A device for removing hot-melt adhesive from a rotating, vertically-arranged roller (1), comprising: a hollow, preferably hollow cylindrical, scraper (2), characterized in that the scraper (2) comprises an opening (6) on the circumferential surface thereof along the longitudinal axis, at which opening a strike plate (3) that protrudes radially outward is arranged, and wherein the strike plate (3) is arranged such that it can be brought into a position for removing adhesive from the roller (1) and can convey the removed adhesive towards the circumferential inner side of the scraper (2).

A tool for cleaning inside of a water tank utilizing a siphon action is provided in which a scraping tool (S) is pivotably provided at an upstream end of a suction pipe (P), a deposit (b) such as moss caked on a bottom face or a side face within the water tank is scraped off by a scraping blade (62) formed at an extremity of the scraping tool (S), and is removed by sucking up together with dirt (a).

An improved device and method for gathering up loose pet hair, lint, and other fine debris from a variety of surfaces. In the preferred embodiment, the device includes a handle and a blade. The blade is made of an elastromeric material that is flexible. Exposed surfaces of the blade have a rough, crinkled, pebble-grain texture, such as crepe rubber. The blade is greater in height than in thickness; greater in width than in height; and wider at the bottom end than at the top end, where it is connected to the handle. The handle of the device is held by the user, while the bottom end, side ends, or front and back surfaces of the blade are placed on the surface to be cleaned and dragged with slight pressure across the cleaning surface. The blade dislodges, grips, and gathers up loose pet hair and other fine debris into a wad so that it may be removed by hand or by vacuum suction.

A windshield wiper system for an aircraft is provided and includes a motor, an output shaft, a wrap spring and crank rocker mechanism (WSCRM) to which the motor and the output shaft are coupled and a controller. By way of the WSCRM, first directional rotation input to the WSCRM from the motor via a two-stage gear reduction is converted such that the output shaft drives wiper blade oscillation through a first sweep angle and second directional rotation input to the WSCRM from the motor is converted such that the output shaft drives wiper blade oscillation through a second sweep angle. The controller is configured to control the motor such that the first directional rotation is continuously or non-continuously input during first or second flight conditions, respectively, and the second directional rotation is continuously input during third flight conditions.

A photovoltaic (PV) robotic cleaning device can include a cleaning head configured to apply a vaporized cleaning solution on a portion of a PV collector while the PV robotic cleaning device is traveling over the PV collector, where the vaporized cleaning solution can heat the portion of a PV collector while travelling. The photovoltaic (PV) robotic cleaning device can include a squeegee element coupled to the cleaning head, where the squeegee element can be configured to remove a cleaning solution formed by the vaporized cleaning solution.

A window wiper includes an elongated profile of waterproof flexible material having a base extending under weather stripping for a side vehicle window, a support connected along the base to extend above the weather stripping, a cover connected along the support and extending over the base for covering at least some of the weather stripping and a wiper portion connected along the support and having a resilient wiper area for pressing against the window. A length of adhesive tape is connected along the profile and extends over the base for adhering to the weather stripping to fix the window wiper to the weather stripping.

A system includes a dome, a wiper assembly, a position sensor and a control device. The wiper assembly includes a wiper blade configured to rotate around the dome. The position sensor may be configured to send a signal to a control device when a wiper blade passes the position sensor. The control device may include one or more processors configured to receive the signal from the position sensor and determine a location of the wiper blade relative to the dome based on the received signal.

A cleaning device for a wafer-suction chuck mechanism capable of automatically and simply performing cleaning treatment on a chuck surface that suction-holds a wafer and cleaning treatment on a frame suction-holding section. The cleaning device is configured to include a scraper 17 and a brush 18 that press frame suction-holding section cleaning means 10B for removing a sludge on a frame suction-holding section 11B onto the frame suction-holding section 11B, and a water nozzle 19 that discharges and supplies water onto the frame suction-holding section 11B.

An automated maintenance system for solar components is disclosed. The system includes a condensate reservoir, a wiping element, a motor, and a fluid delivery element. The fluid delivery element is configured to transport a fluid from the condensate reservoir to a solar component, and the motor is configured to operate the wiping element via a controller. The system is designed to clean solar components automatically, without the need for manual intervention. The system is efficient, cost-effective, and environmentally friendly.