Control method for laundry treating apparatus

What is claimed is: 1 . A control method for a laundry treating apparatus that is configured to perform a dry cycle for drying clothes based on operation of a heat pump comprising an expansion valve, the control method comprising: measuring a first temperature of refrigerant that passes an evaporator of the laundry treating apparatus, the evaporator being configured to exchange heat between refrigerant and air that pass the evaporator; measuring a second temperature of air that passes the evaporator; determining a temperature difference between the first temperature and the second temperature; comparing the temperature difference to a reference temperature; and based on comparison results, adjusting an opening degree of the expansion valve. 2 . The control method of claim 1 , wherein measuring the first temperature comprises measuring a temperature of refrigerant before heat exchange between refrigerant and air at the evaporator, and wherein measuring the second temperature comprises measuring a temperature of air before heat exchange between refrigerant and air at the evaporator. 3 . The control method of claim 1 , wherein measuring the first temperature comprises measuring a temperature of refrigerant at a position adjacent to an inlet of a refrigerant pipe configured to receive refrigerant, and wherein measuring the second temperature comprises measuring a temperature of air at an upper portion of a duct that is configured to receive air, the evaporator being located in the duct. 4 . The control method of claim 1 , wherein adjusting the opening degree of the expansion valve comprises decreasing the opening degree of the expansion valve based on a determination that the temperature difference between the first temperature and the second temperature is less than the reference temperature. 5 . The control method of claim 1 , further comprising: based on an elapsed amount of time from a start of the dry cycle, performing an additional adjustment of the opening degree of the expansion valve after adjusting the opening degree of the expansion valve. 6 . The control method of claim 5 , wherein performing the additional adjustment of the opening degree of the expansion valve comprises adjusting the opening degree of the expansion valve based on the elapse amount of time being greater than or equal to a preset time. 7 . The control method of claim 5 , wherein performing the additional adjustment of the opening degree of the expansion valve comprises adjusting the opening degree of the expansion valve based on a preset time interval. 8 . The control method of claim 5 , wherein performing the additional adjustment of the opening degree of the expansion valve comprises decreasing the opening degree of the expansion valve based on the elapsed amount of time. 9 . The control method of claim 1 , wherein measuring the first temperature and the second temperature comprises continuing to measure the first temperature and the second temperature based on a determination that the temperature difference between the first temperature and the second temperature is greater than or equal to the reference temperature. 10 . A control method for a laundry treating apparatus that is configured to perform a dry cycle for drying clothes, the laundry treating apparatus including an accommodating unit configured to accommodate clothes, a duct located outside of the accommodating unit and configured to define a circulation path of air to the accommodating unit, a fan located in the duct, an evaporator located in the duct and configured to vaporize refrigerant based on heat exchange between refrigerant and air that pass the evaporator, a refrigerant pipe coupled to the evaporator and configured to define a circulation path of refrigerant, a condenser coupled to the refrigerant pipe in the duct and configured to condense refrigerant based on heat exchange between refrigerant and air that have passed the evaporator, a compressor coupled to the refrigerant pipe and configured to compress refrigerant having passed the evaporator, and an expansion valve located between the condenser and the evaporator and configured to control opening and closing of the refrigerant pipe, the control method comprising: measuring a first temperature of refrigerant at a position adjacent to an inlet of the refrigerant pipe; measuring a second temperature of air at an upper portion of the duct; determining a temperature difference between the first temperature and the second temperature; comparing the temperature difference to a reference temperature; and based on comparison results, adjusting an opening degree of the expansion valve. 11 . The control method of claim 10 , wherein adjusting the opening degree of the expansion valve comprises decreasing, based on a determination that the temperature difference between the first temperature and the second temperature is less than the reference temperature, the opening degree of the expansion valve to increase a heat degree of the expansion valve. 12 . The control method of claim 10 , further comprising: based on an elapsed amount of time from a start of the dry cycle, performing an additional adjustment of the opening degree of the expansion valve after adjusting the opening degree of the expansion valve. 13 . The control method of claim 12 , wherein performing the additional adjustment of the opening degree of the expansion valve comprises decreasing, based on a preset time interval, the opening degree of the expansion valve to increase a heat degree of the expansion valve. 14 . The control method of claim 12 , wherein performing the additional adjustment of the opening degree of the expansion valve comprises performing the additional adjustment of the opening degree of the expansion valve a plurality of times. 15 . The control method of claim 10 , wherein measuring the first temperature and the second temperature comprises continuing to measure the first temperature and the second temperature based on a determination that the temperature difference between the first temperature and the second temperature is greater than or equal to the reference temperature. 16 . A laundry treating apparatus, comprising: an accommodating unit configured to receive clothes; a duct located outside of the accommodating unit and configured to define a circulation path of air to the accommodating unit; a fan located in the duct and configured to blow air toward the accommodating unit; an evaporator located in the duct and configured to vaporize refrigerant based on heat exchange between refrigerant and air that pass the evaporator; a refrigerant pipe coupled to the evaporator and configured to define a circulation path of refrigerant; a condenser coupled to the refrigerant pipe in the duct and configured to condense refrigerant based on heat exchange between refrigerant and air that have passed the evaporator; a compressor coupled to the refrigerant pipe and configured to compress refrigerant that has passed the evaporator; an expansion valve located between the condenser and the evaporator and configured to control opening and closing of the refrigerant pipe; a first temperature sensor configured to measure a temperature of refrigerant; a second temperature sensor configured to measure a temperature of air; and a controller configured to: obtain, from the first temperature sensor, a first temperature of refrigerant at a position adjacent to an inlet of the refrigerant pipe, obtain, from the second temperature sensor, a second temperature of air at an upper portion of t