Air conditioning system and control method thereof

What is claimed is: 1. An air conditioning system, comprising: a plurality of indoor units installed in a same indoor space, the indoor units including respective usage-side heat exchangers and being capable of setting set temperatures individually; an outdoor unit including a heat-source-side heat exchanger arranged and configured to conduct heat exchange with refrigerant circulating through the usage-side heat exchangers; and a control device configured to perform temperature control of the same indoor space by controlling each of the indoor units to be in a thermo-ON state when a thermo-ON condition is satisfied and to be in a thermo-OFF state when the thermo-ON condition is not satisfied, a separate thermo-ON condition being set in advance with respect to each of the indoor units in accordance with the respective set temperatures, the thermo-ON condition being a condition in which a predetermined temperature difference exists between the set temperature and a control temperature, the control temperature being an indoor temperature detected by an indoor temperature sensor, to determine if at least one of the indoor units is in the thermo-ON state and at least one of the indoor units is in the thermo-OFF state, to relax the thermo-ON condition of the at least one indoor unit determined to be in the thermo-OFF state by reducing the predetermined temperature difference of the thermo-ON condition of the at least one indoor unit determined to be in the thermo-OFF state when it has been determined that at least one of the indoor units is in the thermo-ON state and at least one of the indoor units is in the thermo-OFF state and a predetermined condition is satisfied, the predetermined condition being that at least one of the plurality of indoor units has been in the thermo-ON state continuously for a first elapsed time or longer, and at least one of the plurality of indoor units has been in the thermo-OFF state continuously for a second elapsed time or longer. 2. The air conditioning system according to claim 1 , wherein the control device relaxes the thermo-ON condition without altering a thermo-OFF condition. 3. The air conditioning system according to claim 1 , wherein the control device appoints an operating condition of the outdoor unit so as to satisfy a highest increase requirement of increase requirements of air-conditioning capability of the plurality of indoor units. 4. The air conditioning system according to claim 3 , wherein the control device has a required temperature calculation unit configured to calculate required evaporation temperatures or required condensation temperatures of the usage-side heat exchanger for each of the indoor units, and a target value appointing unit configured to appoint a target evaporation temperature based on a minimum value of the required evaporation temperatures of the indoor units calculated in the required temperature calculation units, or a target condensation temperature based on a maximum value of the required condensation temperatures of the indoor units calculated in the required temperature calculation units. 5. The air conditioning system according to claim 1 , wherein the plurality of the indoor units further include respective air blowers useable to adjust airflow volumes directed to the usage-side heat exchangers; and the control device adjusts the air blowers of the indoor units to reduce the airflow volumes when air-conditioning capabilities are excessive and to increase the airflow volumes when the air-conditioning capabilities are insufficient. 6. The air conditioning system according to claim 1 , wherein the indoor units further include respective expansion mechanisms capable of adjusting degrees of superheat or degrees of subcooling in the outlet sides of the usage-side heat exchangers; and the control device adjusts the opening degrees of the expansion mechanisms in the indoor units to reduce the degrees of superheat or degrees of subcooling when the air-conditioning capabilities are excessive and to increase the degrees of superheat or degrees of subcooling when the air-conditioning capabilities are insufficient. 7. The air conditioning system according to claim 1 , wherein the control device is centralized controller that acquires data from the outdoor unit and a plurality of the indoor units and sends data to the outdoor unit and a plurality of the indoor units. 8. A method for controlling an air conditioning system including a plurality of indoor units installed in a same indoor space, the indoor units including respective usage-side heat exchangers and being capable of setting set temperatures individually, and an outdoor unit including a heat-source-side heat exchanger arranged and configured to conduct heat exchange with refrigerant circulating through the usage-side heat exchangers, the method comprising: a first step of causing temperature control of the same indoor space to be performed by controlling each of the indoor units to be in a thermo-ON state when a thermo-ON condition is satisfied and to be in a thermo-OFF state when the thermo-ON condition is not satisfied, a thermo-ON condition being set in advance with respect to each of the indoor units in accordance with the set temperatures, the thermo-ON condition being a condition in which a predetermined temperature difference exists between the set temperature and a control temperature, the control temperature being an indoor temperature detected by an indoor temperature sensor; a second step of determining if at least one of the indoor units is in the thermo-ON state and at least one of the indoor units is in the thermo-OFF state; and a third step of relaxing the thermo-ON condition of the at least one indoor unit determined to be in the thermo-OFF state by reducing the predetermined temperature difference of the thermo-ON condition of the at least one indoor unit determined to be in the thermo-OFF state when it has been determined that at least one of the indoor units is in the thermo-ON state and at least one of the indoor units is in the thermo-OFF state and a predetermined condition is satisfied, the predetermined condition being that at least one of the plurality of indoor units has been in the thermo-ON continuously for a first elapsed time or longer, and at least one of the plurality of indoor units has been in the thermo-OFF state continuously for a second elapsed time or longer. 9. The method for controlling an air conditioning system according to claim 8 , further comprising storing the predetermined temperature difference on a memory of a control device; and when the predetermined temperature difference is reduced, rewriting the predetermined temperature difference stored on the memory. 10. The method for controlling an air conditioning system according to claim 8 , wherein the control temperature of each of the indoor units being a temperature of indoor air drawn into the each indoor unit. 11. The air conditioning system according to claim 1 , wherein the control device includes a memory with the predetermined temperature difference stored thereon, and when the predetermined temperature difference is reduced the predetermined temperature difference stored on the memory is rewritten. 12. The air conditioning system according to claim 1 , wherein the control temperature of each of the indoor units being a temperature of indoor air drawn into the each indoor unit.