A method for measuring the humidity of a laundry mass contained in a laundry treatment chamber of a laundry appliance. The method includes: providing a capacitor in the laundry appliance, said capacitor having, as part of the capacitor dielectric, the laundry mass; measuring a capacitance of said capacitor by means of an electronic circuitry electrically supplied by a supply voltage and a reference voltage. Providing a capacitor comprises: providing in the laundry appliance at least one conductive plate which forms a plate of said capacitor, and exploiting, as a second plate of said capacitor, routing lines distributing inside the laundry drying appliance said reference voltage.

The present invention to provide a dryer having high drying efficiency and possible to energy saving operation.

A controller (3) of the dryer (D) include an information receiver (33) configured to collect drying object information about a state of the Object to be dried in the drum (2).

A controller (3) of the dryer (D) controls an output of the heater to have an output per unit time lower than a predetermined output of normal based on a state of the object to be dried collected by the information receiver, and controls a drying ending time based on a state of the object to be dried and an output of the heater.

Dryer appliances and methods are provided. A method includes receiving during rotation of a drum of the dryer appliance a voltage signal which corresponds to a moisture level within a chamber of the drum, and determining whether the voltage signal corresponds to a predetermined drying profile of a plurality of predetermined drying profiles. The method further includes applying a drying sequence which corresponds to one of the plurality of predetermined drying profiles when the voltage signal corresponds to the one of the plurality of predetermined drying profiles. The method further includes determining whether the voltage signal corresponds to a wet patch indicator, and reversing a direction of rotation of the drum when the voltage signal corresponds to the wet patch indicator.

Provided are a dryer and method for controlling the same, which may appropriately and efficiently dry objects thrown into a receiving space by using high frequency electric fields and heated air. In accordance with one aspect of the present disclosure a dryer includes a main body, a drum rotationally placed inside the main body, a driver provides rotational force to the drum, an electrode part produces an electric field inside the drum, a power supplier supplies power to the electrode part, an air heater heats air, a blower supplies heated air into the drum and a controller controls the power supplier to block power supplied to the electrode part depending on a dried state of an object contained in the drum, controls the driver to rotate the drum, and controls the air heater and the blower to supply heated air into the drum.

A control method of a laundry treatment apparatus is disclosed which includes a course setting procedure receiving a control command including RPM control data of an impeller, RPM control data of a compressor or opening degree control data of an expansion valve, a hot air supply procedure for supplying heated air to a drum through control of the impeller, compressor and expansion valve, a temperature measurement procedure measuring temperature of air introduced into the drum during execution of the hot air supply procedure, a first control procedure for controlling the impeller, compressor and expansion valve based on the control command when the measured temperature is equal to or higher than a reference temperature, and a second control procedure controlling the impeller, compressor and expansion valve based on a control command different from the control command set in the course setting procedure when the measured temperature is lower than the reference temperature.

A dryer includes a plurality of piezoelectric transducers in electrical communication with a high frequency piezoelectric oscillation generator. The piezoelectric oscillation generator controls the duty cycle and resonant frequency source signal that drive the plurality of piezoelectric transducers non-continuously. The piezoelectric transducers dry the wet articles without heating air passing through the articles.

A dryer appliance and sensor assembly are provided. The sensor assembly may include a sensor housing, an appliance sensor, a wireless transmission tag, and a wireless tag reader. The sensor housing may extend within a drum and define a compartment proximate a space for the receipt of clothes. The appliance sensor may be positioned on the sensor housing. The wireless transmission tag may be positioned within the compartment. The wireless transmission tag may be in communication with the appliance sensor. The wireless tag reader may be in operable communication with the wireless transmission tag.

A dryer appliance and sensor assembly are provided. The sensor assembly may include a sensor housing, an appliance sensor, a wireless transmission tag, and a wireless tag reader. The sensor housing may extend within a drum and define a compartment proximate a space for the receipt of clothes. The appliance sensor may be positioned on the sensor housing. The wireless transmission tag may be positioned within the compartment. The wireless transmission tag may be in communication with the appliance sensor. The wireless tag reader may be in operable communication with the wireless transmission tag.

A clothes dryer includes a clothes drying drum, where a humidity sensor for detecting a humidity value of clothes is arranged at a clothes throwing port of the clothes drying drum; a detection apparatus is further arranged in the clothes drying drum; and the detection apparatus is arranged inside the clothes throwing port. The detection apparatus is connected with a controller. The detection apparatus is configured to detect an impedance value of a surrounding environment of the detection apparatus at every interval of a preset time period and transmit the impedance value to the controller. The controller respectively compares each impedance value with a preset impedance threshold, and judges the amount of clothes in the clothes drying drum according to the number of the impedance values exceeding the preset impedance threshold, thereby adjusting a rotating speed of the clothes drying drum according to the amount of clothes.

Clothes dryer wireless moisture data transfer systems and energy-efficient methods of operation thereof are provided. One example method of operating a near field communication (NFC) tag includes determining whether a rotatable drum of a clothes dryer appliance is currently rotating. The NFC tag is secured to the drum. The method includes operating the NFC tag in an ultra-low power mode when it is determined that the drum is not currently rotating. The method includes periodically switching the NFC tag between a normal mode and a low power mode when it is determined that the drum is currently rotating.