Abstract: A microfluidic dispensing system may include multiple supply lines for simultaneous filling of diaphragm pumps associated with each supply line. Each supply line may fill corresponding groups of diaphragm pumps with a corresponding ingredient to a supply reservoir for the supply line. Accordingly, different groups of diaphragm pumps corresponding to different supply lines may be filled with corresponding ingredients simultaneously. Those ingredients corresponding to the different groups of diaphragm pumps may also be dispensed simultaneously, giving rise to a faster and more efficient fluidic dispensing system.

Abstract: An integrated material transfer and dispensing system for storing, transferring and dispensing materials, such as fluids, and liquids, for example, liquid applied sound deadener (LASD). The system includes at least one vessel having a force transfer device. Each vessel may be removably enclosed in cabinet to form an automated station. Each vessel may be configured with a data logger, cleanout port, a sample valve at least one sight window and an access port for introducing a compound such as a biocide. Each vessel may be configured with instruments including sensors for measuring process variables, such as material volume, level, temperature, pressure and flow. The system may further include a metering device system and a robotic material dispenser system without a pump interface. The robotic system may further include a computer control system connected to flow and pressure sensors. The system may directly feed an applicator without an intervening pump.

Abstract: A pumping-out apparatus provided herein is configured such that a follow plate is placed on a fluid surface of a stored fluid in a container, a suction port of a pump is attached to an attachment hole of the plate, and the stored fluid is pumped out by the pump. The pumping-out apparatus includes: the pump; a post on which the pump is fixedly provided; a lifted and lowered base on which the container is mounted and which is provided so as to be able to be lifted and lowered along the post; a tension spring configured to hang the lifted and lowered base and bias the lifted and lowered base in an upward direction to cause the fluid surface of the stored fluid in the container to press the plate; and a lifting and lowering operation portion configured to lift and lower an upper end portion of the spring.

Abstract: A method is provided for monitoring of the functionality of an After Treatment Injector (ATI) for injection of a fluid in an engine exhaust gas system upstream of an exhaust gas treatment unit. The monitoring is performed by using a pressure sensor which detects the pressure of the fluid delivered to the ATI for a specific condition or injection cycle. The pressure sensor is located downstream of a flow regulator and upstream of the ATI in a conduit for supplying of a substance from a container to the ATI. An ECU is programmed to perform a predetermined sequence of opening and closing commands for the flow regulator and the ATI, furthermore perform a frequency analysis of the measured pressure value in order to monitor the functionality of the flow regulator, the ATI and the pressure sensor. The method is adapted to be used in connection with an On Board Diagnosis (OBD) system.

Abstract: Systems are described for delivery of a wide variety of materials in which liquid and gas or vapor states are concurrently present, from a package preferably including a fluid-containing collapsible liner. Headspace gas is removed from a pressure dispensing package prior to liquid dispensation therefrom, and ingress gas is removed thereafter during dispensation operation. At least one sensor senses presence of gas or a gas-liquid interface in a reservoir or gas-liquid separation region. A gas removal system including an integral reservoir, at least one sensor, and at least one flow control elements may be included within a connector adapted to mate with a pressure dispensing package, for highly efficient removal of gas from the liquid being dispensed from the container.

Abstract: An apparatus and method for pulsed dispensing of liquid. The apparatus includes a syringe body structure communicating with an input passage for pressurized actuation air, and communicating with an exit passage for allowing discharge of the liquid. An air input passage flow air controller is operative to increase the flow rate of the input air in accordance with a relationship that depends at least partially on a reduction of liquid volume in the syringe body structure resulting from a previous pulsed dispensing operation.

Abstract: A method of making an article having a substrate and a material applied thereto includes providing a metered fluid dispensing system having a supply of fluid to be dispensed, an output device having at least one dispensing nozzle, at least two pumps for pumping fluid from the supply to the at least one dispensing nozzle. The pumps are in close proximity to the dispensing nozzle. Output supply passageways interconnect the pumps and the dispensing nozzle, and flow control elements selectively control the passage of the fluid from the pumps to the nozzle. The substrate is conveyed past the fluid dispensing system in a machine direction and fluid is applied to the substrate in a plurality of segments. Each segment has a volume per unit length and is applied in a length in the machine direction to define a pattern.

