A clothes dryer comprising: a cabinet including a front panel on which an inlet is formed, a drum rotatably arranged in the cabinet and having a front opening and a rear opening, a front cover linking the inlet of the cabinet and the front opening of the drum, and including a slope portion having a diameter decreasing as being directed toward the inlet of the cabinet from the front opening of the drum, a rear cover connected to the rear opening of the drum and having an air inlet formed at the rear cover to allow air to be supplied toward the rear opening of the drum, and a sensing device arranged on the slope portion for sensing humidity in air discharged from the front opening of the drum.

A clothes dryer comprising: a cabinet including a front panel on which an inlet is formed, a drum rotatably arranged in the cabinet and having a front opening and a rear opening, a front cover linking the inlet of the cabinet and the front opening of the drum, and including a slope portion having a diameter decreasing as being directed toward the inlet of the cabinet from the front opening of the drum, a rear cover connected to the rear opening of the drum and having an air inlet formed at the rear cover to allow air to be supplied toward the rear opening of the drum, and a sensing device arranged on the slope portion for sensing humidity in air discharged from the front opening of the drum.

The present disclosure provides a turbidity sensor comprising: a light irradiation unit which emits light toward a medium; a light receiving unit which receives light having passed through the medium; a memory which contains a correction value corresponding to a signal received by the light receiving unit; and a processor which corrects the signal received by the light receiving unit by using the correction value and calculates the turbidity of the medium by using the corrected signal.

A dryer is disclosed. The dryer includes a heat exchanger configured to remove moisture from air flowing and heat and discharge the moisture-removed air, a drum containing a material to be dried, a humidity sensor configured to detect a humidity of the air flowing from the drum, a fan configured to generate a flow of the air flowing along a flow path formed so that the air discharged from the heat exchanger flows to the heat exchanger via the drum and the humidity sensor, and a processor configured to determine a dried state of the material to be dried based on the humidity detected through the humidity sensor, and the humidity sensor is disposed at a position where a flow velocity of the air is equal to or higher than a predetermined velocity in the flow path formed between the drum and the heat exchanger.

A clothes dryer using an LED light source is proposed. Instead of using a heater, a blowing fan, and a heat exchanger, the clothes dryer employs a plurality of LED light source modules provided in a body and efficiently arranged therein and an air circulation structure of an air circulation part having a blowing fan arranged in the inner rear side thereof, and is configured to sterilize air through an air sterilization part, absorb and dry moisture by a ceramic filter, and then finally discharge the air to the outside through an exhaust fan. Therefore, without requiring a separate water discharge treatment process in an existing method, the clothes dryer can achieve efficient drying of clothes and drying of clothes without damage.

A clothes dryer using an LED light source is proposed. Instead of using a heater, a blowing fan, and a heat exchanger, the clothes dryer employs a plurality of LED light source modules provided in a body and efficiently arranged therein and an air circulation structure of an air circulation part having a blowing fan arranged in the inner rear side thereof, and is configured to sterilize air through an air sterilization part, absorb and dry moisture by a ceramic filter, and then finally discharge the air to the outside through an exhaust fan. Therefore, without requiring a separate water discharge treatment process in an existing method, the clothes dryer can achieve efficient drying of clothes and drying of clothes without damage.

A laundry treating appliance comprising a treating chamber for holding clothes for treatment according to a cycle of operation, a treating chemistry dispenser that forms a housing with a first chamber with a port and a deflector and the dispenser is fluidly coupled to the treating chamber, and an air supply that has an inlet and outlet fluidly coupled to the treating chamber. A liquid bath is defined by a portion of the housing and a retaining wall in the treating chemistry dispenser. A free surface of the bath forms a gap with an edge of the deflector. Air supplied from the treating chamber is exhausted through the port into the first chamber of the treating chemistry dispenser and impinged upon the deflector which deflects the exhausted air through the gap between the bath and the deflector, where the bath removes lint contained within the exhausted air.

A laundry treating appliance for treating laundry according to an automatic cycle of operation includes a cabinet defining a cabinet interior. A drum is rotatable within the cabinet interior, and at least partially defines a treating chamber. The treating chamber has a treating chamber air inlet and a treating chamber air outlet. A drying air circuit is fluidly coupled to the treating chamber air inlet and to the treating chamber air outlet. The laundry treating appliance can include first and second air temperature sensors, at least a first humidity sensor, and a controller operably coupled with the sensors.

The present disclosure provides a drying device and a method for controlling same. The drying device of the present disclosure may comprise: a drum; a driving unit; a heater to heat air supplied to the interior of the drum; a communication interface; and a processor that: when a user command for a drying cycle is received, controls the driving unit so as to rotate the drum in a preset pattern; when data generated on a basis of motion of a sensing device is received through the communication interface from at least one sensing device, identifies a sensing device that has a motion corresponding to the preset pattern among the at least one sensing device; and controls the driving unit and the heater so as to perform a drying cycle on the basis of humidity data received through the communication interface from the identified sensing device.

The present disclosure provides a drying device and a method for controlling same. The drying device of the present disclosure may comprise: a drum; a driving unit; a heater to heat air supplied to the interior of the drum; a communication interface; and a processor that: when a user command for a drying cycle is received, controls the driving unit so as to rotate the drum in a preset pattern; when data generated on a basis of motion of a sensing device is received through the communication interface from at least one sensing device, identifies a sensing device that has a motion corresponding to the preset pattern among the at least one sensing device; and controls the driving unit and the heater so as to perform a drying cycle on the basis of humidity data received through the communication interface from the identified sensing device.