Abstract: The invention provides a system and method for proportion metering multiple fluids together that are output from different pumps. The invention further provides a system and method for batch signal metering that provides feedback on the amount of fluid that has been dispensed. The invention has applications in numerous technologies, including metering together pest control fluids, such as those used for termite control; metering lawn care fluids such as herbicide and fertilizer; blending colors used in dyes, paints and the like; personal care products such as lotions; water treatment; and other technologies in which different fluids are pumped by separate pumps and thereafter mixed together downstream of the pumps prior to being dispensed.

Abstract: An automatic fluid dispenser includes a pump mechanism actuated by the movement of a piston between a first position and a second position. The piston includes a resilient diaphragm that separates a pump chamber from a pressurized fluid chamber. An inlet check valve in the pump chamber, biased into a closed position, allows fluid flow only into the pump chamber from a fluid source, and an outlet check valve allows fluid flow only out of the pump chamber. A valve in a conduit, coupling the pressurized fluid chamber to a pressurized fluid source, is movable between an open position in which the pressurized fluid moves the piston to the second position, dispensing fluid from the fluid chamber, and a closed position in which the pressurized fluid is bled from the pressurized fluid chamber and the piston returns to the first position, thereby drawing additional fluid into the fluid chamber.

Abstract: A soap dispensing system includes non-pressurized first and second soap containers connected to a soap manifold. The manifold has a first inlet connection to the first soap container and a second inlet connection to the second soap container. There is a soap outlet on the manifold. A soap conduit extends from a first dispensing opening on the manifold to a second dispensing opening on the manifold. A two direction peristaltic pump is associated with the soap conduit to move soap either from the first dispensing opening to the second dispensing opening or in the opposite direction. There are valves within the soap manifold for connecting the first inlet, first dispensing opening, second dispensing opening, second inlet opening, and the outlet to provide soap, upon operation of the pump, from one of said containers, through said soap conduit, to the manifold outlet.

Abstract: An intelligent fountain dispenser performs automated control and systems diagnostics in real time. The intelligent fountain dispenser includes a controller in electrical communication with a syrup valve, a water valve, a carbonator valve, a water level sensor, a flowmeter, and an input panel. The intelligent fountain dispenser also includes a dispenser housing and a carbonator tank. Water and carbon dioxide mix in the carbonator tank to produce carbonated water. The carbonator valve supplies water to the carbonator tank in accordance with instructions received from the controller. The controller also instructs the syrup valve and the water valve in the supply of syrup and carbonated water, respectively, to the dispenser housing. The controller provides the instructions to the valves based on information received from the water level sensor, flowmeter, and input panel. The controller performs systems diagnostics by monitoring the voltage drop across current-sensing resistors associated with each of the valves.

Abstract: A dispenser for viscous fluids such as plastisol inks includes a frame, a plunger mechanism having a plunger that is adapted to engage a container containing the fluid, and a drive mechanism for vertically advancing the plunger into the container. The plunger includes a central opening attached to a hose for dispensing the fluid in the desired quantities.

Abstract: An intelligent fountain dispenser performs automated control and systems diagnostics in real time. The intelligent fountain dispenser includes a controller in electrical communication with a syrup valve, a water valve, a carbonator valve, a water level sensor, a flowmeter, and an input panel. The intelligent fountain dispenser also includes a dispenser housing and a carbonator tank. Water and carbon dioxide mix in the carbonator tank to produce carbonated water. The carbonator valve supplies water to the carbonator tank in accordance with instructions received from the controller. The controller also instructs the syrup valve and the water valve in the supply of syrup and carbonated water, respectively, to the dispenser housing. The controller provides the instructions to the valves based on information received from the water level sensor, flowmeter, and input panel. The controller performs systems diagnostics by monitoring the voltage drop across current-sensing resistors associated with each of the valves.

