A fluid delivery manifold for use with a fluid delivery system includes a fluid passageway and at least one integrated valve, each with a plunger housing having an air chamber. The air chamber and the fluid passageway are non-fluidly coupled relative to each other. A valve plunger in the plunger housing blocks a valve orifice of the fluid outlet in a closed position to prevent passage of fluid, and opens to permit fluid to pass from a fluid inlet of the passageway through the valve orifice for dispensing from a fluid outlet. An actuator assembly coupled to each integrated valve includes an actuator configured to adjust a position of a valve limiter to adjustably control an effective valve orifice area of the valve orifice based on a distance of movement of the valve plunger to the open position.

A fluid delivery system for dispensing fluid in a vehicle wash includes at least one integrated valve, each with a plunger housing having an air chamber configured to receive a valve limiter. A valve plunger in the plunger housing has open and closed positions, and blocks a valve orifice when closed, and permits the passage of fluid through the valve orifice for dispensing from a fluid outlet when opened. An actuator assembly is coupled to each integrated valve, and each includes an actuator and the valve limiter. A control system is communicatively coupled to each actuator and is configured to receive a selection corresponding to a selected outlet pressure and based on the selection, causes the actuator assembly to adjust a position of the valve limiter to reach a target flow rate or a target outlet pressure of the motive fluid when the valve plunger is in the open position.

A chemical delivery assembly for use in a vehicle wash system includes a chemical delivery device with a piston including a one-way valve and a drive mechanism with a drive shaft joined to the piston. A flow sensor and a control system communicatively coupled thereto are also integrated into the assembly. The control system uses information from the flow sensor to control chemical dispensing by causing the drive mechanism to operate to dispense chemical, while the one-way valve is in a closed state resulting in a corresponding amount of the chemical to the amount dispensed being drawn into the chemical chamber from an inlet via a chemical supply. The control system causes the drive mechanism to reset the piston, while the one-way valve is in an open state resulting in the chemical drawn in from the chemical supply being transmitted through the one-way valve for subsequent dispensing.

A chemical delivery assembly for use in a vehicle wash system includes a chemical delivery device including a one-way valve and a drive mechanism with a piston arranged in a chemical chamber, and a loading valve coupled to a chemical outlet by a fluid tight connection, which also includes a dispensing nozzle for dispensing chemical into motive fluid. Actuation of the drive mechanism causes the one-way valve to close to prevent passage of chemical therethrough and the piston to dispense pressurized chemical from the chemical chamber resulting in the pressurized chemical being delivered to a chemical priming cavity of the loading valve, which chemical is dispensed from the dispensing nozzle upon reaching a predefined pressure threshold. During resetting of the piston by the drive mechanism, the one-way valve is open and permits the chemical within the chemical chamber to pass therethrough such that the chemical can be subsequently dispensed.

A vehicle wash assembly for distribution of fluids at a vehicle wash location includes a vehicle wash component operable to dispense fluid into a fluid line for application onto a vehicle by a downstream applicator, and an inlet or outlet of the vehicle wash component is associated with a port configured with an adjustable effective orifice area. A control system receives instructions corresponding to timing information, a target flow rate and/or a target volume of the fluid to be dispensed from the outlet, analyzes the instructions, and generates separate instructions that differ from those received. The separate instructions include a time for when the vehicle wash component is to be actuated, a duration of operation upon actuation, and an effective orifice area of the port. Upon transmission, the separate instructions cause the vehicle wash component to dispense the fluid according to such instructions during a dispensing operation.

A vehicle wash assembly includes a chemical delivery device, a motive fluid delivery device, a mixing site fluidly coupled thereto for mixing dispensed chemical and motive fluid to form a mixture, and a control system integrated into the vehicle wash assembly and communicatively coupled to the chemical and fluid delivery devices, which causes a drive mechanism of the chemical delivery device to dispense chemical from the chemical outlet, and a valve of the motive fluid delivery device to dispense the motive fluid from the motive fluid outlet. The control system receives instructions for operation of the vehicle wash assembly, and in response, the analyzes the instructions, generates separate instructions for operating the chemical delivery device and the fluid delivery device based on the analysis, and transmits the separate instructions to cause the chemical delivery device and the fluid delivery device to operate according to the separate instructions.

To provide an application system suitable for dispensing a resin containing a hollow filler. The present invention includes a pressure-feed pump 100 capable of pressure-feeding a viscous material, a leveling part 200 that levels a flow rate of the viscous material delivered by the pressure-feed pump, a dispenser 300 that delivers the viscous material leveled by the leveling part, and includes a structure of a rotary volumetric single-shaft eccentric screw pump, and an applying valve 400 that applies the viscous material delivered from the dispenser in a planar form.

A method for applying a fluid filling material into a cavity of a component including conveying the filling material by at least one metering device with a predetermined flow rate to an applicator, injecting the filling material by the applicator into the cavity of the component establishing an injection pressure, measuring the injection pressure by means of a pressure sensor, determining a first pressure increase of the injection pressure, and reducing the flow rate of the metering device at a first switchover point at the first pressure increase of the injection pressure.

Methods of tuning one or more properties of a multipart structural adhesive composition, the method including providing a Part 1 of the multipart structural adhesive; providing at least a first sub-Part 2 and a second sub-Part 2 of the multipart structural adhesive; and causing to be formed the multipart structural adhesive by combining the Part 1, the first sub-Part 2, and the second sub-Part 2, wherein the amount, ratio, or both of the first sub-part 2 and the second sub-Part 2 impact the one or more properties of the multipart structural adhesive composition, wherein the amounts or ratios of the Part 1, the first sub-Part 2 and the second sub-Part 2 affect the one or more properties of the multipart structural adhesive composition, and wherein the multipart structural adhesive has an overlap shear strength of at least about 0.75 MPa (109 psi).

According to some embodiments, a system and method for dispensing a floor coating in a specified ratio of multiple components is disclosed. The system and method may set and maintain a desired ratio of the multiple components by controlling, with a controller, a drive rate of respective pumps configured for propelling the components from a reservoir to a mixer or a dispenser. The controller may be responsive to at least one of a measured actual drive rate, an environmental condition, an actual usage of each component, and an operational parameter of the system, for adjusting a drive rate of the respective pumps to compensate for discrepancies that may affect the ratio of the multiple components.