Air conditioner and compressor having power and saving modes of operation

What is claimed is: 1. An air-conditioner comprising: a compressor having a power mode in which the compressor is operated with a maximum compression capacity and a saving mode in which the compressor is operated with a smaller compression capacity than in the power mode; a voltage detector that detects an application voltage to determine an operation mode of the compressor; a temperature detector that detects an actually measured temperature to determine the operation mode of the compressor; and a controller that changes the operation mode of the compressor, wherein the controller divides a day into a plurality of pre-set time domains and controls the compressor to be operated in the saving mode during at least one pre-set time domain of the plurality of pre-set time domains, wherein the controller compares the application voltage detected by the voltage detector and a first and second reference voltage according to an application voltage detection period, and when the application voltage is higher than the first reference voltage, the controller controls the compressor to be operated in the power mode, when the application voltage ranges from the first reference voltage to the second reference voltage, the controller controls the compressor to be operated in the saving mode, and when the application voltage is lower than the second reference voltage, the controller controls the compressor to be stopped, and upon determination that the application voltage detected by the voltage detector is higher than the first reference voltage, the controller compares the actually measured temperature detected by the temperature detector and a first and second reference temperature according to an actually measured temperature detection period, and when the actually measured temperature is lower than the first reference temperature, the controller controls the compressor to be operated in the saving mode, when the actually measured temperature is equal to or higher than the first reference temperature but lower than the second reference temperature, the controller controls the compressor to be operated in the power mode, and when the actually measured temperature is equal to or higher than the second reference temperature, the controller controls the compressor to be operated in the saving mode. 2. The air-conditioner of claim 1 , wherein the controller controls the compressor to be operated in the saving mode when the actually measured temperature is higher than an upper limit of a temperature range corresponding to a power mode domain. 3. An air-conditioner comprising: a compressor having a power mode in which the compressor is operated with a maximum compression capacity and a saving mode in which the compressor is operated with a smaller compression capacity than in the power mode, the compressor including: a casing having a hermetically closed internal space; a drive motor installed in the internal space of the casing and that generates a drive force; and a compression device installed along with the drive motor in the internal space of the casing, having at least two or more compression spaces, and controlled to be operated in the power mode or in the saving mode in which the compression device is idly rotated in at least one compression space according to an application voltage, wherein if the application voltage is lower than a reference voltage, the compression device controls the compressor to be operated in the saving mode, and if the application voltage is equal to or higher than the reference voltage, the compression device controls the compressor to be operated in the power mode; a voltage detector that detects the application voltage to determine an operation mode of the compressor; a temperature detector that detects an actually measured temperature to determine an operation mode of the compressor; and a controller that changes the operation mode of the compressor, wherein the controller divides a day into a plurality of pre-set time domains and controls the compressor to be operated in the saving mode during at least one pre-set time domain of the plurality of pre-set time domains, and upon determination that the application voltage is higher than the reference voltage, the controller compares the actually measured temperature detected by the temperature detector with a first reference temperature and a second reference temperature, which are pre-set during an actually measured temperature detection period and correspond to the at least one time domain, and when the actually measured temperature is lower than the first reference temperature, the controller controls the compressor to be operated in the saving mode, when the actually measured temperature is equal to or higher than the first reference temperature but lower than the second reference temperature, the controller controls the compressor to be operated in the power mode, and when the actually measured temperature is equal to or higher than the second reference temperature, the controller controls the compressor to be operated in the saving mode. 4. The air-conditioner of claim 3 , wherein the at least one time domain is set based on an average temperature. 5. The air-conditioner of claim 3 , wherein the compression device is idly rotated by a refrigerant sucked into a suction opening of the compression device and a refrigerant filled in the internal space of the casing. 6. The air-conditioner of claim 3 , wherein the compressor further includes: a plurality of cylinders each having a separated compression space and installed in the internal space of the casing; a suction pipe that distributedly supplies a refrigerant to the compression spaces of the plurality of cylinders; a plurality of rolling pistons to compress the refrigerant while making a rotating movement in the compression spaces of the cylinders; a plurality of vanes that divide the compression spaces of the cylinders into suction spaces and discharge spaces together with the rolling pistons; and a vane restrainer to vary the operation mode of the compressor by restraining or releasing a vane of a cylinder among the plurality of vanes. 7. The air-conditioner of claim 6 , wherein one side of at least one vane of the plurality of vanes has a sealing surface in contact with the rolling piston, and another side of the sealing surface has a pressure surface that presses the vane toward the rolling piston. 8. The air-conditioner of claim 7 , wherein a chamber is formed at the pressure surface of the vane of one of the cylinders, which is separated from the internal space of the casing and filled with a refrigerant of suction pressure or discharge pressure. 9. The air-conditioner of claim 7 , wherein the compressor further includes a mode conversion device formed at an outer side of the casing to selectively provide the refrigerant of suction pressure or discharge pressure to the pressure surface of the vane. 10. The air-conditioner of claim 9 , wherein the mode conversion device includes: a mode conversion valve that selects the refrigerant of suction pressure or discharge pressure at the vane; a low pressure side connection pipe that connects a first entrance of the mode conversion valve and a suction pipe; a high pressure side connection pipe that connects a second entrance of the mode conversion valve and the internal space of the casing; and a common side connection pipe that connects an exit of the move conversion valve and the pressure surface of the vane. 11. The air-conditioner of claim 6 , wherein at least one of the plurality of vanes is restrained by a pressure in the internal space of the casing. 12. The air-conditioner of cla