Abstract: A system and method for dispensing fluids is introduced. A preferred embodiment comprises a sealed tank, a bag containing fluid inside the sealed tank, an outlet for dispensing the liquid in the bag, and a pressure generating device to create pressure in the sealed tank.

Abstract: A method for determining a volume of beverage, preferably a carbonated beverage in a collapsible beverage container, comprises a beverage dispensing system including a pressure chamber with the collapsible container, the pressure chamber defining an inner volume equal to the sum of the volume of beverage and a residual gas volume. The method also comprises a pressurization system for supplying a volume of gas of atmospheric pressure from the outside of the pressure chamber to the residual gas volume, and a pressure sensor for detecting a low pressure value and a high pressure value, respectively. The method further comprises the steps of supplying the volume of gas to the residual gas volume by using the pressurization system, determining the volume of gas supplied by the pressurization system from the outside of the pressure chamber to the residual gas volume, and establishing a measure of the volume of beverage included in the collapsible beverage container.

Abstract: A dispenser using a stopcock valve has a first and second chamber. The first chamber has a flow material and is pressurized with air. The first chamber is connected to a stopcock valve that holds a second chamber which has a pressure sensor when the stopcock valve is rotated to the proper orientation. The stopcock valve is then rotated to a dispensing position where the flow material is dispensed under pressure to an outlet. By using the air pressure sensor and by taking into consideration the volume of the second chamber, the amount of flow of material can be dosed out consistently.

Abstract: A method is provided for monitoring of the functionality of an After Treatment Injector (ATI) for injection of a fluid in an engine exhaust gas system upstream of an exhaust gas treatment unit. The monitoring is performed by using a pressure sensor which detects the pressure of the fluid delivered to the ATI for a specific condition or injection cycle. The pressure sensor is located downstream of a flow regulator and upstream of the ATI in a conduit for supplying of a substance from a container to the ATI. An ECU is programmed to perform a predetermined sequence of opening and closing commands for the flow regulator and the ATI in order to monitor the functionality of the flow regulator, the ATI and the pressure sensor. The can be used in connection with an On Board Diagnosis (OBD) system.

Abstract: A method and apparatus for delivering one or more fluids. Fluids may be delivered sequentially from a common vessel to a chemical, biological or biochemical process.

Abstract: A beverage dispenser has gauges to measure the temperature of the beverage, in at least one embodiment beer, stored in a closed beverage container. The beverage is pressurized and a pressure gauge in the gas supply conduit line measures the pressure of the gas in the beverage container. A pressure regulator in the gas supply conduit line assists in ensuring that the pressure is consistent. The valve is closed during dispensation and the temperature and the gas pressure are measured immediately afterwards. By calculating the temperature change of the beverage and the pressure drop in the container, the amount of beverage can be calculated accurately. This in turn can be utilized to reliably calculate how beverage is left in the container and this information is then presented on a display, in at least one embodiment, as a series of indicator bars.

Abstract: An automated liquid dispensing system for dispensing a pressurized liquid through a feed line includes a pressure sensing device having a sensing component provided in the feed line for sensing the pressure of the liquid. A pour control center is provided in the feed line. A smart director is electrically connected to the pressure sensing device and to the pour control center for continually and selectively actuating the pour control center in response to input from the sensing device.

Abstract: Systems are described for delivery of a wide variety of materials in which liquid and gas or vapor states are concurrently present, from a package preferably including a fluid-containing collapsible liner. Headspace gas is removed from a pressure dispensing package prior to liquid dispensation therefrom, and ingress gas is removed thereafter during dispensation operation. At least one sensor senses presence of gas or a gas-liquid interface in a reservoir or gas-liquid separation region. A gas removal system including an integral reservoir, at least one sensor, and at least one flow control elements may be included within a connector adapted to mate with a pressure dispensing package, for highly efficient removal of gas from the liquid being dispensed from the container.

