A liquid cleaning system for living plants rests on a surface covered by a non-porous material. A plate layer covering the non-porous layer has two or more layers, each layer having runners arranged in a grid. The grid of each successive layer is offset at an angle with respect to the grid of a previous layer. An upper layer covers the plate layer and has a plurality of holes for the passage of liquids into the liquid cleaning system. As the living plants are watered or cleaned, excess liquids containing water and oils that were excreted by the living plants enter the liquid cleaning system through the holes, the liquid traverses the grid layers, flowing towards a drain. Contaminants within the liquid collect within the grid of the layers of the plate layer for later disposal.

A water rinsing apparatus is disclosed for spraying water upwardly against the underbody of a vehicle to rinse and clean the surfaces thereof. The water rinsing apparatus includes a water delivery tube connectable at its inlet end to a garden hose, and at its outlet end to a manifold which distributes water to a plurality of upwardly directed water spray nozzles mounted in the body of the manifold. Wheels are rotatably mounted on fixed axle members projecting longitudinally from opposite sides of the body of the manifold, and provide maneuverability for the apparatus.

A pressure washing system is disclosed for integration into a recreational vehicle or other large mobile vehicle. The wand of the system includes a rotating brush and one or more sensors to determine a distance from, pressure against, or orientation with respect to the vehicle. While a pump is supplying water to be output by the wand, the distance, pressure, orientation, or other sensor readings are continuously used to modify output characteristics of the wand, including the output water pressure and the speed of rotation of the brush. As a result, no more pressure is supplied by water or brush bristles than is necessary, avoiding overuse of water or damage to outer surfaces of the vehicle. Sensor readings may include one or more of a camera feed, sonar, lidar, pressure feedback, and accelerometer data. The system may also be responsive to a mobile app on a user's mobile computing device.

A nonflammable aerosol composition for washing various types of car/vehicle is of low toxicity, which has little environmental impact in terms of depletion of the ozone layer and so forth, which has a washability as good as or better than conventional products such as has been unattained by aqueous products or high-flash-point products, which permits achievement of appropriate drying characteristics, and which, while preventing erosion of rubbers and resins, causes dirt components to be moistened and washed off and away therefrom by the detergent composition, and which permits accommodation of mechanization by virtue of its being capable of being sprayed thereonto from a roughly constant distance therefrom, said aerosol composition for washing is made to contain (Z)-1-chloro-3,3,3-trifluoropropene and gas propellant which is N.sub.2, compressed air, CO.sub.2, argon, or a mixture of two or more thereof.

The present disclosure provides a movable device and system for the application of pressurized fluid, collection of that fluid, and cleaning and recycling of that fluid for subsequent use. An application of the current device is in the washing of items, for example, automobiles.

A heatable ceiling boom for washing facilities, which is rotatably mounted on a bearing shaft (14) that is fastened to the ceiling or to a wall of a wash box, and which is made up of one or more support arms (2) via which the washing medium is supplied from the bearing shaft (14) to high-pressure hoses (30) leading to the operating means in the form of a washing brush and/or spray lance, for example, wherein the high-pressure hoses (30) have an electrically heatable design, and at least one rotational power distributor (25) is situated on the bearing shaft (14) for supplying electrical energy from the stationary bearing shaft (14) to the support arms (2) rotatably mounted thereon, wherein the electrical heating takes place via a heating cable (10) that is led inside the high-pressure hose (30) with sealing.

The invention relates to a handheld blower device for the manual pneumatic drying of surfaces by a user of the handheld blower device, comprising a flat nozzle device for ejecting compressed air from the handheld blower device onto the surface to be dried, a handle region, in particular a handle, for manually gripping and guiding the flat nozzle device over the surface to be dried, and a conveying device for conveying the compressed air to the flat nozzle device, wherein the flat nozzle device comprises a flat nozzle, and the conveying device is configured with a stationarily arranged, in particular fixedly arranged, high-pressure blower.

A blower extension with video feed having a flexible tube that is selectively engageable with a standard blower. A vertical adjustable tube is attached to the flexible tube. The vertical adjustable tube has an upper section slidadbly disposed within a lower section such that the upper section has a compacted position, a plurality of alternate extended positions, and an alternate maximum reach position. A collar disposed on the lower section is configured to tighten and loosen to fix the upper section. A 90 elbow is disposed on the upper section. A horizontal fixed tube is disposed on the elbow, and an angled nozzle with a bend and a reducer is disposed on a terminal end of the horizontal fixed tube. A camera is disposed within a camera housing attached to the upper section, and a monitor in operational communication with the camera is disposed on the lower section.

A surface wiper device which includes a carrier which supports a blade. The carrier attaches to a wiper arm which urges the blade against and moves the blade across the surface of a windshield. The carrier further provides a plurality of outlets each of which communicate between a hollow passage inside the carrier and a location on the external surface of the carrier. A fluid can be delivered from a fluid source fluidicly coupled to the hollow passage of the carrier under sufficient pressure to be dispersed from the plurality of outlets onto the windshield during movement of the blade. A fluid heater can be thermally coupled with the fluid delivered from the fluid source to the plurality of outlets to increase the temperature of the fluid dispersed onto the windshield. The fluid can be sufficiently heated to generate a heated gas.

A surface wiper device which includes a carrier which supports a blade. The carrier attaches to a wiper arm which urges the blade against and moves the blade across the surface of a windshield. The carrier further provides a plurality of outlets each of which communicate between a hollow passage inside the carrier and a location on the external surface of the carrier. A fluid can be delivered from a fluid source fluidicly coupled to the hollow passage of the carrier under sufficient pressure to be dispersed from the plurality of outlets onto the windshield during movement of the blade. A fluid heater can be thermally coupled with the fluid delivered from the fluid source to the plurality of outlets to increase the temperature of the fluid dispersed onto the windshield. The fluid can be sufficiently heated to generate a heated gas.