Abstract: Dispensing apparatus is provided for dispensing viscous product from containers (10) of product, usually by extruding product from a container outlet. Product is discharged by a plunger (13) which causes product to be discharged and the plunger is operated by a drive arrangement having a linear actuator (15) by which the plunger is moveable. The linear actuator uses an electric motor as the prime mover and the motor's rotary motion is converted into a linear motion of the plunger. By the use of a linear drive it is possible to achieve constant velocity of movement of the plunger independent of the resistance to movement, within the predetermined limits. The movement of the plunger can be controlled according to the resistance encountered. The apparatus also includes means for removing containers from their seating after discharge.

Abstract: A method and system for dispensing a precise amount of a chemical used in the fabrication of semiconductors utilizes rolling membrane pump and calculates an amount by which to change a dispense based at least in part on a predicted membrane flex. Membrane flex is predicted, at least in part, by the shape of the membrane, a volume of liquid to be dispensed and a pressure during dispense.

Abstract: A liquid dispensing system has a number of cartridges, preferably two or four, selectively coupled to a single motor with a respective clutch for dispensing dots of liquid at high speed. The motor drives a spur gear that meshes with individual spur gears associated with each of the clutches. Multiple cartridges are thus activated with a single motor and are housed together in one housing. Each cartridge is movable relative to the housing and is biased downward to a dispensing position with a spring. Air is selectively provided between the dispensers and the housing to drive the cartridges upward to a non-dispensing position. When the air is not provided, the spring returns the cartridge to its downward position. By moving the cartridge relative to the housing, the assembly can dispense at different locations without it being necessary to move the entire pump assembly every time a dot is dispensed.

Abstract: An intelligent fountain dispenser performs automated control and systems diagnostics in real time. The intelligent fountain dispenser includes a controller in electrical communication with a syrup valve, a water valve, a carbonator valve, a water level sensor, a flowmeter, and an input panel. The intelligent fountain dispenser also includes a dispenser housing and a carbonator tank. Water and carbon dioxide mix in the carbonator tank to produce carbonated water. The carbonator valve supplies water to the carbonator tank in accordance with instructions received from the controller. The controller also instructs the syrup valve and the water valve in the supply of syrup and carbonated water, respectively, to the dispenser housing. The controller provides the instructions to the valves based on information received from the water level sensor, flowmeter, and input panel. The controller performs systems diagnostics by monitoring the voltage drop across current-sensing resistors associated with each of the valves.

Abstract: A progressive cavity pumping system includes a pump housing, a rotor member operatively received in the pump housing, a prime mover coupled to the rotor member for driving the rotor member in first and second directions and a controlling means for actuating the prime mover, wherein the controlling automatically causes the rotor member to be driven in the second direction after shut down or idling of the pumping system. A method of operating the pumping system includes automatically driving the rotor member in a second direction after initiating shut down or idling of the pumping system and prior to start up of the same.

Abstract: The invention provide a liquid ejecting method and apparatus by which an ejection port of an ejection valve is mechanically opened and closed, and which can more positively shut off the liquid at the time of stopping the ejection of a liquid and can securely avoid a leakage of the liquid without a risk of breaking fillers.

Abstract: A beverage dispenser includes a customer interface and a logic unit for controlling beverage dispenser operations. The customer interface includes a sensor linked with the logic unit. Specifically, the sensor receives an input and outputs a corresponding command signal. The logic unit receives the corresponding command signal from the sensor and thus controls beverage dispenser operations.

Abstract: An electronic apparatus is provided for dispensing plural component materials having first and second (and optionally third) components and a desired ratio between the components. The apparatus has first and second reciprocating pumps (4), each of the pumps (4) being connected to a source of one of said components, first and second reciprocating drivers (5), each driver (5) being connected to drive one of the pumps and forming a driver-pump set, a position sensor (6) attached to each driver-pump set, each position sensor (6) outputting increments of resolution corresponding to a fixed volume being pumped by the driver-pump set to which it is connected, and a controller attached to the drivers and the position sensors to alternately move one of the driver-pump sets one said increment and the other of the driver-pump sets the product of one increment and the ratio.

