The present disclosure provides a material collection system. The material collection system includes a conduit, a vacuum generator coupled to the conduit, an engine powering the vacuum generator, and a container mounted to a chassis of a vehicle. The vacuum generator generates airflow for drawing material into a material inlet of the conduit. The container receives collected material from the conduit. The material collection system and vehicle can have a gross vehicle weight rating of at or below approximately 26,000 lbs.

A method for the operation of a cleaning vehicle, in particular a street sweeper capable of being operated in automated fashion, by a control device. A trajectory is calculated and control commands are produced for a longitudinal guiding and transverse guiding of the cleaning vehicle during travel of the calculated trajectory. Measurement data are received from at least one sensor in order to ascertain a cleaning region. At least one actuator is controlled, based on the received measurement data, in order to position a cleaning device of the cleaning vehicle in the longitudinal direction and/or transverse direction relative to a direction of travel of the cleaning vehicle, in order to clean the cleaning region. A control device, a computer program, and a machine-readable storage medium are also described.

A method for the operation of a cleaning vehicle, in particular a street sweeper capable of being operated in automated fashion, by a control device. A trajectory is calculated and control commands are produced for a longitudinal guiding and transverse guiding of the cleaning vehicle during travel of the calculated trajectory. Measurement data are received from at least one sensor in order to ascertain a cleaning region. At least one actuator is controlled, based on the received measurement data, in order to position a cleaning device of the cleaning vehicle in the longitudinal direction and/or transverse direction relative to a direction of travel of the cleaning vehicle, in order to clean the cleaning region. A control device, a computer program, and a machine-readable storage medium are also described.

An adjustable pet waste scoop includes a handle shaft and a scoop shaft connected in a telescopic configuration, such that the overall length of the device is adjustable. A scoop is connected to a lower end of the scoop shaft. The scoop includes an open-ended front portion extending in a first direction perpendicular to the scoop shaft and an open-ended rear portion extending in an opposing second direction at an upward angle with respect to the front portion. The scoop may include one or more clips for securing a pet waste bag to the scoop and may further include annular grooves that receive clamps or other fasteners for further securing the pet waste bag. The open-ended configuration and fasteners allow a pet waste bag to be attached to the scoop in multiple configurations according to user preference.

A debris removal apparatus can be mounted on the front of a suitable vehicle for movement over the surface of the highway. The apparatus is formed with a central member and opposing wings pivotally mounted on the sides of the central member. The wings are independently pivotally movable by hydraulic cylinders forwardly and rearwardly of the central member to permit a selective placement of the debris on the shoulder of the highway. Hydraulic cylinders also control the vertical positioning of the apparatus between a lowered operative position and a raised transport position. Openings in the structure of the apparatus are covered with a rigid mesh that allows the passage of air through the apparatus, but not debris. The lower edge of the central member and wings are provided with a detachable wear strip. A control mechanism limits the speed of the vehicle when the apparatus is in the operative position.

The invention relates to a vacuum installation for industrial application, the installation comprising a first vessel having a first gas inlet for allowing a gaseous substance into the first vessel and a first outlet for depletion of a material, a second vessel having a second inlet for aspirating a quantity of material and a second gas outlet for depletion of the gaseous substance, wherein the gaseous substance comprises a vapour generated from the material, a storage chamber for storing the quantity of material, the storage chamber having a third inlet, wherein at least the first vessel communicates with an interior of the storage chamber via the first outlet and the third inlet; and a vacuum pump located in between the first vessel and the second vessel, and operated to lower the pressure in the second vessel, thereby allowing the material to be sucked into the second vessel via the second liquid inlet to an equilibrium level between the material and the gaseous substance, the vacuum pump being further operated to transport the gaseous substance to the first vessel to raise the pressure in the first vessel, thereby forcing the material in the first vessel into the storage chamber.

An automatic moving snow removal device including a moving module, driving a snow blower to move; a working module, including a working motor and a snow throwing mechanism driven by the working motor, the snow throwing mechanism is driven by the working motor to collect accumulated snow and inclusions on the ground and throw out of the snow throwing mechanism; and a control module, configured to control a rotary speed of the working motor to cause a speed when the inclusions depart from the snow throwing mechanism is not higher than 41 m/s.

An automatic moving snow removal device including a moving module, driving a snow blower to move; a working module, including a working motor and a snow throwing mechanism driven by the working motor, the snow throwing mechanism is driven by the working motor to collect accumulated snow and inclusions on the ground and throw out of the snow throwing mechanism; and a control module, configured to control a rotary speed of the working motor to cause a speed when the inclusions depart from the snow throwing mechanism is not higher than 41 m/s.

An improved groove and crack cleaning tool that is economical in cost to manufacture, includes a rigid blade head with a blade tip at the end of the blade edge adapted to dislodge debris build-up commonly found between outdoor surfaces. In addition, groove and crack cleaning tool has a handle adapter built into the blade head for the attachment of different types of handles. The blade head having different thickness and length provide a tool that is simple and easy to use on many outdoors surface and during tool operation, the blade edge glide will slide over the outdoor surface without causing damage to that surface. The blade head is angled to easily wedge under any debris lodged in groove or cracks forcing the lodged debris generally upward.

A collection kit for the removal of unwanted material from a surface, said kit comprising: iv) ferromagnetic material to absorb and/or adsorb the unwanted material when spread across the unwanted material creating an area of operation; v) an apparatus having a magnetic source operable to attract the ferromagnetic material together with absorbed and/or adsorbed unwanted material when the magnetic source is touching or in the vicinity of the area of operation; and vi) means to dislodge the ferromagnetic material and absorbed and/or adsorbed unwanted material from the apparatus once the ferromagnetic material has been removed from the area of operation.