REFRIGERATION CYCLE DEVICE

To provide a refrigeration cycle device that enables cost reduction by using a sensor capable of measuring temperatures of a plurality of refrigerant pipes all at once in a non-contact manner.SOLUTION: A refrigeration cycle device 100 includes a refrigerant circuit 102 in which a compressor 11, a heat source side heat exchanger 13, an expansion mechanism 15 and a use side heat exchanger 22 are connected sequentially. The refrigeration cycle device 100 further includes a temperature detection section 17 detecting temperatures of a plurality of points in a non-contact manner and a heat source side control section 19. At least one of the heat source side heat exchanger 13 and the use side heat exchanger 22 includes: a plurality of refrigerant pipes 13b in which a refrigerant exchanging heat flows; and flow rate adjustment sections 13c. The flow rate adjustment sections 13c adjust flow rates of the refrigerants flowing in the plurality of refrigerant pipes 13b, respectively. The temperature detection section 17 detects a temperature of each of the plurality of refrigerant pipes 13b. The heat source side control section 19 controls the flow rate adjustment sections 13c on the basis of the temperatures detected by the temperature detection section 17.SELECTED DRAWING: Figure 3 【課題】複数の冷媒配管の温度を非接触で一度に測定できるセンサを用いることで、コストを低減できる冷凍サイクル装置を提供する。【解決手段】冷凍サイクル装置１００は、圧縮機１１、熱源側熱交換器１３、膨張機構１５及び利用側熱交換器２２が順に接続された冷媒回路１０２を備える。冷凍サイクル装置１００は、複数地点の温度を非接触で検出する温度検出部１７と、熱源側制御部１９とを備える。熱源側熱交換器１３及び利用側熱交換器２２の少なくとも１つは、熱交換される冷媒が内部を流れる複数の冷媒配管１３ｂと、流量調整部１３ｃとを有する。流量調整部１３ｃは、複数の冷媒配管１３ｂのそれぞれを流れる冷媒の流量を調整する。温度検出部１７は、複数の冷媒配管１３ｂのそれぞれの温度を検出する。熱源側制御部１９は、温度検出部１７が検出した温度に基づいて、流量調整部１３ｃを制御する。【選択図】図３