A vehicle mounted garbage bin cleaning system including power takeoff includes a pair of arms configured for lifting a garbage bin, the pair of arms rotatably coupled to a mount on the vehicle, a hopper configured for accepting the garbage bin when the pair of arms lifts the garbage bin into the hopper, at least one spray rod extending upwards from the hopper, said spray rod including a water nozzle, wherein when the pair of arms lifts the garbage bin into the hopper, the spray rod is situated within the garbage bin, a hydraulic pump mechanically coupled with a transmission of the vehicle, such that the transmission drives the hydraulic pump, a pressure washer pump mechanically coupled to the hydraulic pump, the spray rod is fluidically coupled with the pressure washer pump.

Manual, automated, or semi-automated programmable tank cleaning nozzle systems, devices and methods for providing safe and efficient methods for breaking up oil, tar, chemical, radioactive, hazardous, or any other liquid, solid, or sludge waste inside storage tanks, ballast tanks, floating roof tanks, void tanks, rail tank cars and the like with nozzles which utilize fluid jets to break up, liquefy, and motivate tank material. The programmable tank cleaning nozzle incorporates two degrees of freedom and can be mounted to existing booms, robotic arms, gantry systems, rigid beams, manways, or any other rigid structure. The programmable tank cleaning nozzle can be a standalone, independent unit or integrated into new designs and/or existing systems. Simplified programming and user interface allowing an operator to remotely operate the system without the need for a camera system. The system is hydraulically controlled and can work in the presence of flammable vapors and dust.

The inventive concept relates to a substrate treating apparatus, and may include a substrate treating apparatus includes a rotatable spin head, a cup that surrounds the spin head, a cleaning jig seated on the spin head, and that discharges a cleaning liquid toward the cup through rotation of the spin head, and a nozzle unit located at an upper portion of the cleaning jig and that supplies the cleaning liquid to a center of an upper surface of the cleaning jig, and the cleaning jig includes spattering guide grooves formed to be recessed such that the cleaning liquid provided from the nozzle unit spatters toward the cup with a centrifugal force due to the rotation of the spin head.

A rotary tank cleaning spray nozzle assembly which includes a stationary housing, a rotary housing for rotation about a central axis of the stationary housing, and a nozzle carrying hub supported by the rotary housing for rotation about an axis transverse to the axis of the stationary housing. A support rod extends through the rotary housing and into the stationary housing with a lower end supporting the underside of the rotary housing and the upper end being secured by a retainer. The retainer is releasable to permit removal of the rotary housing and nozzle hub from an underside of the stationary housing. A fluid driven drive for the rotary housing and nozzle hub includes a pair of removably mounted bevel gear rings. In one embodiment, liquid lubricating, frustoconical, high load carrying bearings support rotatably.

A cleaning device including a housing which can be arranged on a feed line for cleaning fluid is disclosed. The housing includes an exit opening for the cleaning fluid, wherein a nozzle head rotatable about a first rotary axis is arranged in the region of the exit opening. A distributing device rotating about a second rotary axis different from the first rotary axis and having at least one blade element or at least one pendulum element is arranged on the rotatable nozzle head. The invention also describes a product-processing plant with at least one cleaning device for cleaning a product tank.

A cleaning apparatus includes a nozzle assembly and an arm supporting the nozzle assembly. In some embodiments, the arm includes a first rotatable arm member defining a first axis and a second rotatable arm member defining a second axis and connected to the first rotatable member. In certain examples, the first rotatable arm is rotatable about the first axis and the second rotatable arm is rotatable about the second axis. The cleaning apparatus also includes at least one sensor on the arm and configured to detect a position of the nozzle assembly based on rotation of the first rotatable arm or the second rotatable arm

A cleaner and a cleaning device are disclosed. The cleaner includes: a guide rail; a lifting lever, one end of which is disposed on the guide rail and capable of moving along the guide rail; a feed pipe, disposed inside the lifting lever; and a nozzle, disposed on an end portion of one end of the lifting lever away from the guide rail and communicated with the feed pipe. The lifting lever is configured to allow the nozzle to be away from or close to the guide rail.

The invention relates to a cleaning device (01) for food vessels, in particular mixing containers or mixing container parts, in which cleaning liquid is supplied to a valve support (11) and is conveyed through at least one rinsing rod (03), the rinsing rod (03) being disposed in an upwardly open receptacle (02), and an actuating device (09) controlling the flow rate of the cleaning liquid from the valve support (11) into the rinsing rod (03) by means of a valve in the valve support (11), and the rinsing rod (03) having at least one horizontal nozzle (07) for cleaning an inner circumferential surface (08) of the food vessel (04), and the rinsing rod (03) having at least one vertical nozzle (06) for cleaning a bottom surface of the food vessel, the cleaning device (01) being provided with a blocking device (05) which prevents cleaning liquid from exiting through the vertical nozzle (06) and/or the horizontal nozzle (07).

The present invention relates to a nozzle arrangement and method for removing solids and/or fluids, such as sludge, preferably suspended or contained in fluid, from tanks such as oil/mud-tanks and other similar difficult accessible deposits and tanks/tanks. In preferred embodiments, the nozzle arrangement has a rotating mechanism (8) comprising a primary drive shaft (13) being connected to a pipe section (4), a row of gear teeth (9) fixedly arranged on or formed in lower end of a down pipe (3) on an outside thereof, an angular gear (10), a worm gear (16) arranged to rotate an angled nozzle pipe section (7) at the cleaner head (5) driven by the angular gear, a secondary drive shaft (11) rotatably mounted on an outside of said pipe section (4) and having at one end a gear wheel of the angular gear (10) and at the other end a gear wheel co-operating with said row of gear teeth (9).

A fluid handling apparatus for ejecting fluid into a tank and draining fluid from the tank comprises: a fluid duct for draining/supplying fluid from/to the tank, the fluid duct configured for fluid communication with a tank opening at a tank bottom; a fluid inlet pipe for supplying fluid to the tank, the fluid inlet pipe extending at least partly through the fluid duct and configured to extend through the tank opening into the tank; a rotary fluid ejection device in fluid communication with the fluid inlet pipe; and a rotary drive shaft extending at least partly inside the fluid inlet pipe, the rotary drive shaft being rotatably connected to the rotary fluid ejection device. Also disclosed is a fluid tank system comprising a tank and a fluid handling apparatus, and a method for mixing beer or wort with solid hops material in a tank by a fluid handling apparatus.