A sewer cleaning vehicle includes a monitoring device for detecting a water level in a plurality of water tanks using a sensor engaged with the water tanks. The vehicle can present to an operator the water level together with operational conditions of the vehicle. The vehicle can continuously fill the water tanks based on the water level, and inform the operator of the water tanks having a water level lower than a user-configurable threshold.

A sewer and/or road cleaning vehicle is provided. The cleaning vehicle includes a dirt removal container with a central longitudinal barrel axis, container walls and a container bottom. The dirt removal container has a shape of a barrel and is arranged to accommodate and transport mineral dirt residues collected during cleaning. A clearing device is provided to empty out the dirt removal container. The clearing device includes a conveying screw and is arranged on a carrier inside the dirt removal container. The carrier is pivoted around the central longitudinal barrel axis by a pivoting drive so that the conveying screw is laterally deflected in a first and in a second direction along the container walls relative to a center position associated with the container bottom. A discharge screw assembly is arranged downstream of, and transversely to, the conveying screw to discharge the mineral dirt residues outwardly.

A sewer and/or road cleaning vehicle is provided. The cleaning vehicle includes a dirt removal container with a central longitudinal barrel axis, container walls and a container bottom. The dirt removal container has a shape of a barrel and is arranged to accommodate and transport mineral dirt residues collected during cleaning. A clearing device is provided to empty out the dirt removal container. The clearing device includes a conveying screw and is arranged on a carrier inside the dirt removal container. The carrier is pivoted around the central longitudinal barrel axis by a pivoting drive so that the conveying screw is laterally deflected in a first and in a second direction along the container walls relative to a center position associated with the container bottom. A discharge screw assembly is arranged downstream of, and transversely to, the conveying screw to discharge the mineral dirt residues outwardly.

Embodiments of the present invention include a hose handling system having a hose guide plumbed via a wash line to a fluid delivery device. The hose guide includes a pulley installed on a frame member, and a spray nozzle adapted to dispense a wash mixture. The hose guide is adapted to guide a hose as the hose is inserted into or withdrawn from a manhole, with the hose traversing the pulley. The wash mixture can be delivered through a wash line to the hose guide, which sprays the wash mixture on the hose in order to reduce or eliminate gross contamination or microbial contamination on the hose. The wash mixture typically, but not necessarily, has a freezing point below 32 F. and includes: a quaternary ammonium compound, an alcohol or glycol, an alcohol ethoxylate, and a fragrance.

An example system includes an auger assembly that is attachable to a vacuum system, in which the auger assembly includes a hose, an auger, and an auger motor. The hose includes an inlet at a distal end and an outlet at a proximal end. The auger includes a shaftless helical blade having a portion that is radially enveloped by the hose. The vacuum system is adapted to suck material from the septic tank or pit latrine via the hose. The auger motor is adapted to rotate the auger about a helical axis in a first direction, in which the rotation about the helical axis in the first direction causes the shaftless helical blade of the auger to translate along the helical axis from the outlet of the hose towards the inlet of the hose.

An example system includes an auger assembly that is attachable to a vacuum system, in which the auger assembly includes a hose, an auger, and an auger motor. The hose includes an inlet at a distal end and an outlet at a proximal end. The auger includes a shaftless helical blade having a portion that is radially enveloped by the hose. The vacuum system is adapted to suck material from the septic tank or pit latrine via the hose. The auger motor is adapted to rotate the auger about a helical axis in a first direction, in which the rotation about the helical axis in the first direction causes the shaftless helical blade of the auger to translate along the helical axis from the outlet of the hose towards the inlet of the hose.

A sewer cleaning device and/or street cleaning device includes a dirt removal container for receiving and transporting mineral dirt residues accumulating during sewer and/or street cleaning. A removal device for clearing out the dirt removal container includes a conveying worm arrangement received on a swivel frame which is swivel-mounted on an axis extending in a longitudinal direction of the container and swivellable by a swivel drive. The conveying worm arrangement is sideways deflectable by the swivel frame relative to a center position associated with the container bottom on both sides along the container wall and a fast discharge of the dirt removal container can be achieved by two conveying worms arranged in symmetrical position relative to a central longitudinal axis of the swivel frame, the conveying worms limiting a gap therebetween and acting together for the transport of the bulk material along the inner side of the container wall.

A sewer cleaning device and/or street cleaning device includes a dirt removal container for receiving and transporting mineral dirt residues accumulating during sewer and/or street cleaning. A removal device for clearing out the dirt removal container includes a conveying worm arrangement received on a swivel frame which is swivel-mounted on an axis extending in a longitudinal direction of the container and swivellable by a swivel drive. The conveying worm arrangement is sideways deflectable by the swivel frame relative to a center position associated with the container bottom on both sides along the container wall and a fast discharge of the dirt removal container can be achieved by two conveying worms arranged in symmetrical position relative to a central longitudinal axis of the swivel frame, the conveying worms limiting a gap therebetween and acting together for the transport of the bulk material along the inner side of the container wall.

A device for cleaning and/or inspection of a flow channel is provided including a purge hose introduced into the flow channel, charged with high pressure purge water, and connected to a channel nozzle provided with jet nozzles creating a recoil effect. The channel nozzle is controllable by rotation around its axis. A simple, cost-effective, trouble-free construction and high precision can be accomplished by subdividing the purge hose into at least two sections which are connected with each other by a coupling unit through which high pressure purge water flows. The device has a housing element connected to a purge hose section and a hollow piston element arranged in the housing element in an axially movable manner and connected to another purge hose section. The housing element and the hollow piston element are supported by a spring and are cooperating via a converter converting an axial movement into a rotation.

A vacuum truck for dispensing water into a sewer or similar location and receiving recovered water from the sewer that includes debris to be removed therefrom. The vacuum truck includes a debris tank that receives the recovered water and retains debris removed from the recovered water. A primary and a secondary filter are positioned in the debris tank for separating debris from the recovered water. A water pump draws the recovered water through the secondary filter and provides the water to a tertiary filter that removes smaller debris from the recovered water. The recovered water from the tertiary filter is provided directly to a jetting water pump without being accumulated in a water holding tank. The vacuum truck includes a water storage tank that includes potable water for cleaning the truck or when recovered water is not available from the debris tank.