Abstract: A system, method, and device for monitoring the dispensing of liquids, in particular, beverages dispensed at a bar or restaurant is disclosed. The device attaches to the exterior of a container and detects dispensing events by sensing tilt or motion of the container, which could include a bottle or a handle. The system includes an electronic sensor device, data receiver, personal computer, bottle opener/camera system, bar code scanner, point of sale, bar camera, network, Web server, and paging system. The method automatically detects and monitors dispensing events, including detecting the type and amount of liquid, reconciling dispensing events with register ring-ups, recording information, saving video specific to the dispensing event, and sending a page indicating anomalies.

Abstract: An electronic metering device with a drive comprising an electric drive motor, at least one displacement device comprising a piston fixed to an axle drivable by the drive, for metering the fluid, and an electronic control for the drive motor, with a transducer which converts a feed voltage delivered by an electrical voltage source into a supply voltage for the drive, the supply voltage being matched in size to the respective load of the drive.

Abstract: A method and system for dispensing a precise amount of a fluid utilizing a rolling membrane pumping system is disclosed. In the preferred embodiment, the method comprises calculating an amount by which to change a dispense based at least in part on a predicted membrane flex if a particular dispense is other than a first dispense, wherein said predicted membrane flex is based at least in part on a maximum pump chamber pressure during the first dispense; calculating an amount by which to change a dispense based at least in part on a shape of the membrane if a particular dispense is a first dispense; moving a piston in the pumping system based at least in part on the calculated amount; opening an output valve of the pumping system; monitoring the pump chamber pressure to detect a sudden decrease in said pump chamber pressure to signal a mechanical failure in the pumping system; and determining a maximum pressure in the pump chamber during the movement of the piston.

Abstract: The present invention is a flow rate control valve through which a liquid flows and from which the liquid is dispensed. The flow rate of the liquid is sensed and that information is sent to a microprocessor based control. The control operates a drive of the control valve so as to vary the resultant rate at which the liquid is dispensed therefrom. The drive operates a piston closure member that extends closely within a cylindrical passageway. The passageway has an inlet end and an outlet end and the drive operates the closure member in the passageway to a plurality of positions from a first position at the inlet end and a second position at the outlet end.

Abstract: An automatic fluid soap dispensing apparatus and method comprising a dispensing spout, housing operatively connected to the dispensing spout and the housing adapted to removably receive and hold a fluid soap containing reservoir module in communication with the dispensing spout. The reservoir module has a central axis, and includes a pump mechanism and delivery tube mounted on the reservoir module in alignment with the central axis. The dispensing tube is adapted to move in the dispensing spout when the pump mechanism is actuated.

Abstract: A dispensing unit for a fluid dispensing machine comprises at least an inlet duct and an outlet duct for fluid products, connected to a variable-volume pumping chamber comprising at least one flexible wall. Two non return valves mounted in counter-phase are located in the inlet and outlet ducts, respectively. The pumping chamber is coupled to actuator means comprising a stepper motor, a screw-nut screw unit and a carriage. The carriage moves the pumping chamber from a zero position in which the chamber has a maximum volume to an upper limit in which the chamber has a minimum volume. An optic sensor defines the zero point of the pumping chamber so as to guarantee precision and repeatability of the dispensing operations.

Abstract: A pizza sauce dispensing apparatus that includes a base, a motor mounted within the base, a pump mounted to the base, a container of sauce mounted on the base, a removable conduit connecting the container and the pump, a valve removably mounted to the container, a nozzle, another removable conduit between the pump and the nozzle, a nozzle switch, a bracket for storing the nozzle when not in use, an electrical control circuit for programming the apparatus to dispense sauce as a function of pizza size, a sauce addition switch and a sauce subtraction switch, and an electrical path including two metal posts and wire from the base to the nozzle switch. The parts having the sauce path are removable and washable even though some of the parts include an electrical path which typically cannot be immersed in water. The result is an efficient, relatively inexpensive apparatus.

Abstract: An intelligent fountain dispenser performs automated control and systems diagnostics in real time. The intelligent fountain dispenser includes a controller in electrical communication with a syrup valve, a water valve, a carbonator valve, a water level sensor, a flowmeter, and an input panel. The intelligent fountain dispenser also includes a dispenser housing and a carbonator tank. Water and carbon dioxide mix in the carbonator tank to produce carbonated water. The carbonator valve supplies water to the carbonator tank in accordance with instructions received from the controller. The controller also instructs the syrup valve and the water valve in the supply of syrup and carbonated water, respectively, to the dispenser housing. The controller provides the instructions to the valves based on information received from the water level sensor, flowmeter, and input panel. The controller performs systems diagnostics by monitoring the voltage drop across current-sensing resistors associated with each of the valves.

