An automated sprayer diagnostic system includes at least one sensor directed toward at least one nozzle assembly of a sprayer implement. A sprayer diagnostic controller is in communication with the at least one sensor. The sprayer diagnostic controller includes a performance deviation comparator configured to compare the sensed actual performance profile of the at least one nozzle assembly with a specified performance profile and determine one or more performance deviations from the comparison. A performance issue diagnostic module is configured to identify at least one performance issued based on the one or more performance deviations. A diagnostic indication module is configured to provide a diagnostic indication of the identified at least one performance issue.

A method of manufacturing a semiconductor device includes: receiving a workpiece on which the semiconductor device is manufactured; causing a nozzle to dispense a fluid toward a surface of the workpiece external to the nozzle, wherein the nozzle includes a first channel and a second channel that allow the fluid to flow through; emitting light, by a light source, from within the nozzle toward the surface while the nozzle is dispensing the fluid; receiving light reflected from the surface by a light sensor, the light source and the light sensor being disposed within the nozzle and opposite to each other, and the emitted light and the reflected light adapted to be contained within the fluid; and examining a status of the reflected light. The emitted light and the reflected light propagate in a direction parallel to a longitudinal axis of each of the first channel and the second channel.

A method for determining a spatial position of a liquid jet, in particular of a liquid jet for optically guiding a laser beam, comprises the steps: providing a collision object having a measuring point for interacting with the liquid jet, detecting a state of the liquid jet in a first configuration between collision object and liquid jet, changing the configuration so that the state of the liquid jet changes, detecting the configuration change between the first and second configuration.

A method of generating a building assembly that includes spraying a coating material onto a plurality of pieces of substrate disposed on a first assembly face. The spraying includes spraying the coating material onto the plurality of pieces of substrate via a sprayer configured to apply the coating material to a target surface via a nozzle coupled with a mobile storage container storing the coating material, the coating material impregnating voids of the substrate. The method also includes allowing the coating material impregnating the voids to dry and harden and become rigid to generate the building assembly.

In an embodiment, a test section comprises at least one surface defining an at least partially enclosed space. The at least partially enclosed space defines an airflow path for air to flow. The test section also comprises a nozzle disposed in the at least partially enclosed space. The nozzle is configured to spray an agricultural spray and is positioned to emit the agricultural spray such that at least a section of the agricultural spray exhibits a non-parallel angle relative to the airflow path defined by the at least partially enclosed space. The test section further comprises at least one stimulus source positioned to illuminate at least a portion of the agricultural spray adjacent to the nozzle. Additionally, the test section comprises at least one detector positioned to image at least the portion of the agricultural spray adjacent to the nozzle.

A humidifying system and method for identifying component failure in the humidifying system are disclosed. The system includes a nebulizer unit that creates a mist for humidifying the indoor space, a sensor that determines data regarding a characteristic of the nebulizer unit, and a controller coupled to the nebulizer unit and the sensor. The controller receives first data associated with operation of a nebulizer unit from the sensor, compares the first data associated with operation of the nebulizer unit to a threshold. In response to the first data associated with the operation of the nebulizer unit satisfying the threshold, the controller determines the existence of the failure state for the nebulizer unit and initiates a remediation action with respect to the nebulizer unit.

The present invention relates to a system (1) and a method for coating a surface (3a) of an object (3) with a spray coating tool (2) spraying atomised coating particles (10) onto. A conditioning hood (20) is applied defining a spray chamber. In operation the spray coating tool (2) is mounted at a coating tool mounting end (21), and an output end (22) is positioned in proximity of the surface (3a) of the object (3) to be coated. The spray coating tool (2) is operated to spray atomised coating particles (10) which travel from the coating tool (2), through the spray chamber and the output end (22) to the surface (3a) of the object (3). A carrier gas is injected that in operation carries the atomised coating particles (10) to the surface (3a) of the object (3).

A liquid object detector (160) includes a liquid object dispensing part (500), a sensor (161, 162, 163) configured to detect a liquid object dispensed by the liquid object dispensing part, and a sensor moving part (130, 165) configured to move the sensor in a direction crossing a dispensing direction of the liquid object.

Provided is a humidity conditioning method that enables absorption and desorption of moisture with low power consumption. The humidity conditioning method includes: an adjustment step of adjusting a moisture amount of hygroscopic liquid; and a measurement step of measuring concentration of a hygroscopic substance contained in the hygroscopic liquid, in which at the adjustment step, at least either moisture absorption processing of causing moisture contained in air to be absorbed by the hygroscopic liquid or regeneration processing of separating the moisture from the hygroscopic liquid is performed, the regeneration processing includes atomization processing of irradiating at least a part of the hygroscopic liquid with an ultrasonic wave to generate an atomized droplet from the hygroscopic liquid and perform removal, the atomized droplet contains a first droplet and a second droplet whose particle size is larger than a particle size of the first droplet, a concentration region of the hygroscopic substance relative to total mass of the hygroscopic liquid includes a first concentration region in which the first droplet is generated, and a second concentration region in which the second droplet is generated and in which concentration is lower than that in the first concentration region, and the moisture amount of the hygroscopic liquid is adjusted so that the concentration is included in the first concentration region on a basis of a measurement result obtained in at least the measurement step.

A fluid delivery system includes a status indicator and control system comprising a processor. The processor is configured to receive a first signal indicative of a first status of operations of a spray application system. The processor is further configured to provide to an operator of a spray gun, via a display system, a visualization representative of the first status of operations, and techniques to control the fluid delivery system, wherein the spray application system is configured to deliver at least one fluid to the spray gun during operations.