Air-conditioning apparatus and air-conditioning system executing a precooling operation or a preheating operation

The invention claimed is: 1. An air-conditioning apparatus executing a precooling operation or a preheating operation such that an indoor temperature representing a current temperature inside a building containing the air-conditioning apparatus reaches a target temperature, the air-conditioning apparatus comprising: a refrigeration cycle including a compressor; a controller configured to control the refrigeration cycle including the compressor; and a temperature sensor configured to detect the indoor temperature, wherein the controller is configured to control a setting temperature of the air-conditioning apparatus during execution of the precooling operation or the preheating operation such that a first temperature difference between the indoor temperature, as detected by the temperature sensor, and the setting temperature is not less than a threshold temperature difference above which the compressor performs operation, determine a second temperature difference between the indoor temperature, as detected by the temperature sensor, and the target temperature, and change the setting temperature to the target temperature when the determined second temperature difference is less than the first temperature difference. 2. The air-conditioning apparatus of claim 1 , wherein the controller is further configured to estimate a presence-in-room start time, and start the precooling operation or the preheating operation prior to the presence-in-room start time by a predetermined time, wherein the precooling operation or the preheating operation are performed such that the target temperature is reached by at least the presence-in-room start time. 3. The air-conditioning apparatus of claim 2 , wherein the presence-in-room start time is estimated from input information received from an input device of the air-conditioning apparatus. 4. The air-conditioning apparatus of claim 2 , further comprising a presence-in-room detector that recognizes a presence of a user in a room, wherein the presence-in-room start time is estimated from past record information of the presence-in-room detector. 5. The air-conditioning apparatus of claim 1 , further comprising a receptor that receives an operation control instruction that instructs start of the precooling operation or the preheating operation. 6. The air-conditioning apparatus of claim 1 , further comprising structural-member temperature detector that detects a temperature of a structural member present indoors, wherein the indoor temperature is determined from the temperature of the structural member, which is detected by the structural-member temperature detector. 7. The air-conditioning apparatus of claim 1 , wherein the controller is further configured to set the threshold temperature difference at which the compressor performs operation to a minimum temperature difference at which the compressor performs operation. 8. The air-conditioning apparatus of claim 1 , wherein the controller is further configured to detect an operation state of the compressor, while the setting temperature is changed, to determine a third temperature difference between the indoor temperature and the setting temperature when the state of the compressor is changed from non-operation to operation, detect an operation state of the compressor, while the setting temperature is changed, to determine a fourth temperature difference between the indoor temperature and the setting temperature when the state of the compressor is changed from operation to non-operation, and set the threshold temperature difference at which the compressor performs operation into a range from the third temperature difference to the fourth temperature difference. 9. An air-conditioning system comprising: an air-conditioning apparatus executing a precooling operation or a preheating operation such that an indoor temperature representing a current temperature inside a building containing the air-conditioning apparatus reaches a target temperature by using a refrigeration cycle including a compressor; a controller configured to control the air-conditioning apparatus; a temperature sensor configured to detect the indoor temperature; and a receptor configured to receive an operation control instruction from outside of the building, wherein the controller is configured to control a setting temperature of the air-conditioning apparatus during execution of the precooling operation or the preheating operation such that a first temperature difference between the indoor temperature, as detected by the temperature sensor, and the setting temperature is not less than a threshold temperature difference above which the compressor performs operation, measure a second temperature difference between the indoor temperature, as detected by the temperature sensor, and the target temperature, and change the setting temperature to the target temperature when the measured second temperature difference is less than the first temperature difference. 10. The air-conditioning apparatus of claim 8 , wherein the controller is further configured to at a startup time of the precooling operation or the preheating operation, set the setting temperature such that the first temperature difference is not less than the third temperature difference, and after the startup time of the precooling operation or the preheating operation, set the setting temperature such that the first temperature difference is not less than the fourth temperature difference. 11. The air-conditioning system of claim 9 , wherein the controller is further configured to at a startup time of the precooling operation or the preheating operation, determine the setting temperature such that the first temperature difference is not less than the fifth temperature difference, and after the startup time of the precooling operation or the preheating operation, determine the setting temperature such that the first temperature difference is not less than the sixth temperature difference. 12. The air-conditioning system of claim 9 , wherein the controller is further configured to determine the setting temperature in the precooling operation to a maximum integer value among allowable values, and determine the setting temperature in the preheating operation to a minimum integer value among allowable values. 13. The air-conditioning apparatus of claim 1 , wherein the controller is further configured to determine a current limitation value indicating a limit on the current used by elements of the air-conditioning system. 14. The air-conditioning apparatus of claim 1 , wherein the controller is further configured to determine the setting temperature into a range from an upper limit value to a lower limit value, the range being narrower than a settable range of the precooling operation or the preheating operation. 15. The air-conditioning apparatus of claim 2 , further comprising presence-in-room detector that recognizes presence of a user of the air-conditioning apparatus in a room, wherein the controller is further configured to, when the presence of the user in the room is not detected even after lapse of a predetermined time from startup of the precooling operation or the preheating operation, change the setting temperature or stop the air-conditioning apparatus. 16. The air-conditioning apparatus of claim 15 , wherein the presence-in-room detector collects at least one of operation history of an air-conditioning remote controller, usage information of a lighting apparatus and home electrical appliances, information of power consumption in a home