The disclosure discloses a system for quality inspection in the entire process of inkjet printing manufacturing of display devices, which includes a substrate inspection module, a nozzle inspection module, an ink droplet inspection module, a coating thickness inspection module and a control module. Through design and matching of these modules, it is possible to realize a series of operations such as substrate inspection, nozzle inspection, flying ink droplet inspection, liquid coating inspection and cured coating inspection. The invention also discloses a corresponding quality inspection method for the entire inkjet printing manufacturing process for display devices. The invention effectively compensates for the shortcomings of current technology which only inspect a single stage without taking the whole process into consideration, thereby realizing high-precision quality inspection of each stage in the inkjet printing manufacturing process of display devices, and significantly improving the quality and yield of the display device product.

A spray pattern monitoring system includes a spray sensor disposed proximate an outlet of a spray nozzle. The spray sensor has one or more optical sensors configured to emit directional light, such as laser pulses, towards the expected position of a liquid spray emitted from the nozzle. The spray sensor can detect the absence or presence of the liquid spray based on returns of the directional light to the optical sensor.

A thermal spray system may include a thermal spray torch configured to produce an emission of material, at least one camera configured to capture an image of the emission of material emitted by the thermal spray torch, a diagnostic device communicatively coupled to the at least one camera, and a controller communicatively coupled to the diagnostic device. The camera may be configured to transmit an image of the emission of material to a diagnostic device that may be configured to determine a characteristic of the emission of material based on the image. The diagnostic device may transmit the characteristic to a controller that may control a position of the thermal spray torch based on the characteristic.

A handheld fluid spraying system includes a pump assembly configured to provide a pressurized liquid and a handheld fluid sprayer. The handheld fluid sprayer comprises a fluid inlet configured to receive the pressurized liquid, a spray tip having an outlet through which the pressurized liquid exits the handheld fluid sprayer to be applied to a surface, a trigger configured to control flow of the liquid through the handheld fluid sprayer, and a sensor configured to detect the liquid and to generate sensor data indicative thereof, the sensor being selected from the group consisting of an infrared (IR) sensor, a thermal imager, and a UV sensor. The handheld fluid spraying system further comprises a controller configured to determine a characteristic of the liquid based on the sensor data and to generate a control output based on the determined characteristic.

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 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.

A spraying system that includes at least one camera to determine for at least one nozzle spray angle, average of spray angle, standard deviation of spray angle, relative pressure, absolute pressure, relative flow rate, absolute flow rate, percent plugged, and/or spray pattern uniformity/variability of the spray from the at least one nozzle.

A fluid jet ejection device, a method of making a fluid jet ejection head for a fluid ejection device, and a method of improving the plume characteristics of fluid ejected from the fluid jet ejection head. The fluid jet ejection device includes a cartridge body; and a fluid jet ejection cartridge disposed in the cartridge body. The fluid jet ejection cartridge contains a fluid and an ejection head attached to the fluid jet ejection cartridge. The ejection head contains a plurality of fluid ejectors thereon and a nozzle plate having a plurality of fluid ejection nozzles therein associated with the plurality of fluid ejectors, wherein a first portion of the plurality of fluid ejection nozzles have a first axial flow path length and a second portion of the plurality of fluid ejection nozzles have a second axial flow path length greater than the first axial flow path length.

A system comprising a boom, a plurality of nozzles disposed along the boom, a light disposed on the boom to illuminate a spray pattern from at least one nozzle, a camera disposed on the boom to capture a first image of a spray from the at least one nozzle at a first time and a second image of no spray from the at least one nozzle at a second time, and a processor to calculate a difference between the first time and second time to determine a pulse width modulation of the at least one nozzle.

A system having: a boom; at least one nozzle assembly attached to the boom; and a nozzle or a second nozzle assembly; wherein the at least one nozzle assembly and the second nozzle assembly each comprise a nozzle and at least one light; wherein the at least one light is disposed to illuminate a spray from an adjacent nozzle assembly or nozzle.