Here, an automated detergent dispensing system 222 has a large tank or reservoir 224 feeding a number of positive displacement chamber arrangements 226a, 226b, 226c, etc., each being connected via a respective detergent dispense hose 232 to an associated washing machine 10 of a bank of washing machines. A master console 236 on the system 222 provides for adjustment and control over timing and volume. Here, a wall W is shown dividing the laundry space between a laundry room where the washing machines 10 are located and a mechanical room where the multiple-washing machine dispensing system 222 is positioned. In this embodiment, a coin-operated station 110 (or other cash or card vend station) is positioned atop the washing machine 10. This enables the user or customer can purchase an amount of liquid detergent by inserting coins (or other form of payment). This enables the system 222 to dispense detergent at the appropriate time into the associated one of the washing machines 10. A source of pressurized air, which may comprise one or more of the air pumps 66 described earlier, may be employed with associated control means for selectively pressurizing one or another of the chamber arrangements 226a, ww6b, 226c, etc., and displacing the detergent from the positive displacement pressure chambers to supply the washing machines with the appropriate amount of detergent. Other sources of air pressure may be employed, with associated valving.

FIG. 10 shows a variation of the embodiment of FIGS. 1 and 2, or the type in which the reservoir or tank 24 and pumping module 28 are mounted on the back of the washing machine 10 and the control module 36 is mounted on the console 18, as discussed previously in connection with FIGS. 1 and 2. However, this embodiment provides for an alternative means of placement of the detergent dispensing hose 32. Not all washing machines have a suitable hole, such as hole 34, in the back panel for insertion of the dispensing hose 32. In those that do not, it may be possible to bore a ⅞-inch hole in the back panel above the drum or tub, and then insert a rubber grommet to support the hose 32. However, the owner or serviceman may not want to do that for one reason or another. Thus an alternative routing of the detergent dispensing hose can be achieved as shown here. The hose 32 is routed from where it emerges from the reservoir 24 to one side or the other of the washing machine 10. The hose is shown here as passing around the right side. A flat, flexible hose portion 132 traverses an upper edge of the cabinet and then goes below the lid or cover 20. This flat portion 132 is only a small fraction of the thickness of the tubular hose 32, so it does not interfere with the closing of the lid. However, during a dispense cycle, the flat portion 132 will expand sufficiently to allow the detergent to flow. There is normally enough clearance between the lid 20 and the top opening of the cabinet 12 to allow the detergent to flow. However, it may be convenient for the user to press the start button 38 to commence the start cycle before closing the lid.

The flat, flexible hose portion 132 can be covered with a U-channel 133 of appliance white plastic to conceal the hose for a more aesthetic appearance. The U-channel 133 can be attached by a suitable cement or by a Velcro™ fastener.

An alternate routing to the left side of the hose 32, with an associated U-channel 133, is indicated in ghost lines.

While the foregoing embodiments have shown the system used with top-loading washing machines, it would not be difficult to adapt the system of this invention for automatic dispensing of detergent into front-loading washers. In that type of machine, there is typically a detergent receptacle, and the detergent dispensing hose 32 could be placed there. Alternatively, the hose 32 can be routed to an upper portion of the wash chamber of the machine.

Similar arrangements can be adapted for automatically dispensing other laundry products, such as fabric softener or bleach.

While the invention has been described and illustrated in respect to a few selected preferred embodiments, it should be appreciated that the invention is not limited only to those precise embodiments. Rather, many modifications and variations would present themselves to those of skill in the art without departing from the scope and spirit of this invention, as defined in the appended claims.

Claims

1. An automatic liquid detergent dispensing arrangement for dispensing a controlled amount of detergent during a dispense cycle into an automatic washing machine, comprising

a reservoir tank for storing a quantity of liquid detergent sufficient for a multiplicity of wash cycles of the automatic washing machine;

an air/fluid chamber adapted for holding an amount of detergent sufficient for at least one detergent dispense cycle;

one-way valve means for admitting detergent from said reservoir tank into said air/fluid chamber;

a detergent discharge hose extending from the air/fluid chamber to a discharge means for discharging the liquid detergent from the air/fluid chamber into the washing machine;

air pump means for applying air under pressure to the air/fluid chamber so as to drive the liquid detergent in said air-fluid chamber through said discharge hose; and

control means coupled to said air pump means for selectively energizing the air pump means, including a switch for initiating a detergent discharge cycle.

2. An automatic liquid detergent dispensing arrangement according to claim 1 wherein said control means also includes a selector for selecting the volume of detergent to be discharged during such cycle.

3. An automatic liquid detergent dispensing arrangement according to claim 2 wherein said control means includes a variable timer circuit having a manually adjustable arrangement for selecting a length of time of operation of said air pump means during said detergent discharge cycle.

