Refrigeration cycle device for auxiliary heating or cooling

What is claimed is: 1. A refrigeration cycle device comprising: a compressor compressing and discharging a refrigerant; an exterior heat exchanger exchanging heat between the refrigerant discharged from the compressor and outside air, such that the refrigerant is capable of flowing from the exterior heat exchanger to a suction port of the compressor; a utilization-side heat exchanger exchanging heat between one of the refrigerant discharged from the compressor and the refrigerant flowing out of the exterior heat exchanger and a first temperature regulation target; an auxiliary heat exchanger exchanging heat between a refrigerant and a second temperature regulation target; a first pipe communicating with the auxiliary heat exchanger, and having a larger passage cross-sectional area than a predetermined value; a second pipe communicating with the auxiliary heat exchanger, and having a smaller passage cross-sectional area than that of the first pipe; and a refrigerant passage switching portion switching a refrigerant passage of the refrigerant circulated in a cycle, wherein the refrigerant passage switching portion is configured at least to switch (i) a first refrigerant passage, in which a gas-liquid refrigerant directed to an inlet of the exterior heat exchanger from a discharge port of the compressor flows into the auxiliary heat exchanger through the first pipe and a liquid refrigerant flowing out of the auxiliary heat exchanger flows to the inlet of the exterior heat exchanger through the second pipe, and (ii) a second refrigerant passage, in which a liquid refrigerant directed to the suction port of the compressor from an outlet of the exterior heat exchanger flows into the auxiliary heat exchanger through the second pipe and a gas refrigerant flowing out of the auxiliary heat exchanger flows to the suction port of the compressor through the first pipe, wherein a direction of the gas-liquid refrigerant flowing through the first pipe in the first refrigerant passage is reverse to a direction of the gas refrigerant flowing through the first pipe in the second refrigerant passage, and a direction of the liquid refrigerant flowing through the second pipe in the first refrigerant passage is reverse to a direction of the liquid refrigerant flowing through the second pipe in the second refrigerant passage. 2. The refrigeration cycle device according to claim 1 , further comprising a radiating heat exchanger that is provided as the utilization-side heat exchanger, to radiate heat by exchanging heat between the refrigerant discharged from the compressor and the first temperature regulation target such that the refrigerant is capable of flowing from the radiating heat exchanger to the inlet of the exterior heat exchanger, wherein when the first refrigerant passage is switched, a refrigerant in a region reaching the inlet of the exterior heat exchanger from an outlet of the radiating heat exchanger flows into the auxiliary heat exchanger through the first pipe and a refrigerant flowing out of the auxiliary heat exchanger flows to the inlet of the exterior heat exchanger through the second pipe. 3. The refrigeration cycle device according to claim 1 , wherein the auxiliary heat exchanger has a refrigerant inlet through which a refrigerant is introduced and a refrigerant outlet through which a refrigerant is discharged, the refrigerant passage switching portion has a communication state switching portion that switches (i) a first communication state, in which the refrigerant inlet of the auxiliary heat exchanger communicates with the first pipe and the refrigerant outlet of the auxiliary heat exchanger communicates with the second pipe, and (ii) a second communication state in which the refrigerant inlet of the auxiliary heat exchanger communicates with the second pipe and the refrigerant outlet of the auxiliary heat exchanger communicates with the first pipe, and the communication state switching portion allows the first communication state when the first refrigerant passage is switched, and allows the second communication state when the second refrigerant passage is switched, the refrigeration cycle device further comprising a pressure reducer arranged between the refrigerant inlet of the auxiliary heat exchanger and the communication state switching portion to decompress the refrigerant flowing into the refrigerant inlet of the auxiliary heat exchanger. 4. The refrigeration cycle device according to claim 1 , further comprising: a first pressure reducer arranged between the auxiliary heat exchanger and the first pipe to decompress the refrigerant flowing into the auxiliary heat exchanger; and the pressure reducer further arranged between the auxiliary heat exchanger and the second pipe to decompress the refrigerant flowing into the auxiliary heat exchanger. 5. The refrigeration cycle device according to claim 2 , wherein the auxiliary heat exchanger has a refrigerant inlet through which a refrigerant is introduced and a refrigerant outlet through which a refrigerant is discharged, the refrigerant passage switching portion has a communication state switching portion that switches (i) a first communication state, in which the refrigerant inlet of the auxiliary heat exchanger communicates with the first pipe and the refrigerant outlet of the auxiliary heat exchanger communicates with the second pipe, and (ii) a second communication state in which the refrigerant inlet of the auxiliary heat exchanger communicates with the second pipe and the refrigerant outlet of the auxiliary heat exchanger communicates with the first pipe, and the communication state switching portion allows the first communication state when the first refrigerant passage is switched, and allows the second communication state when the second refrigerant passage is switched, the refrigeration cycle device further comprising a pressure reducer arranged between the refrigerant inlet of the auxiliary heat exchanger and the communication state switching portion to decompress the refrigerant flowing into the refrigerant inlet of the auxiliary heat exchanger. 6. The refrigeration cycle device according to claim 1 , wherein in the first refrigerant passage, a gas-liquid refrigerant directed to the inlet of the exterior heat exchanger from the discharge port of the compressor flows into the auxiliary heat exchanger through the first pipe and a liquid refrigerant flowing out of the auxiliary heat exchanger flows to the inlet of the exterior heat exchanger through a pressure reducer and the second pipe, and in the second refrigerant passage, a liquid refrigerant directed to the suction port of the compressor from the outlet of the exterior heat exchanger flows into the auxiliary heat exchanger through the second pipe and the pressure reducer and a gas refrigerant flowing out of the auxiliary heat exchanger flows to the suction port of the compressor through the first pipe. 7. The refrigeration cycle device according to claim 6 , wherein a flow direction of a gas refrigerant in the first pipe and a flow direction of a liquid refrigerant in the second pipe in the first refrigerant passage are opposite from a flow direction of a gas refrigerant in the first pipe and a flow direction of a liquid refrigerant in the second pipe in the second refrigerant passage, respectively, a liquid refrigerant in the second pipe in the first refrigerant passage and a liquid refrigerant in the second pipe in the second refrigerant passage are decompressed through the pressure reducer, and the pressure reducer is common in the first refrigerant passage and in the second refrigerant passage. 8. The refrigerant cycle device according to claim 1 , wherein a direction of the gas-liquid refrigerant or th