Abstract: Electrochemical impedance may be used for accurate and real-time tracking and control of fluid delivery from fluid-filled chambers, such as from drug delivery devices. At least two measurement electrodes may be placed within the chamber in contact with the fluid to be sensed. Application of a small alternating current using these electrodes through the fluid/drug may allow measurement of electrochemical impedance. Volumetric changes of the compressible chamber due to movement of at least one surface within the compressible chamber (such as an actuating bellows or flexible diaphragm), may induce changes in the measured electrochemical impedance. Measuring these changes may allow for tracking of ejected liquid volumes from the compressible chamber. By taking the time-derivative of this signal, the rate of volume change can be tracked and therefore the rate of ejected fluid (flow rate) can be deduced.

Abstract: A viscous material noncontact jetting system has a jetting dispenser mounted for relative motion with respect to a surface. A control is operable to cause the jetting dispenser to jet a viscous material droplet that is applied to the surface as a viscous material dot. A device, such as a camera or weigh scale, is connected to the control and provides a feedback signal representing a size-related physical characteristic of the dot applied to the surface. The size-related physical characteristics of subsequently applied dots is controlled by heating and cooling, or adjusting a piston stroke in the jetting dispenser, in response to the size-related physical characteristic feedback. Dispensed material volume control and velocity offset compensation are also provided.

Abstract: [Object] To provide a liquid delivery apparatus capable of cutting the number of installation steps, eliminating the necessity of connectors such as couplings, and reducing the apparatus size. [Solving Means] The liquid delivery apparatus comprises a pressure reducing valve for adjusting pressure of pressurized gas, a pressure supply joint for supplying the pressurized gas having the adjusted pressure, and a solenoid valve for selectively establishing or cutting off communication between the pressure reducing valve and the pressure supply joint. The solenoid valve and the pressure reducing valve are arranged integrally with a manifold having channels formed therein. The solenoid valve and the pressure reducing valve are arranged on outer surfaces of the manifold.

Abstract: A method for a dispensing device for at least one air treatment agent as well as a dispensing device is described herein, the dispensing device comprises: a housing having one or more walls to define an interior adapted to receive at least one removable container of air treatment agent at least partially therein; and within said housing the device comprises: an airborne agent detector means operable to detect airborne agents in the air, wherein said means are provided with at least one aperture to the exterior of the device to permit, in use, air from outside of the device to enter said airborne agent detector means; receiving means for receiving said at least one container of air treatment agent; emanation means adapted, in use, to emanate the air treatment agent from the device through one or more exit orifices in the housing; control means in communication with the emanation means and in communication with said airborne agent detector means; characterised in that once a quantity of air treatment agent has

Abstract: A system and method for dispensing fluids is introduced. A preferred embodiment comprises a sealed tank, a bag containing fluid inside the sealed tank, an outlet for dispensing the liquid in the bag, and a pressure generating device to create pressure in the sealed tank.

Abstract: A method and apparatus for extruding viscous materials is provided. A dispenser comprises a control mechanism(s), a material containing structure and ports adapted to be coupled to a portable high-pressure gas source. A user controls a flow of the high-pressure gas with a control mechanism such as a trigger. The gas moves a piston inside the material containing structure and displaces viscous materials, such as an explosive, out of the structure through an output port or an output port coupled to a nozzle. A transparent materials tube may be provided to facilitate visual monitoring of the material flow. Localized and system wide pressure is controlled by structural design, material application on a structural component or control mechanisms to mitigate or eliminate a possibility of unintended effects from extrusion of the material including explosion due to overly high pressures between components of the extruder system.