Abstract: There is provided a beverage feeding apparatus for mixing a stock beverage fed from a storing container with diluting water according to beverage feed operation. This apparatus comprises: a stepping motor for driving a stock beverage feed pump for feeding the stock beverage; a flow meter for generating a signal of which the period varies depending upon the amount of the diluting water passed through the flow meter; and means for properly regulating the amount of the stock beverage fed by the stock beverage feed pump by varying the period of the drive signal of the stepping motor based on the amount of the diluting water passed through the flow meter. By virtue of this construction, the beverage feeding apparatus can realize the provision of beverages at a predetermined dilution ratio even when the amount of the diluting water fed has been varied.

Abstract: A dispensing apparatus having a plurality of programmable buttons adapted to activate a sequence that dispenses a desired amount of product. A circuit board is coupled between dispense activation buttons, a programming button and a valve manifold and includes a timer, accumulator, memory and controller together to operate solenoid valves. In learn mode, the cumulative time that a particular button is depressed is programmed into a memory circuit and associated with that button. In dispense mode, depressing that dispense activation button causes power to be supplied to a solenoid, thereby directing pressurized air to a particular pump responsible for pumping a particular type of product from a source to the dispensing head. Power is supplied to the solenoid for a time period stored in memory during the programming steps. In this way, the dispensing apparatus can be easily programmed to dispense a desired amount of product having various viscosities.

Abstract: A flow regulator is provided in a liquid delivery line. The flow regulator includes flow regulation a body having an inflow port through which liquids different from each other in a property such as density, viscosity, etc flow in the body, and an outflow port through which the liquids flow out from the body. A set of rotators, which are rotated within the body in respective directions opposite to each other is provided to move the liquid by given volumes along the internal wall of the body. And a drive unit for driving the set of rotators is also provided. This construction provides an apparatus which can be used for delivering a liquid, which, in delivering liquids different from each other in viscosity, a given volume of the liquid can be accurately delivered to a liquid delivery line in a continuous manner even though the viscosity of the liquids have varied.

Abstract: An apparatus for dispensing a measured quantity of fluid includes a touchless object sensor and a container carrying a supply of fluid. A dispense mechanism is coupled to the container to control an amount of fluid to be dispensed. A pump actuator mechanism is connected to the object sensor such that detection of an object by the object sensor cycles the pump actuator mechanism to engage the dispense mechanism which, in turn, dispenses a measured quantity of fluid. A series of lights are sequentially illuminated to instruct a user where to place the object to activate the touchless sensor and the pump actuator mechanism.

Abstract: An ice cream vending machine prevents loss of cool air when the vending machine is not in vending operation by closing a passage of a guide member. The vending machine includes a cooling system, a freezing chamber cooled by the cooling system, a canister arranged within the freezing chamber, for holding a bead type ice cream, a cup supplying device arranged outside of the freezing chamber, for supplying a cup for holding the bead type ice cream, an ice cream discharging device for discharging the bead type ice cream from the canister, a guide member having a passage for guiding the ice cream discharged by the ice cream discharging device into the cup, and an opening/closing device for selectively opening and closing a passage of the guide member. An actuator device of the opening/closing device means may comprise a resilient member.

Abstract: An apparatus for dispensing a measured quantity of a liquid has a container holding a quantity of liquid to be measured and dispensed and a conduit with an inlet end, an outlet end and a measuring section having a known volume. A sensor determines when the measuring section contains liquid. A passage with a first valve is provided for delivering liquid from the container to the conduit inlet end and air under pressure urges liquid from the container to the conduit. A source of air under pressure is connected to the conduit and a second valve controls delivery of air to the conduit from the source. A control connected to the sensor and to the first and second valves sequentially closes the second valve and opens the first valve to cause flow of liquid from the container to the conduit until the sensor determines that the measuring section contains liquid, and then closes the first valve and opens the second valve to admit air to the conduit, thereby expelling a measured quantity of liquid from the outlet end.

