A reservoir dispenser for a bidet apparatus includes a housing unit having a first chamber and a second chamber, wherein the first chamber is capable of holding a liquid wash solution separate from the second chamber. A side check valve between a hollow barrel and the first chamber; and a bottom check valve between the first chamber and the second chamber allows for controlled release of the liquid wash solution from the first chamber to the second chamber.

A reservoir dispenser for a bidet apparatus includes a housing unit having a first chamber and a second chamber, wherein the first chamber is capable of holding a liquid wash solution separate from the second chamber. A side check valve between a hollow barrel and the first chamber; and a bottom check valve between the first chamber and the second chamber allows for controlled release of the liquid wash solution from the first chamber to the second chamber.

The fluid dispensing system (100) comprises at least one fluid source (110), at least one pump (130-1, 130-2, 130-3, . . . , 130-N), at least one telescopic fluid dispenser (140′-1′, 140′-2′, 140′-3′, . . . , 140′-M′); a control unit (160) to operate the pump (130-1, 130-2, 130-3, . . . , 130-N) for supplying fluid (120) according to a received command of washing at least one target object (150-1, 150-2, 150-3, . . . , 150-O), a manifold (180), and at least one control valve assembly (V-1, V-2, . . . , V′-P′) comprising a fluid inlet for receiving fluid from the at least one fluid source (110), a first fluid outlet for discharging fluid into the at least one telescopic fluid dispenser (140′-1, 140′-2, 140′-3, . . . , 140′-M′), and a second fluid outlet for allowing fluid to flow back away from the telescopic fluid dispensers (140′-1, 140′-2′, 140′-3′, . . . , 140′-M′) when retracting from the extended position to the rest position.

The invention relates to the use of a polysiloxane having a plurality of siloxane groups and at least one tertiary amide group covalently linked as a pending and/or terminal group to the polysiloxane, as a defoaming agent in a liquid composition.

The invention relates to the use of a polysiloxane having a plurality of siloxane groups and at least one tertiary amide group covalently linked as a pending and/or terminal group to the polysiloxane, as a defoaming agent in a liquid composition.

A method for metering and storing liquids by means of a permanently open container (1), wherein: the container (1) comprises a liquid reservoir (11) in which at least one liquid (2) is contained for storage; the container (1) has at least one opening (15) for the metered discharging of the liquid from the liquid reservoir (11); the opening (15) is permanently open; influencing factors affect at least one change in pressure (4) in the container (1); influencing factors render the system formed of the container (1) and liquid (2) unstable; the pressure (4) is detected in at least one location in the container (1); and, subject to at least one detected change in pressure (4), at least one reaction (9) is initiated that is suitable for maintaining the system of the container (1) and liquid (2) in a stable state or for re-establishing this stable state.

A method for metering and storing liquids by means of a permanently open container (1), wherein: the container (1) comprises a liquid reservoir (11) in which at least one liquid (2) is contained for storage; the container (1) has at least one opening (15) for the metered discharging of the liquid from the liquid reservoir (11); the opening (15) is permanently open; influencing factors affect at least one change in pressure (4) in the container (1); influencing factors render the system formed of the container (1) and liquid (2) unstable; the pressure (4) is detected in at least one location in the container (1); and, subject to at least one detected change in pressure (4), at least one reaction (9) is initiated that is suitable for maintaining the system of the container (1) and liquid (2) in a stable state or for re-establishing this stable state.

A misting fan includes a nozzle, a fan assembly, and a support assembly. The nozzle is configured to spray water. The support assembly is formed with a coupling portion for detachably coupling a battery pack. The nozzle is disposed on the fan assembly or the support assembly and includes a nozzle body and a second part. The nozzle body includes a first part formed with a first surface and the second part is detachably installed to the nozzle body and formed with a second surface. When the second part is installed to the nozzle body, a water flow channel is formed between the second surface and the first surface. When the second part is detached from the nozzle body, the first surface is at least partially exposed for cleaning access.

A misting fan includes a nozzle, a fan assembly, and a support assembly. The nozzle is configured to spray water. The support assembly is formed with a coupling portion for detachably coupling a battery pack. The nozzle is disposed on the fan assembly or the support assembly and includes a nozzle body and a second part. The nozzle body includes a first part formed with a first surface and the second part is detachably installed to the nozzle body and formed with a second surface. When the second part is installed to the nozzle body, a water flow channel is formed between the second surface and the first surface. When the second part is detached from the nozzle body, the first surface is at least partially exposed for cleaning access.

A fluid system includes a one-way check valve including a check-valve inlet and a check-valve outlet; a Y-connector including a Y-connector inlet, a first Y-connector outlet, a second Y-connector outlet, and a pressure-sensor connector; an inlet hose fluidly connecting the check-valve outlet and the Y-connector inlet; and a pressure sensor fluidly connected to the Y-connector via the pressure-sensor connector. The Y-connector inlet, Y-connector outlets, and pressure-sensor connector are fluidly connected to each other inside the Y-connector.