Abstract: A system for dispensing with a valve-less block including internal air passages coupled with an air source and internal dispensing passages coupled with a flow channel. The flow channel is disposed external to the block and couples with a fluid source. The dispensing passages are further configured in fluid communication with the air passages and place the flow channels in fluid communication with the air passages. A port is defined in the block to dispense fluid from the block. At least one sensor is coupled with each flow channel and indicates the presence of at least one of air and fluid in the flow channel. The detection of air or fluid ensures a location of a flow front of a fluid residing in the flow channel, and ensures the presence of an air gap that serves as a check valve to prevent mixing of fluids and to prevent backflow.

Abstract: A liquid dispensing apparatus is provided which has a syringe for storing and dispensing a liquid, and a connector passage connected to the syringe. A positive pressure passage is connected to an air source for supplying positive pressure to the syringe, and there is a pressure valve located along the positive pressure passage that is operative to control the flow of air along the positive pressure passage. A vacuum passage is connected to a vacuum generator for supplying vacuum pressure to the syringe, and there is a vacuum valve located along the vacuum passage that is operative to control the flow of air along the vacuum passage. The positive pressure passage and vacuum passage are connected to the connector passage. A pressure sensor is also provided to measure the pressure in the connector passage.

Abstract: A material dispensing device and a method for the controlled delivery to an object of a material from a material storage container in which the material is kept at an operating pressure so as to provide a material flow are described. The material dispensing device further comprises a flow meter and a pressure control element for controlling the operating pressure at the material in the material storage container on the basis of the dispensed amount of material measured or determined by means of the flow meter. A number of material dispensing devices may be combined into a single material dispensing system.

Abstract: A fountain-style carbonated soft drink dispenser includes a housing adapted to attach to a beverage container, an actuator for selectively opening a fluid conduit, and one or more long tubes that vary a pressure drop across the dispensing assembly and convey fluid. The resistance through the tube(s) is decreased as the pressure within the container decreases so as to maintain a substantially constant flow rate throughout dispensing.

Abstract: A system and method for dispensing fluids is introduced. A preferred embodiment comprises a sealed tank, a bag containing fluid inside the sealed tank, an outlet for dispensing the liquid in the bag, and a pressure generating device to create pressure in the sealed tank.

Abstract: A foam dispenser having a selectively pressurized cartridge that includes a dispenser housing maintaining a motor driving an air compressor with a compressed air conduit extending therefrom. Also maintained within the dispenser is a foam generating head that receives air and liquid conduits that include dispensing valves. A control circuit controls the motor and dispensing valves, and further is interconnected with a hand sensor positioned in association with the dispensing head. In one embodiment of the invention, a disposable and replaceable cartridge of liquid soap or the like is adapted to sealingly and removably receive the compressed air conduit as well as the liquid and air outlet conduits, along with a vent valve and a pressure sensor, the vent valve and pressure sensor communicating with a control circuit. In another embodiment, the various conduits, valves and sensors, as well as the dispensing head, comprise a portion of the cartridge.

Abstract: The invention relates to a hand-held applicator unit for viscous materials having a screw pump disposed in a pump casing which is in communication with a drive, wherein the pump inlet has a product intake with a flexible supply line and the pump outlet contains a shaped mouthpiece.

Abstract: A fluid dispensing system having a fluid dispenser supporting a barrel containing liquid to be dispensed. The barrel has a slidable piston therein with the liquid on a forward piston side and a chamber on a rear piston side. Positive and negative pressure fluid circuits have components operable to apply respective positive and negative fluid pressures to the rear side of the piston. A pressure transducer is operable to sense a fluid pressure in the chamber; and a dispenser control is operative to store a pressure-time relationship during a first dispensing cycle and thereafter, operate a component in the positive pressure fluid circuit to maintain the pressure-time relationship during a subsequent dispensing cycle.

Abstract: Containers for incrementally dispensing pressurized contents are described. The containers comprise a vessel suited to contain pressurized contents, a port integral with the vessel and through which pressurized contents contained in the vessel can be released from the vessel, preferably incrementally in approximately equal amounts, and a measuring device disposed in or otherwise associated with the vessel such that the quantity or amount of contents in the vessel can be measured or assessed. The measuring device senses ambient conditions in the vessel and, directly or with other components, indicates, for example, the amount of pressurized contents remaining in the vessel and displaying it to an observer. Devices for incrementally dispensing pressurized contents from such containers are also described.