Abstract: An intelligent fountain dispenser performs automated control and systems diagnostics in real time. The intelligent fountain dispenser includes a controller in electrical communication with a syrup valve, a water valve, a carbonator valve, a water level sensor, a flowmeter, and an input panel. The intelligent fountain dispenser also includes a dispenser housing and a carbonator tank. Water and carbon dioxide mix in the carbonator tank to produce carbonated water. The carbonator valve supplies water to the carbonator tank in accordance with instructions received from the controller. The controller also instructs the syrup valve and the water valve in the supply of syrup and carbonated water, respectively, to the dispenser housing. The controller provides the instructions to the valves based on information received from the water level sensor, flowmeter, and input panel. The controller performs systems diagnostics by monitoring the voltage drop across current-sensing resistors associated with each of the valves.

Abstract: A fuel dispensing system compensates for varying fuel source flow rate requirements based on fuel dispenser feedback signals. A pumping system pumps fuel from one or more fuel sources to one or more fuel dispensers through associated conduits. When actively dispensing fuel, each fuel dispenser monitors its actual fuel discharge rate and adjusts an integral flow control device to maintain a nominal fuel discharge rate. When an active fuel dispenser fails to achieve its nominal fuel discharge rate, it indicates this condition to the pumping system via its dispenser feedback signal. In response, the pumping system increases its pumping rate until the fuel dispenser achieves its nominal fuel discharge rate. Other active fuel dispensers adjust their flow control devices as needed to maintain their nominal fuel discharge rate in response to the adjusted pumping rate.

Abstract: A dispenser apparatus and dispensing method for dispensing a product stored in a container by pressing a dispensing tube connected to the container. A motor rotates a cam that extends a press plate to press the dispensing tube against a back plate. A check valve permits unidirectional dispensing of the product from the container. A pinch-off unit pinches the dispensing tube or a second check valve is used to prevent the product from returning to the container while the press plate presses against the dispensing tube.

Abstract: A device for metering a powder-based food product including a hopper for storage of the powder, and a metering device located in the hopper in order to convey the powder from the hopper to a feed zone. The feed zone includes a basic portion having an opening for allowing a metered quantity of powder to fall. A sealing element is arranged with the basic portion in order to allow sealing of the opening of the basic portion. The device also includes an operating mechanism for moving the sealing element into a sealing position when the metering device is not operating.

Abstract: A system dispenses a desired portion of frozen product from a product container containing the frozen product. A label, attached to the product container identifying the formulation of the frozen product, is read to determine at least the formulation of the frozen product. Based upon at least the formulation, a controller controls the applied force to the product container in order to dispense the frozen product at a uniform rate. The force is adjusted by the controller such that the frozen product is dispensed at a uniform rate until the desired portion is dispensed.

Abstract: An injection apparatus which can reduce frictional resistance which acts on resin during an injection step to thereby prevent variation in a reference position and improve quality of molded products. The injection apparatus comprises a heating cylinder; a screw disposed within the heating cylinder to be rotatable and reciprocatable, the screw having a flight portion in which a flight is formed on an outer circumference of a screw body, and a screw head disposed at a front end of the flight portion; a first drive unit for rotating the screw; a second drive unit for advancing and retracting the screw; a screw-advancement control unit for driving the second drive unit in an injection step in order to advance the screw at a predetermined screw speed; and a flight speed control unit for driving the first drive unit in the injection step in order to advance the flight at a flight speed that is apparently lower than the screw speed.

Abstract: Method and device for generating a multi-component compound, in particular for dental purposes, by pressing its components out from exchangeable cartridges (5) which are arranged alongside one another and open into a mixer (10). To ensure that the mixing quality is not adversely affected by the advance speed differing depending on viscosity and friction ratios, the advance speed is constantly kept at a predetermined value according to the invention. This is preferably achieved by means of a unit (30) which is assigned to the drive motor (15). This unit (30) can also be used for driving the motor, depending on the load, either at a low speed assigned to the normal advance or at a higher speed assigned to the return movement.

