A mixing nozzle includes a first connector, a second connector, a first channel and a second channel, where a first end of the first channel is connected to the first connector, and a second end of the first channel is provided with a spraying opening in communication with the first channel; a first end of the second channel is connected to the second connector, and a second end of the second channel is in through connection with the first channel; the first connector is configured to introduce a first fluid into the first channel, and the second connector is configured to introduce a second fluid into the second channel; and a length of the second channel is less than a length of the first channel.

The invention relates to a cleaning device (100) for cleaning a container, in particular an inner wall of a container, comprising: a base member (1) that can be coupled to a feed pipe for supplying a cleaning agent, a rotating member (3) mounted rotatably about a rotational axis (A) on the base member (1), a support member (2) having a first end portion (16) and a second end portion spaced apart along the rotational axis (A),
wherein the first end portion (16) can be coupled to the base member (1) and the second end portion to the rotating member (3) in such a way that in the coupled state the rotating member (3) is rotatably accommodated between the base member (1) and the support member (2),
wherein the cleaning device (100) further comprises a coupling means (15) which is adapted to lock the support member (2) in place relative to the base member (1) in the coupled state. The invention also relates to a method for assembling a cleaning device (100).

A nozzle with lateral spray includes a longitudinal bore with an open first end at a proximal end of the body of the nozzle and a dead second end in a distal portion of the body of the nozzle; a recess defined within a lateral wall of the body of the nozzle, which has a bottom and side walls extending perpendicularly to the longitudinal axis of the body; and a lateral bore that fluidly connects the longitudinal bore to an opening in the recess and has a diameter smaller than the diameter of the longitudinal bore. A nozzle according to the invention provides a lateral spray that is stronger and better focused than nozzles according to the prior art.

Various embodiments for an adjustable flow nozzle system having a manifold with a plurality of adjustable flow nozzles in which the flow rate of each adjustable flow nozzle may be individually adjusted are described herein.

A low flow compact spray head design for cleaning applications, especially for camera lens wash includes a miniature spray nozzle head which is about 5 mm in diameter or less for a single direction spray nozzle and about 8 mm in diameter of less for a nozzle with multiple sprays. The washer fluid is fed from the bottom of nozzle along a flow axis and is separated into two flows via two power nozzles or inlets which turn the flows 90° to become opposing jets impinging upon each other inside an interaction region. Uniform stream lines are generated by the two direct facing jets and converge at the nozzle throat to become a uniform spray fan, which is on a plane perpendicular to the axis of cylindrical nozzle head. This fluidic circuit design enables a miniature size low flowrate nozzle to operate well consistently with low flow rate (e.g., a flow rate of about 150 mL/min to about 300 mL/min at 25 psi, or even a flow rate of about 250 mL/min at 25 psi or above, at a viscosity of about 25 CP) at cold temperate (−4° F. or lower) with 50 percent ethanol. This nozzle design is capable of generating two or more different oriented spray fans (e.g., fans spraying in opposing directions) from one single nozzle.

An atomizing spray device includes a housing having plural inlets and one or more outlets fluidly coupled with each other by an interior chamber. The inlets include a first inlet shaped to receive a first fluid and a second inlet shaped to receive a slurry of ceramic particles and a second fluid. The interior chamber in the housing is shaped to mix the first fluid received via the first inlet with the slurry received via the second inlet inside the housing to form a mixture in a location between the inlets and the one or more outlets. The interior chamber in the housing also is shaped to direct the mixture formed inside the housing as droplets outside of the housing via the one or more outlets such that, based on a discharged amount of the first fluid in the droplets, the first fluid promotes evaporation of the second fluid as the droplets traverse from the housing toward a surface of a component.

A portable water spreader has a water tank with a coupler to couple to and be elevated and tilted by a front-end loader. Discharge pipes are coupled to the tank with spray heads. Vent pipes are coupled to the tank.

An atomizing spray nozzle device includes an atomizing zone housing that receives different phases of materials used to form a coating. The atomizing zone housing mixes the different phases of the materials into a two-phase mixture of ceramic-liquid droplets in a carrier gas. The device also includes a plenum housing fluidly coupled with the atomizing housing and extending from the atomizing housing to a delivery end. The plenum housing includes an interior plenum that receives the two-phase mixture of ceramic-liquid droplets in the carrier gas from the atomizing zone housing. The device also includes one or more delivery nozzles fluidly coupled with the plenum chamber. The delivery nozzles provide outlets from which the two-phase mixture of ceramic-liquid droplets in the carrier gas is delivered onto one or more surfaces of a target object as the coating on the target object.

A fluid atomizer comprising a body having a front surface, a rear surface and a body axis extending from the front to rear surfaces. The body comprises a first fluid outlet disposed in the front surface of the body, a first fluid inlet, and a first fluid passageway connecting the first fluid inlet with the first fluid outlet. The first fluid outlet defines an arcuate slit. The body further comprises a second fluid outlet disposed in the front surface of the body, a second fluid inlet, and a second fluid passageway connecting the second fluid inlet with the second fluid outlet. A shelf having an attraction surface protrudes from the front surface of the body. The second fluid outlet is located between the first fluid outlet and the shelf. The atomizer can be used in apparatus and methods utilizing atomized fluid.

A spray nozzle is provided. The spray nozzle has a head including a face having a nozzle array and an inner channel in fluid communication with the nozzle array. The nozzle array includes a plurality of nozzles. Each nozzle is defined by an interior opening, an exterior opening, and an outlet channel extending therebetween. Each nozzle has a longitudinal axis extending in a direction extending between the interior opening and the exterior opening. The outlet channel is connected to the inner channel at the interior opening. A cross-sectional shape of the outlet channel taken perpendicular to the longitudinal axis varies from the interior opening to the exterior opening.