A system and method for the application of friction-modifying coatings to roadways, walkways, pathways and other areas subject to vehicular, human or animal traffic, the system and method comprising the controlled, simultaneous application of binder and filler to a surface of a substrate, using a mobile device which passes over the substrate as the binder and filler are being applied. The system includes a frame coupled to a vehicle. A spray bar is mounted on the frame and includes an array of spray nozzles coupled to a resin container. An air knife is mounted on the frame and coupled to an air compressor for generating an air curtain. An aggregate dispenser bar including at least one aggregate dispenser is coupled to an aggregate bin and mounted on the frame for dispensing aggregate.

The disclosure relates to a nozzle assembly, a dispensing system, an electrode sheet strip, and an electrode. The nozzle assembly includes a lip member configured to have an annular body portion and a dam member at the center; and a cover plate configured to be connected to the lip member. The, dam component is recessed relative to a surface of the lip member connected to the cover plate, so that a reservoir is formed between the cover plate and the dam component. The reservoir is in fluid communication with a rectangular opening; and a recess is arranged on one of the two surfaces of the cover plate and the lip member facing each other. The recess is in fluid communication with the reservoir so that fluid can flow out of the reservoir through the recess in a strip shape.

A nozzle apparatus may comprise a nozzle body having a nozzle tip with a discharge port for spraying a treatment fluid onto a substrate; a nozzle moving member for moving the nozzle body relative to the substrate; a rotating member for rotating the nozzle body or the nozzle tip so that a treatment fluid is sprayed onto the substrate during rotation; and a control unit configured to control an operation of the nozzle moving member and the rotating member.

The present application relates to a gluing nozzle and a gluing device. The gluing nozzle comprises an inner lined glue nozzle and an outer glue nozzle, wherein the inner lined glue nozzle comprises at least two sub-linings, and the at least two sub-linings are detachably connected and enclosed to form a glue cavity with a glue outlet; and the outer glue nozzle is detachably arranged on an outer side of the inner lined glue nozzle, such that the at least two sub-linings are relatively fixed. The gluing nozzle can solve the current problem that the production cost is increased since frequent replacement of a new glue discharging nozzle is required to ensure the uniformity of glue discharging.

A nozzle including a nozzle body having a flow path therein, the nozzle further including a face plate coupled to or positioned in the nozzle body and having an engagement surface. The nozzle includes an arm coupled to or positioned in the nozzle body, the arm including an engagement surface engaging the engagement surface of the face plate. At least one of the engagement surface of the face plate or the engagement surface of the arm has at least part of a spherical surface. The face plate and the arm are configured such that relative rotation between the face plate and the nozzle body causes at least part of the arm to move toward or away from a center of the flow path.

An electrostatic oiling system for use with single blanks in batch systems having an open spray chamber without the need for a negative vacuum chamber. Further, the provided electrostatic oiling system may utilize induction beams and a charge wall that allows for utilization of a smaller vacuum system. Further, the provided electrostatic oiling system may provide variable blank coverage without the need for metered pumps.

A fluid nozzle assembly (10) for cleaning a LIDAR sensor is provided. The nozzle assembly includes a plurality of spray nozzles (14) that are interchangeably received within press-fit openings of a nozzle manifold. At least one of the spray nozzles provides a flat fan spray pattern and another one of the spray nozzles provides a narrow jet, collectively creating a multi-functional spray pattern. In another embodiment, a blower bracket is provided. The blower bracket includes a blower box and a plurality of selectable air nozzle adaptors. The air nozzle adaptors are joined to the blower box along a periphery of the blower box sidewall. The air nozzle adaptors include at least one barbed fitting for attachment to an air hose. The blower bracket provides a variety of configurations for use in specific locations in an overhead or rear tiara.

A spray nozzle assembly includes a nozzle cap body and a deflector cap. The nozzle cap body having a fluid passage extending there through. The downstream end of the fluid passage being defined by an end wall having a discharge orifice. The end wall defines an exterior end surface of the cap body. A deflector cap is arranged at a downstream end of the cap body. The deflector cap has an upstream end defining a deflector surface spaced from the exterior end surface of the nozzle body in a longitudinal direction of the spray nozzle assembly and opposing the discharge orifice. The exterior end surface of the cap body and the deflector surface define a radially outwardly extending, annular discharge passage communicating with the discharge orifice and that together with the discharge orifice produces a full hollow cone spray discharge pattern.

An embodiment system, configured to clean a semiconductor package assembly, may include a sprayer device including a plurality of nozzles configured to direct a pressurized cleaning fluid toward the semiconductor package assembly; a conveyor configured to move the semiconductor package assembly relative to the sprayer device along a first direction; and a dryer spatially displaced from the sprayer device and configured to direct a pressurized gas flow toward the semiconductor package assembly to remove cleaning fluid introduced by the sprayer device. Each of the plurality of nozzles may be displaced from one another along a second direction to thereby generate respective separate spray distribution patterns. Adjacent nozzles may be further displaced from one another along a third direction to thereby a reduce an overlap of adjacent spray distribution patterns relative to a configuration in which the adjacent nozzles are not displaced from one another along the third direction.

An example soaker sink may include a sink basin that receives wash items therein and defines an inlet opening. The soaker sink may further include a manifold that defines an inlet opening, an interior that receives a fluid flow input via the inlet opening, and a plurality of outlets. The outlets may permit discharge of fluid from the interior of the manifold to the sink basin and may include at least a first outlet and may further include a common outlet dimension. The soaker sink may further include a pump fluidically coupled with the inlet opening of the sink basin and the inlet opening of the manifold to recirculate fluid from the sink basin to the manifold. A flow restrictor may be removably coupled with the first outlet and may be configured to modify a flow rate of the fluid discharged via the first outlet.