A manifold has a fluid inlet, a plurality of fluid outlets, a movable conduit member, a first drive mechanism, and a control module in which the conduit member has a fluid path therethrough, in which the fluid inlet is fluidly connected to a first end of the fluid path, in which the conduit member is mounted for movement on a support member, and in which the first drive mechanism is configured to move the conduit member on the support member to selectively associate a second end of the fluid path with one of the plurality of fluid outlets according to commands issued by the control module.

A washing machine appliance has a dispensing assembly with a supply conduit, a unitary manifold body and a water valve. The unitary manifold body defines a Venturi pump. The supply conduit extends between a reservoir and the Venturi pump such that the Venturi pump draws fluid additive from the reservoir to the Venturi pump when the water valve is open and motive liquid flows through the Venturi pump. The Venturi pump is disposed between an inlet and an outlet of the unitary manifold body within the unitary manifold body.

A circuit that increases input voltage to higher output voltage connected to a variable frequency drive in an appliance. Several switching arrangements, timing, and safety mechanisms are in place to assist. When the circuit experiences high draw, high voltage output values of circuit decrease over time, but different aspects of the circuit can be constructed so that the amount of time required at a higher voltage does not exceed the amount of time in which the high voltage output is provided.

A circuit that increases input voltage to higher output voltage connected to a variable frequency drive in an appliance. Several switching arrangements, timing, and safety mechanisms are in place to assist. When the circuit experiences high draw, high voltage output values of circuit decrease over time, but different aspects of the circuit can be constructed so that the amount of time required at a higher voltage does not exceed the amount of time in which the high voltage output is provided.

A washing machine for controlling optimal operating revolutions per minute (rpm) of a drain pump in a draining course and a dehydrating course includes a washing tub; a drain pump configured to drain water in the washing tub; a pump motor configured to operate the drain pump; an inverter circuit configured to supply a driving current to the pump motor to operate the drain pump; and a controller configured to control the inverter circuit to supply reference power to the pump motor in response to starting a draining course, determine reference revolutions per minute (rpm) based on average rpm of the pump motor during a preset period of time, and control the inverter circuit to operate the pump motor at the reference rpm in response to the determining of the reference rpm.

A washing machine for controlling optimal operating revolutions per minute (rpm) of a drain pump in a draining course and a dehydrating course includes a washing tub; a drain pump configured to drain water in the washing tub; a pump motor configured to operate the drain pump; an inverter circuit configured to supply a driving current to the pump motor to operate the drain pump; and a controller configured to control the inverter circuit to supply reference power to the pump motor in response to starting a draining course, determine reference revolutions per minute (rpm) based on average rpm of the pump motor during a preset period of time, and control the inverter circuit to operate the pump motor at the reference rpm in response to the determining of the reference rpm.

A household appliance includes a controller operating on an energy supply network having a data network for exchanging data via the energy supply network, wherein the network may include smart metering. The controller has a first control component embodies as a computer, a second control component for settings data, a third control component for operating data, and a fourth control component connected with the first control component and including a graph algorithm. The first control component determines data for controlling actuators from the settings data and the operating data. Through cooperation of the first control component, the fourth control component and the graph algorithm, the data from the data network for the household appliance are taken into account so as to allow operation of the household appliance always to continue. A corresponding method for operating such household appliance is also described.

Provided are a clothes dryer using far-infrared heating and a clothes-drying control method thereof. The clothes dryer using far-infrared heating includes a clothes-drying drum, and further includes at least one far-infrared heater, a humidity sensor for detecting exhaust humidity of the clothes-drying drum, a relay and a controller having an output end connected with the relay; where all the far-infrared heaters are connected with a power supply through the relay; a first temperature sensor is mounted inside one of the far-infrared heaters; the first temperature sensor and the humidity sensor are connected with an input end of the controller; and the controller controls on and off of the relay according to a received temperature signal or humidity signal. A control system described above simplifies a circuit, and also saves cost.

A washing machine includes a main body; a washing tub provided inside the main body to receive washing water; a dewatering tub rotatably provided inside the washing tub; a driving device configured to supply a rotational force; a clutch unit to operate in a first mode in which the rotational force generated in the driving device is transmitted to the dewatering tub and a second mode in which the rotational force is not transmitted to the dewatering tub; a clutch motor to switch an operation mode of the clutch unit; and a cam switch switched from a switch-off state to a switch-on state, wherein the cam switch outputs pulses having the same period as a frequency of AC power supplied to the clutch motor in the switch-on state, and when the cam switch is switched from the switch-off state to the switch-on state, the clutch unit is stopped.

The present disclosure discloses a clothing course control system including a clothing treating course controller according to a clothing material and a server. The clothing treating course controller includes a hanger, a motor configured to vibrate the hanger, a motor current sensor configured to sense a motor current pattern, a clothing material classifier configured to classify a clothing material based on the motor current pattern, and a course controller configured to execute a clothing treating course according to the classified clothing material, the server includes an artificial intelligence model learner configured to generate a clothing material classifying engine trained with data related to the received motor current pattern through an artificial neural network. According to the present disclosure, a clothing treating course of a clothing treating device may be controlled using an artificial intelligence (AI) based clothing material classifying technique and a 5G network.