4. An automatic liquid detergent dispensing arrangement according to claim 3 wherein said variable timer circuit includes an RC discharge circuit including a variable resistor serving as said manually adjustable arrangement.

5. An automatic liquid detergent dispensing arrangement according to claim 1 wherein said air pump means includes a low volume air pump capable of delivering about 2 liters/minute of air at about 5 to 10 psi.

6. An automatic liquid detergent dispensing arrangement according to claim 1 wherein said air/fluid chamber is disposed within said reservoir tank at a bottom thereof.

7. An automatic liquid detergent dispensing arrangement according to claim 1 wherein said an air hose extends from said air pump means to said captive air/fluid chamber, and further comprising a solenoid valve on said air hose which is normally open to vent said air hose when said air pump means is not actuated, and which closes to shut off venting of said air hose when the air pump means is actuated.

8. An automatic liquid detergent dispensing arrangement according to claim 1 wherein said reservoir tank includes a cylinder oriented vertically and having a capacity sufficient to hold at least one gallon of said liquid detergent.

9. An automatic liquid detergent dispensing arrangement according to claim 1 wherein said one way valve means includes a check valve disposed at a lower end of said captive air/fluid chamber and having a first port to receive said fluid detergent from said tank reservoir, a second port onto which said discharge hose is attached, and a third port that connects with said air/fluid chamber for filling said chamber after a detergent discharge cycle and for transmitting said detergent from the air/fluid chamber to said discharge hose.

10. An automatic liquid detergent dispensing arrangement according to claim 1 wherein said reservoir tank is situated within a cabinet of said washing machine.

11. An automatic liquid detergent dispensing arrangement according to claim 6 wherein said reservoir tank is mounted onto a back side of said washing machine, and said detergent discharge hose passes through a port on a back side of a cabinet of said washing machine.

12. An automatic liquid detergent dispensing arrangement according to claim 11 wherein said discharge means includes a portion of said hose that extends over a tub of said washing machine.

13. An automatic liquid detergent dispensing arrangement according to claim 6 wherein said reservoir tank is mounted onto a back side of said washing machine, and said detergent discharge hose passes outside a cabinet of said washing machine, and said discharge means includes a flat flexible hose portion that extends under a lid of said washing machine.

14. An automatic liquid detergent dispensing arrangement according to claim 13 further comprising a cosmetic cover disposed over said flat flexible hose portion.

15. An automatic liquid detergent dispensing arrangement according to claim 1 wherein said one-way valve means admits said detergent from said reservoir tank into said air/fluid chamber by gravity flow.

16. An automatic liquid detergent dispensing arrangement according to claim 1 comprising a sensor in said tank for detecting low detergent level, and an indicator on said control means actuated by said sensor.

17. An automatic liquid detergent dispensing arrangement for use with a plurality of automatic washing machines and adapted for dispensing a controlled amount of detergent during a dispense cycle into a selected one of said automatic washing machines, comprising

a reservoir tank for storing a quantity of liquid detergent sufficient for a multiplicity of wash cycles of the automatic washing machines;

a plurality of air/fluid chambers, each adapted for holding an amount of detergent sufficient for at least one detergent dispense cycle;

a plurality of one-way valve means, each associated with a respective one of said air/fluid chambers, for admitting detergent from said reservoir tank into the associated captive air/fluid chamber by gravity flow;

a plurality of detergent discharge hose, each extending from a respective one of said air/fluid chambers to a discharge means for dispensing the liquid detergent from the air/fluid chamber into a respective one of said washing machines;

air pump means for selectively pressurizing one or another of said air/fluid chambers with air under pressure so as to drive the liquid detergent in said air-fluid chambers through the associated discharge hose; and

control means coupled to said air pump means for selectively energizing the air pump means, including means for initiating a detergent discharge cycle.

18. An automatic liquid detergent dispensing arrangement according to claim 17, said control means further comprising a selector for selecting the volume of detergent to be discharged during such cycle.

19. A process of automatically injecting a measured amount of liquid detergent into an automatic washing machine including

filling a detergent tank with a supply of liquid detergent sufficient for a multiplicity of wash cycles;

permitting gravity flow of the liquid detergent from said tank into an air/fluid chamber to fill said chamber;

supplying compressed air to said air/fluid chamber during a detergent dispense cycle, such that the compressed air drives the detergent from said air/fluid chamber through a detergent dispense hose into a wash chamber of said washing machine; and

relieving air pressure in said air/fluid chamber after a dispense cycle to permit the air/fluid chamber to refill with said detergent.

20. A process according to claim 19, wherein said supplying of compressed air includes powering an air pump for a timed interval.