A mop bucket includes a mop body with first and second compartments. The first compartment includes a sump region that is sized for receiving a portion of a floor care tool to best utilize the floor care tool and the contents of the mop bucket. A wringer assembly is attached to the mop bucket for cleaning the floor care tool and separating used cleaning supplies from unused. The mop bucket can include an insert for receiving the used cleaning supply to more easily dispose of the same. Tool hooks and floor sign attachments can also be included with the mop bucket such that the bucket provides all tools for use thereof.

A washing bucket has a container with an interior defined by wall and a bottom, a fluid inlet affixed to the wall of the container and communicating with the interior of the container, and a fluid outlet opening to the wall of the container and positioned at a level higher than a level of the fluid inlet. The fluid inlet is positioned adjacent to the bottom of the container. The fluid inlet has a connector positioned exterior of the wall of the container and adapted to connect to a water hose. The fluid outlet has a diameter greater than a diameter of the fluid inlet. The fluid outlet has a pipe affixed to the wall of the container.

A washing bucket has a container with an interior defined by wall and a bottom, a fluid inlet affixed to the wall of the container and communicating with the interior of the container, and a fluid outlet opening to the wall of the container and positioned at a level higher than a level of the fluid inlet. The fluid inlet is positioned adjacent to the bottom of the container. The fluid inlet has a connector positioned exterior of the wall of the container and adapted to connect to a water hose. The fluid outlet has a diameter greater than a diameter of the fluid inlet. The fluid outlet has a pipe affixed to the wall of the container.

A water discharge control structure of a washing bucket capable of separating clean water from dirty water for washing a cleaning tool includes: a washing bucket body and a water storage tank, wherein the washing bucket body is internally provided with a lifting frame fitted with the cleaning tool, and the lifting frame is driven by the cleaning tool to be lifted and lowered relative to the washing bucket body; the water storage tank is connected to the washing bucket body and has a water outlet directing to the cleaning tool, a discharge of water of the water outlet is controlled by a plug, and when the lifting frame is in a high position, the lifting frame drives the plug to block the water outlet; and when the lifting frame is in a low position, the lifting frame drives the plug in a linked manner to open the water outlet.

A water discharge control structure of a washing bucket capable of separating clean water from dirty water for washing a cleaning tool includes: a washing bucket body and a water storage tank, wherein the washing bucket body is internally provided with a lifting frame fitted with the cleaning tool, and the lifting frame is driven by the cleaning tool to be lifted and lowered relative to the washing bucket body; the water storage tank is connected to the washing bucket body and has a water outlet directing to the cleaning tool, a discharge of water of the water outlet is controlled by a plug, and when the lifting frame is in a high position, the lifting frame drives the plug to block the water outlet; and when the lifting frame is in a low position, the lifting frame drives the plug in a linked manner to open the water outlet.

A bucket includes: at least two chambers which are flow connected to one another by at least one overflow channel. One of the chambers is a combined washing-out/centrifuging chamber for a cleaning device. One of the chambers is a water level-regulating chamber configured to regulate a water level in the washing-out/centrifuging chamber. The water level-regulating chamber contains a displacement body which is movable by a first actuating device.

A bucket includes: at least two chambers which are flow connected to one another by at least one overflow channel. One of the chambers is a combined washing-out/centrifuging chamber for a cleaning device. One of the chambers is a water level-regulating chamber configured to regulate a water level in the washing-out/centrifuging chamber. The water level-regulating chamber contains a displacement body which is movable by a first actuating device.

A wringer has a support surface and a first wringer surface depending from the support surface to a second wringer surface having perforations and curving to a free edge substantially below the support surface. The second wringer surface may be curved in an approximately 180 degree arc. The first wringer surface may be flat and also perforated. The support surface may be formed as an inverted channel structure with a closed upper surface and an angled surface extending away from the first wringer surface. The angled surface may extend at an angle approximately 45 degrees. The wringer may be used with one or more buckets, where the wringer is supported from the rim of one bucket or from the adjacent rims of two buckets. A flat first wringer surface may be used to ring a flat mop, and the curved second wringer surface may be used to bring a round mop.

A wringer has a support surface and a first wringer surface depending from the support surface to a second wringer surface having perforations and curving to a free edge substantially below the support surface. The second wringer surface may be curved in an approximately 180 degree arc. The first wringer surface may be flat and also perforated. The support surface may be formed as an inverted channel structure with a closed upper surface and an angled surface extending away from the first wringer surface. The angled surface may extend at an angle approximately 45 degrees. The wringer may be used with one or more buckets, where the wringer is supported from the rim of one bucket or from the adjacent rims of two buckets. A flat first wringer surface may be used to ring a flat mop, and the curved second wringer surface may be used to bring a round mop.

A washing bucket has a container having an interior defined by wall and a bottom, a fluid inlet affixed to the wall of the container so as to communicate with the interior of the container in order to deliver a fluid into an interior of the container, and a connector affixed to the fluid inlet at an end exterior of the container. The fluid inlet is positioned adjacent to a bottom of the container. The connector is adapted to allow a hose or a conduit to be connected to the fluid inlet. A pipe is connected to the fluid inlet. The pipe has a plurality of apertures adapted to direct the fluid from the fluid inlet into the interior of the container. The pipe extends generally vertically upwardly from the fluid inlet.