Air conditioner

The invention claimed is: 1. An air conditioner comprising: an indoor unit comprising an indoor heat exchanger; a first outdoor unit connected to the indoor heat exchanger via a refrigerant line, the first outdoor unit comprising a first outdoor heat exchanger and a first compressor to be driven by electricity; a second outdoor unit connected to the indoor heat exchanger via another refrigerant line, the second outdoor unit comprising a second outdoor heat exchanger and a second compressor to be driven by an engine; a cooling water line, through which cooling water to cool the engine flows; and at least one waste heat-recovering heat exchanger for exchanging heat between refrigerant to be introduced into at least one of the first outdoor heat exchanger and the second outdoor heat exchanger and the cooling water flowing through the cooling water line, wherein the waste heat-recovering heat exchanger comprises a first waste heat-recovering heat exchanger for exchanging heat with the refrigerant to be introduced into the first outdoor heat exchanger, and a second waste heat-recovering heat exchanger for exchanging heat with the refrigerant to be introduced into the second outdoor heat exchanger. 2. The air conditioner according to claim 1 , wherein the waste heat-recovering heat exchanger heat-exchanges the refrigerant to be introduced into the first outdoor heat exchanger and the cooling water. 3. The air conditioner according to claim 1 , wherein the waste heat-recovering heat exchanger heat-exchanges the refrigerant to be introduced into the second outdoor heat exchanger and the cooling water. 4. The air conditioner according to claim 1 , wherein the cooling water sequentially passes through the first waste heat-recovering heat exchanger and the second waste heat-recovering heat exchanger after being heated while cooling the engine, to exchange heat with the refrigerant. 5. The air conditioner according to claim 1 , wherein: the first waste heat-recovering heat exchanger and the second waste heat-recovering heat exchanger are arranged in parallel in a flow direction of the cooling water; and the cooling water line is branched into a first branched line connected to the first waste heat-recovering heat exchanger and a second branched line connected to the second waste heat-recovering outdoor heat exchanger. 6. The air conditioner according to claim 5 , further comprising: a first control valve provided at the first branched line, to adjust an amount of the cooling water performing heat exchange in the first waste heat-recovering heat exchanger; and a second control valve provided at the second branched line, to adjust an amount of the cooling water performing heat exchange in the second waste heat-recovering heat exchanger. 7. The air conditioner according to claim 6 , wherein opening degrees of the first and second control valves are adjusted to differ from each other such that a greater amount of cooling water is introduced into one of the first and second waste heat-recovering heat exchangers, which exhibits a lower refrigerant temperature. 8. The air conditioner according to claim 1 , wherein the waste heat-recovering heat exchanger is connected with the refrigerant line, through which the refrigerant to be introduced into the first outdoor heat exchanger flows, the refrigerant line, through which the refrigerant to be introduced into the second outdoor heat exchanger flows, and the cooling water line. 9. The air conditioner according to claim 8 , wherein: the waste heat-recovering heat exchanger comprises a first passage, through which the refrigerant to be introduced into the first outdoor heat exchanger flows, a second passage, through which the refrigerant to be introduced into the second outdoor heat exchanger flows, and a cooling water passage, through which cooling water flows; and the cooling water passage is arranged between the first passage and the second passage. 10. The air conditioner according to claim 1 , wherein: both the first outdoor unit and the second outdoor unit operate when heating load is equal to or greater than predetermined load; and only the first outdoor unit operates when heating load is smaller than the predetermined load. 11. The air conditioner according to claim 10 , wherein, when heating load is smaller than the predetermined load, and an electricity price per energy unit is higher than a fuel price per energy unit by a predetermined value or more, operation of the first outdoor unit is stopped, and the second outdoor unit operates. 12. An air conditioner comprising a plurality of indoor units, at least one electric heat pump (EHP) type outdoor unit comprising a first outdoor heat exchanger and a first compressor to be driven by electricity, and at least one a gas engine-driven heat pump (GHP) type outdoor unit comprising a second outdoor heat exchanger, a second compressor to be driven by an engine, and a cooling water line to cool the second compressor, further comprising: a heat transfer unit for transferring waste heat of cooling water flowing through the cooling water line to refrigerant to be introduced into the first outdoor heat exchanger and refrigerant to be introduced into the second outdoor heat exchanger, wherein the heat transfer unit comprises a first waste heat-recovering heat exchanger, to which the cooling water line is connected along with a refrigerant line, through which the refrigerant to be introduced into the first outdoor heat exchanger flows, and a second waste heat-recovering heat exchanger, to which the cooling water line is connected along with a refrigerant line, through which the refrigerant to be introduced into the second outdoor heat exchanger flows. 13. The air conditioner according to claim 12 , wherein: the first and second waste heat-recovering heat exchangers are arranged in parallel; and the cooling water line is branched into a plurality of branched lines corresponding in number to the first and second waste heat-recovering heat exchangers such that the branched lines are connected to the first and second waste heat-recovering heat exchangers, respectively. 14. The air conditioner according to claim 12 , wherein the heat transfer unit comprises a waste heat-recovering heat exchanger, to which the cooling water line is connected along with a refrigerant line, through which the refrigerant to be introduced into the first outdoor heat exchanger flows, and another refrigerant line, through which the refrigerant to be introduced into the second outdoor heat exchanger flows. 15. The air conditioner according to claim 14 , wherein: the waste heat-recovering heat exchanger comprises a first passage, through which the refrigerant to be introduced into the first outdoor heat exchanger flows, a second passage, through which the refrigerant to be introduced into the second outdoor heat exchanger flows, and a cooling water passage, through which cooling water flows; and the cooling water passage is arranged between the first passage and the second passage.