A ruggedized portable water treatment system having a protective exoskeleton that supports and enshrouds the principle operating components of the water treatment system. In one embodiment, the water treatment system includes a water pump and one or more water treatment components that are disposed within the protective confines of the exoskeleton. In one embodiment, the exoskeleton includes top and bottom plates that are joined by a central support and a plurality of external supports. The principle operating components of the water treatment system, such as the water pump and the water treatment components, are mounted to the central support and are fully contained within and protected by the external supports. The external supports are disposed outwardly of the water pump and the water treatment components to form a rigid cage configured to protect the internally positioned components.

A ruggedized portable water treatment system having a protective exoskeleton that supports and enshrouds the principle operating components of the water treatment system. In one embodiment, the water treatment system includes a water pump and one or more water treatment components that are disposed within the protective confines of the exoskeleton. In one embodiment, the exoskeleton includes top and bottom plates that are joined by a central support and a plurality of external supports. The principle operating components of the water treatment system, such as the water pump and the water treatment components, are mounted to the central support and are fully contained within and protected by the external supports. The external supports are disposed outwardly of the water pump and the water treatment components to form a rigid cage configured to protect the internally positioned components.

According to one embodiment, there is provided a chemical solution supply system including: a tank configured to store a chemical solution; a first pipe connected to the tank and configured to provide the chemical solution; a first filter unit connected to the first pipe and having a first filter configured to filter the chemical solution; a second pipe connected to the first filter unit and configured to provide the chemical solution filtered by the first filter; and a detector connected to the first pipe and configured to detect foreign matter in the chemical solution in the first pipe.

According to one embodiment, there is provided a chemical solution supply system including: a tank configured to store a chemical solution; a first pipe connected to the tank and configured to provide the chemical solution; a first filter unit connected to the first pipe and having a first filter configured to filter the chemical solution; a second pipe connected to the first filter unit and configured to provide the chemical solution filtered by the first filter; and a detector connected to the first pipe and configured to detect foreign matter in the chemical solution in the first pipe.

An apparatus for dewatering sludge comprises a tank having an internal space divided by a dividing wall into an intake chamber and an extract chamber, an intake pipe connected to the intake chamber by an intake valve, a discharge pipe connected to the extract chamber by a discharge valve, and a transfer pipe providing fluid communication between the intake chamber and the extract chamber. The transfer pipe has first opening near the bottom of the intake chamber, and a second opening near the top of the extract chamber. A pump selectively creates positive and negative pressure within the intake chamber. A screen is positioned within the extract chamber between the second opening of the transfer pipe and the discharge pipe. —15—

An apparatus for dewatering sludge comprises a tank having an internal space divided by a dividing wall into an intake chamber and an extract chamber, an intake pipe connected to the intake chamber by an intake valve, a discharge pipe connected to the extract chamber by a discharge valve, and a transfer pipe providing fluid communication between the intake chamber and the extract chamber. The transfer pipe has first opening near the bottom of the intake chamber, and a second opening near the top of the extract chamber. A pump selectively creates positive and negative pressure within the intake chamber. A screen is positioned within the extract chamber between the second opening of the transfer pipe and the discharge pipe. —15—

A cleaning bucket structure for automatically purifying foul water is provides. The cleaning bucket structure includes an outer bucket, an inner bucket, a transmission member, a pumping member, a filtering member and a covering plate. The outer bucket has a receiving space. The inner bucket has a diameter which is smaller than a diameter of the outer bucket and is disposed in the receiving space of the outer bucket. The transmission member is disposed in the inner bucket. The pumping member is disposed in the inner bucket for receiving the transmission member therein. The filtering member is disposed in the inner bucket and surrounding the transmission member and the pumping member. The covering plate is disposed in the inner bucket and above the filtering member and includes a plurality of openings.

A cleaning bucket structure for automatically purifying foul water is provides. The cleaning bucket structure includes an outer bucket, an inner bucket, a transmission member, a pumping member, a filtering member and a covering plate. The outer bucket has a receiving space. The inner bucket has a diameter which is smaller than a diameter of the outer bucket and is disposed in the receiving space of the outer bucket. The transmission member is disposed in the inner bucket. The pumping member is disposed in the inner bucket for receiving the transmission member therein. The filtering member is disposed in the inner bucket and surrounding the transmission member and the pumping member. The covering plate is disposed in the inner bucket and above the filtering member and includes a plurality of openings.

A portable water filtration apparatus has a top panel, a mounting surface, an electric pump mounted to the mounting surface, at least one filter, and at least one filter housing coupled to the top panel, with the at least one filter filtering water from the pump. The portable filtration apparatus has a housing, such as a bucket, to fully contain the components and which may be used for collecting either filtered or unfiltered water.

A portable water filtration apparatus has a top panel, a mounting surface, an electric pump mounted to the mounting surface, at least one filter, and at least one filter housing coupled to the top panel, with the at least one filter filtering water from the pump. The portable filtration apparatus has a housing, such as a bucket, to fully contain the components and which may be used for collecting either filtered or unfiltered water.