Abstract: Flow-regulation means for improving the operation of a liquid dispenser, and liquid dispensers incorporating the same, are disclosed. In some embodiments, the flow-regulation means includes a conduit for receiving a pressurized fluid, wherein a flow restriction restricts the flow of the pressurized fluid into the conduit. The flow restriction has a smaller flow area than the outlet of the dispensing valve. As a result, fluid is re-supplied to the conduit more slowly than it is dispensed through the dispensing valve. In further embodiments, at least a portion of the conduit is elastic. A dynamic pressure sensor is used to sense pressure in the elastic region. In an additional embodiment, the flow-regulation means includes a resilience-adjustment means operable to adjust the resilience or elasticity of an elastic portion of the conduit. Such adjustable resilience provides an additional measure of control over the dispensing process.

Abstract: A dispensing device comprising a reservoir (2) and a one way valve (6) through which material may only be conducted into the reservoir (2). Reservoir (2) comprises a piston (16), a cylinder device (10) capable of permitting expansion of the capacity of the reservoir as material is conducted into the reservoir, an electrical switch means (18) adapted to detect and terminate the expansion of reservoir (2) at a predetermined capacity value, means for exerting pressure (10,16) on material within reservoir (2) when the expansion of reservoir (2) has been terminated and a one way valve (20) set to permit flow of material from reservoir (2) via an exit port whilst the pressure on the material in reservoir (20) is not less than a predetermined value.

Abstract: The invention relates to a method and device for depositing confectionery into a mold. The device includes a piston member for discharging in a stroke a confectionery mass into the mold; a valve for cutting off the stroke to stop the discharge; and a nozzle having an outlet portion of reduced diameter. The piston member can have an operative stroke profile comprising a velocity that increases during the stroke. Additionally, the valve may move relative to the nozzle during cut-off and can have a starting cut-off motion magnitude of at least 400 mm/sec. The invention eliminates the tailing problems and can improve the accuracy and repeatability of weights during deposition.

Abstract: A soap feeding device mounted in a housing comprises an upper housing having a soap reservoir and a lower housing having a control assembly consisting of a power source, a sensor means including a circuit board, a transmission means including a drive means, a reduction gear set, and a crankshaft, and a feeding means. A setting switch on circuit board is extended through hole in the bottom of lower housing being enclosed by a waterproof silicone switch such that user may press the silicone switch to set the dropping of the device. The power source is activated once the sensor senses the stretching out of ones hand. Then reduction gear set is driven to rotate. The rotation of the gear causes the crankshaft to reciprocally move between a pair of clips. Thus the actuated bellow-like extruder compresses air into a barrel which is in cooperation with valve and poppet to extrude soap.

Abstract: An object sensor (18) detects an object such as a hand (20) and operates a valve (52) that permits liquid soap (86) to flow from a disposable soap container (12). The liquid soap is typically quite viscous but tends to be expelled because of pressure applied from a carbon-dioxide cartridge (32). A pressure-regulator assembly (40) permits gas from the carbon dioxide cartridge (32) to enter the soap container (28) only so long as the soap container's internal pressure is less than a predetermined maximum.

Abstract: A new class of precision powder feeders is disclosed. These feeders provide a precision flow of a wide range of powdered materials, while remaining robust against jamming or damage. These feeders can be precisely controlled by feedback mechanisms.

Abstract: The present invention relates to a device for metering a powder, having a device for the delivery of powder, a axially symmetrical metering element arranged underneath the delivery device, and a drive for the axially symmetrical metering element, wherein the axially metering symmetrical element has a surface profile extending in the circumferential direction, and is adapted in its configuration so that the powder is not compressed during movement about the axially symmetrical metering element.

Abstract: A programmable dispenser which mixes a substance with water and dispenses a product. In one embodiment, the rate at which substance is dispensed is programmable. The programmable dispenser includes a substance dispensing device which dispenses the substance and a motor which is operably connected to the substance dispensing device. A controller is operably connected to the motor and programmed to operate the motor at a programmed speed to dispense substance at a pre-determined rate. A button is in communication with the controller, and the controller is configured such that the button is actuatable to change the programmed speed to a new programmed speed to provide that the controller subsequently operates the motor at the new programmed speed to provide that the substance dispensing device dispenses substance at a different rate.