Abstract: A liquid dispenser for dispensing liquid from a container, includes an intake pipe to receive liquid from the container, an outlet to dispense liquid, a pressure supply mechanism to supply pressurized fluid to the container at a first pressure, and a dispensing mechanism. The dispensing mechanism is operable to dispense liquid from the container by reducing the pressure in the container to a second pressure, connecting the intake pipe to the outlet to dispense fluid from the container, and subsequently increasing the pressure in the container to the first pressure.

Abstract: Novel systems and methods for operatively utilizing nutrient/flavor impregnated media(s) operatively contained in devices, such as, for example, product structures or the like, capable of introducing the nutrients/flavors in a single serving (4-12 oz) dose packets, or multiple servings, such as, for example, a pitcher (up to 64+ oz) or a gallon or half gallon of flavored and enhanced water operatively connected to complimentary dispensing system, presently preferably, tied to a water filtration device, such as, for example, bottle less water coolers and one that could be mounted inside a refrigerator dispensing system, and the manufacture of such low cost media(s) and dispensing systems.

Abstract: Systems and methods for maintaining substantially a baseline pressure in a chamber of a pumping apparatus are disclosed. Embodiments of the present invention may serve to control a motor to compensate or account for a pressure drift which may occur in a chamber of the pumping apparatus. More specifically, a dispense motor may be controlled to substantially maintain a baseline pressure in the dispense chamber before a dispense based on a pressure sensed in the dispense chamber. In one embodiment, before a dispense is initiated a control loop may be utilized such that it is repeatedly determined if the pressure in the dispense chamber is above a desired pressure and, if so, the movement of the pumping means regulated to maintain substantially the desired pressure in the dispense chamber until a dispense of fluid is initiated.

Abstract: Method and device for storing and/or delivering fluids, wherein at least a first and a second fluid, such as chemical or biochemical reagents or rinse solutions, are maintained separately from each other in a common vessel and transferred in series from the vessel to a reaction site to carry out a predetermined chemical or biochemical reaction. Separation may be achieved by interposing a third fluid, e.g., a gaseous fluid plug, between the first and second fluids.

Abstract: A gas recovery system for a beverage dispensing system, the gas recovery system comprising: means for drawing gas from an at least partially used beverage container, a compressor downstream of said at least partially used beverage container; a gas separator downstream of said compressor, a gas storage vessel downstream of said gas separator; wherein in use the gas recovery system is configured to draw gas from the at least partially used beverage container and to separate said gas into component gases by passing said gas through said gas separator, and to selectively direct at least one of the separated component gases to said gas storage vessel.

Abstract: A bulk tank source of pressurized gas supplies gas to a consumption device, such as a beverage dispenser. A control valve is located between the bulk tank and the consumption device. A pressure monitoring system is connected to monitor the gas pressure between the bulk tank and the control valve. The pressure monitor system closes the valve when pressure drops below a first predetermined threshold, and opens the valve when the monitored pressure exceeds a second predetermined threshold greater than the first predetermined threshold.

Abstract: A material transfer system for storing, transferring and dispensing viscous material, such as fluids and liquids, includes a material containment vessel with an upper region incorporating a motive force and a bottom region with a material ingress and egress opening. A diconical or other shaped force transfer device is located in the material containment area. The force transfer device is an energy transducer when the material containment is filled with highly viscous materials, such as adhesives, sealants, mastics or lubricating greases. The force transfer device serves as an integral part of a level indicator for both viscous fluids and lower viscosity liquids. The viscous material itself forms a seal between the interface region of the force transfer device and the inside wall of the fluid vessel. Vertical stabilizing elements may extend outward from the force transfer device.

