In a method for the high-speed coating of the inner surface of a blank (1), preferably a can, the blank (1) rotates about it axis of rotation and a coating is applied to an inner surface of the blank (1). In order to allow for an increase in production rates and for a homogeneous coating of the inner surface of the blank (1), even with low coating thicknesses, without causing an increase in operating costs, a gas flow (10) is blown into the blank (1) via a nozzle (9) to accelerate the blank (1) and to distribute the coating in the direction of the axis of rotation (12).

The invention relates to a method for coating cavity walls, in particular cylinder bores of engine blocks, In the method, a coating is applied to a cavity wall using a coating lance. In addition, a cavity diameter is measured using a measuring apparatus. According to the invention, the method is characterized in that at least a plurality of diameter values of a first cavity are measured at different heights of the first cavity using the measuring apparatus, and in that a coating of variable thickness is applied to a wall of the first or a second cavity using the coaling lance, the thickness of said coating of variable thickness being dependent on the determined diameter values. The invention additionally describes a corresponding coating system.

A treatment head for cleaning a container that has a valve arrangement that includes a tappet that is configured to move relative to the treatment head's housing to open the valve arrangement and fluid channels leading into the container. A first channel of the fluid channels has an annular fluid channel section and surrounds the second channel. A flow twister is disposed in either the first channel or in a line connected to the first fluid-channel.

Illustrative processes remove ice buildup in containers or other locations by melting the ice using a de-ice component. Waste fluid may be removed using a vacuum component. The de-ice component causes discharge of pressurized fluid to melt ice. The de-ice component may include a base with guide features configured to engage an opening of the container. The de-ice component may direct a spray of the pressurized fluid into the container to melt the ice. The de-ice component may include a pressure regulator valve to selectively regulate a resulting force of the fluid sprayed into the container, which may enable a user to avoid damaging internal components located within the container. The vacuum component may cause the pressurized fluid to flow through a high pressure nozzle to create a vacuum effect at a suction inlet, which can extract waste fluid and/or other debris from the container.

Methods and systems for filling a muffler body with a fibrous material prior to completing assembly of the muffler body are disclosed. The muffler body is composed of two half shells and the fibrous material is injected between the shells by a filling nozzle.

Methods and systems for filling a muffler body with a fibrous material prior to completing assembly of the muffler body are disclosed. The muffler body is composed of two half shells and the fibrous material is injected between the shells by a filling nozzle.

The system includes a robot multi-jet system having a spray section, a drier section, and a catalyst section. The drier section includes a warm air blower, the catalyst section includes a photocatalyst tank, and the spray section includes a plurality of jet extensions. A first jet extension connected to the photocatalyst tank sprays a uniform layer of a photocatalyst through a first set of jets, and a second jet extension that is mechanically connected to the drier section and in fluid communication with the warm air blower is configured to spray a gas onto an inner surface of the glass tube with a second set of jets. Both the drier section and the catalyst section are mounted on wheels to move the system on the inner surface of the glass tube. A motor is electrically connected to a battery mounted within the robot and mounted to the wheels.

The invention relates to a lubricant spray system and to a lubricant application method for treating the inner surfaces of insertion and assembly aids in a packing station. In order to efficiently treat the the inner surfaces of hollow bodies with continuous openings with the lubricant spray using the lubricant spray system, a combination of related methods and systems of the lubricant application and use in a system with directly consecutive steps is required. The lubricant spray system (1), which is equipped with a suction device, comprises a spray station (2), a mounting station (4) and a spray station (3) between which an adjustment and sliding frame element (5), designed as an insertion and mounting aid, is arranged. According to the invention, after spraying the lubricant (20), the parts to be introduced into the hollow body openings can be subsequently inserted and slidingly moved (22) in a smooth and damage-free manner A particular area of application is the packaging of battery plate packs (13) in battery containers (14).

The invention relates to a lubricant spray system and to a lubricant application method for treating the inner surfaces of insertion and assembly aids in a packing station. In order to efficiently treat the the inner surfaces of hollow bodies with continuous openings with the lubricant spray using the lubricant spray system, a combination of related methods and systems of the lubricant application and use in a system with directly consecutive steps is required. The lubricant spray system (1), which is equipped with a suction device, comprises a spray station (2), a mounting station (4) and a spray station (3) between which an adjustment and sliding frame element (5), designed as an insertion and mounting aid, is arranged. According to the invention, after spraying the lubricant (20), the parts to be introduced into the hollow body openings can be subsequently inserted and slidingly moved (22) in a smooth and damage-free manner A particular area of application is the packaging of battery plate packs (13) in battery containers (14).

A spray coating system includes a spraying robot sized to fit within a conduit. The spraying robot includes arms that extend outward and retract inward to maintain contact with an interior surface of the conduit. The spraying robot is configured to be coupled with hoses that separately supply different fluids to the spraying robot. The spraying robot includes a spray head from which a compound formed from the fluids is sprayed onto the interior surface of the conduit. The spraying robot is configured to be pulled through the conduit and/or self-propel in the conduit to spray the compound onto the interior surface of the conduit and form a coating thereon.