Abstract: A system for metering and dispensing single and plural component liquids and solids as described herein. The dispensing system has a microprocessor-based control system and progressive cavity pumps which provide a very accurate control of component ratios, shot sizes, flow rates and dispense durations. The system has numerous feedback components for accurately controlling the pressure, flow rates, fluid levels and amounts of fluids dispensed. Where a valved nozzle is used, the pressure in the flow system is used to control the pumps rather than the valve. Such a system may be used as a sprayer with compressed air added. Drum rams are associated with the supply drums and the progressive cavity pumps may be placed on the drum ram. Maintenance of a steady state in the system is accomplished with back and forth movement of the pump, with compensation for pressure changes. Absolute rotational position of the pump can be monitored when a set pressure is maintained, to diagnose system conditions.

Abstract: Embodiments of the present invention provide a multiple head dispensing system having independently controlled dispensing heads. Each of the dispensing heads may be independently controlled to provide simultaneous, asynchronous operation and to allow dispensing of different materials onto substrates. Independent control of the dispensing heads is accomplished under the control of a controller in conjunction with a plurality of gantry systems, each of which positions one of the multiple dispensing heads over a substrate that is to receive dispensing material. In some embodiments, each gantry system utilizes two drive mechanisms, arranged in parallel, that provide movement of the dispensing head over an x-y plane. Multiple conveyor systems are utilized that allow parallel processing of work products in the dispensing system.

Abstract: A liquid dispensing system has a number of cartridges, preferably two or four, selectively coupled to a single motor with a respective clutch for dispensing dots of liquid at high speed. The motor drives a spur gear that meshes with individual spur gears associated with each of the clutches. Multiple cartridges are thus activated with a single motor and are housed together in one housing. Each cartridge is movable relative to the housing and is biased downward to a dispensing position with a spring. Air is selectively provided between the dispensers and the housing to drive the cartridges upward to a non-dispensing position. When the air is not provided, the spring returns the cartridge to its downward position. By moving the cartridge relative to the housing, the assembly can dispense at different locations without it being necessary to move the entire pump assembly every time a dot is dispensed.

Abstract: A machine for dispensing a predetermined quantity of liquid upon actuation of a start switch is described herein. The machine includes a timer and at least one peristaltic pump connected to the timer. Upon actuation of the start switch, the timer energizes the peristaltic pump for a predetermined period of time to therefore transfer a predetermined quantity of liquid from a main reservoir to a cup.

Abstract: A gumming device wherein two coaxial disks of equal diameter are rotated synchronously at continuous speed, and define in between, a central cavity communicating on one side with a tank of liquid gum under pressure, and on the other side with the outside atmosphere through an opening which extends along at least one portion of the outer circumference of the two disks and is variable in width by varying the distance between the two disks.

Abstract: A soap dispenser of the type in which a disposable soap cartridge is maintained in a wall-mounted housing is configured for automatic operation. A quantity of soap is dispensed when a user's hand, detected by optical reflectivity, is located proximate to the dispenser housing. In order to prevent reliance on AC power, the device is powered from self-contained batteries and/or solar power cells. In one embodiment, a generally flat battery may be included with the disposable soap cartridge such that a new battery is provided each time the cartridge is replaced. Alternatively, or in addition, solar panels may be located on the dispenser housing. The solar panels may be used to charge energy storage components located in the housing, such as a rechargeable battery or storage capacitors. The solar panels are preferably of a type which is suitably efficient in fluorescent (blue) lighting conditions.

Abstract: An automatic fluid dispenser including a pump mechanism actuated by a piston movable between a first position, and a second position in which a fluid is dispensed. A conduit is coupled to the pump mechanism and couplable to a pressurized fluid source. A valve is carried by the conduit and is movable between an open position in which a pressurized fluid from the pressurized fluid source moves the piston to the second position, and a closed position stopping the pressurized fluid.