Abstract: A by-pass control system for a meat injection system has a variable speed pump that transports fluid to a meat injection machine. Excess fluid is transported to a by-pass control valve. The valve has a moveable piston disposed therein that separates the valve into a fluid chamber and an air chamber. The piston moves back and forth based on the relationship between fluid pressure and air pressure. Sensors are disposed within or through the lid or the valve to sense the position of the piston. A controller is connected to the sensors and the variable speed pump and adjusts the speed of the pump based on the position of the piston.

Abstract: A portable carbonated liquid dispensing system, with an adjustable, internal pressure regulating system. The complexity of the dispensing system is adaptable. In its simplest form, the system accepts a single user entered pressure setting, and utilizes system feedback to maintain pressure within a predetermined range of the selected setting. In its most complete form, pressure, flow rate and temperature feedback and control systems allow fluid to be dispensed under conditions selected via user input data regarding the type of liquid being dispensed, taking into consideration optimal pressure, flow rate and temperature relationships as determined by the manufacturer of the fluid.

Abstract: In a second tank unit, a controller controls the on/off switching of a water supply solenoid valve so that water is stored in a sub tank within the level of Lu to Ll. At the same time, the controller controls the on/off switching of a pressurizing solenoid valve and a decompressing solenoid valve so that the air pressure in the upper space in the sub tank is maintained at a target value. As a result, regardless of the water level in the sub tank, the back pressure in the tank is maintained at the target value higher than atmospheric pressure. In this state, when a central controller turns on a water spouting solenoid valve, pressured water rapidly spouts from a nozzle. Moreover, a change in the target values of the back pressure promptly changes the height of the spouting water. Accordingly, water spouting can be promptly started/stopped, and the height or size of the spouting water can be readily and smoothly changed.

Abstract: A compressed gas foam system is provided. The compressed gas foam system includes one or more optional fluid pumps, one or more mixing devices, one or more optional foam systems; one or more optional gas compressors, and a system controller. A method of using the compressed gas foam system is also provided.

Abstract: A liquid transfer system for transferring liquid from a plurality of containers to a plurality of destinations comprises a plurality of inlet valves. Each inlet valve is operable between an open position allowing liquid from a container to be drawn into the system and a closed position blocking liquid from a container from being drawn into the system. Liquid drawn from each of the liquid containers is delivered to a buffer chamber designed to degas the liquid in the buffer chamber. The buffer chamber leads to a vented feeder chamber that is also adapted to retain a volume of liquid. A chamber connection valve is provided between the buffer chamber and the feeder chamber to allow or block the flow of liquid between the buffer chamber and the feeder chamber. The feeder chamber is connected to a plurality of distribution valves operable to deliver liquid to a plurality of destinations.

Abstract: An apparatus for dispensing a beverage may include separate pressure regulators to independently control pressure at a beverage source and also at a beverage pump. The pump may function to drive/draw a beverage (such as a beer) from a source to a dispensing station. In operation, the apparatus may be configured to transmit a pressurized gas from a source through one regulator and then to the beverage source, with the regulator functioning to control the pressure at the beverage source. The apparatus may also be configured to transmit gas from the source, through the other regulator, and then to the pump, with that other regulator functioning to maintain pressure in the system as the beverage travels from the pump to the dispensing station. This dual pressure control allows a user to maintain a beverage at a consistent pressure when traveling from the beverage source to a dispensing station.

Abstract: A controllable door handle sanitizer includes a base and an outer housing coupled to the base and movable between an open and a closed position. The sanitizer also includes a holder that receives and holds a container that stores a germicide and includes a first valve member. The holder is coupled to the base such that when the outer housing is opened, the container can be inserted and removed. The holder includes a biasing mechanism for applying a biasing force against the container to maintain the container in a fully loaded position. The sanitizer also includes an electronic valve module that includes a housing that is coupled to the base by engaging locating and support members integrally formed as part of the base. The module is positioned relative to the holder such that in the fully loaded position, the first valve member is actuated and opened, whereby discharge of the germicide is determined by an operating state of a second valve member of the electronic valve module.

Abstract: A modular system, for delivering hot melt adhesive materials, comprises a modular metering assembly, having metering stations disposed therein, that is able to be attachably and detachably mounted upon a modular tank assembly. Alternatively, one or more of the metering stations may be disposed externally of the modular metering assembly, and alternatively still further, one or more additional modular metering assemblies may be attachably and detachably connected to the first modular metering assembly. Also disclosed is a closed-loop fluid pressure control system, for independently controlling the pressure of the hot melt adhesive material being conveyed to the metering devices, whereby the working pressures of the hot melt adhesive materials being conveyed to the metering devices can have different working pressures.

Abstract: The invention relates to a method for filling and evacuating a dispenser unit for paste-like, foam-form or liquid media. In the known methods, a storage container is evacuated via a suction pump, which otherwise serves for the delivery of the medium, after filling. The risk exists hereby that medium is drawn in. In order to make the drawing-off process more effective and more reliable, a method and a filling insert for a dispenser unit are proposed according to the invention, wherein at least one air duct is provided parallel to the suction pump. The evacuation takes place by the application of a pressure difference between storage container and the environment, which is just so great that air can in fact be drawn through the air duct but no viscous medium can be drawn.

Abstract: A CO2-based beverage dispensing system includes a CO2 monitoring unit operative to emit a warning upon detecting excessive consumption of CO2 gas. The CO2 monitoring unit includes a gas input port, a gas output port, a CO2 monitor, an alarm, and in one embodiment a shut-off valve. The CO2 monitor may measure CO2 gas flow rate or pressure, and indicate excessive CO2 gas consumption if the measured CO2 gas flow rate is above a predetermined flow rate or the measured CO2 gas pressure is below a predetermined pressure level. The CO2 monitor may include chronological functionality, and only indicate excessive CO2 gas consumption if the measured quantity trips a threshold for a predetermined duration.

Abstract: A liquid dispensing apparatus for use in a beverage brewing machine, the liquid dispensing apparatus, includes a dispensing chamber, a liquid delivery and venting arrangement in communication with an interior of the dispensing chamber for delivery of liquid thereto and for venting air therefrom, an air pump assembly in communication with the interior of the heating and dispensing chamber for pumping air into the dispensing chamber, a liquid discharge conduit in communication with the interior of the heating and dispensing chamber for discharging liquid therefrom, an end of the discharge conduit located at a predetermined level of the dispensing chamber, and a liquid pump connected to the liquid discharge conduit for pumping liquid out of the heating and dispensing chamber. During liquid dispensing, the liquid delivery and venting arrangement is closed.

Abstract: A method of operating a dispensing unit includes the step of providing a power source to a dispensing unit that includes a housing having an aerosol container disposed therein and an actuator arm. Other steps include activating the dispensing unit in response to a minimum threshold of light being sensed by a light sensor and selecting a sleep period interval between spray operations. Yet another step comprises moving the actuator arm after completion of a startup delay period from a pre-actuation position to a discharge position along a path substantially parallel to an axial length of the container to actuate a nozzle of the container to discharge a fluid from the container. The method also includes the step of alternating automatically between the sleep period having a duration commensurate with the selected sleep period interval and a discharge period during which the fluid is dispensed from the container.

Abstract: The present invention provides a device for turning off a pump. In operation, when the device is activated there is vacuum pressure in a syrup chamber. A diaphragm acting in response to the vacuum causes a piston assembly in the syrup chamber to move in the one direction (e.g. right), thus compressing a W-shaped spring in the air chamber. As the piston assembly moves, a spring holder of the W-shaped spring also moves to the one direction. As the W-shaped spring is compressed over and passed the most compressed position, the W-shaped spring moves a valve assembly in the air chamber to an opposite direction (e.g. left) and blocks a hole in a spool that otherwise allows air to pass through the air chamber to activate the pump. When the air is stopped, this turns off the pump.