Compressor and method of autonomously inspecting oil

What is claimed is: 1. A compressor comprising: a casing; a frame fixed on the casing; a fixed scroll fixed on the frame; an orbiting scroll supported by the frame and defining a compression chamber while engaging with the fixed scroll; and a crank shaft coupled to the orbiting scroll and configured to transfer, to the orbiting scroll, a rotational force of a motor, wherein the casing comprises: a main housing comprising a refrigerant discharge passage and an oil passing passage; and a sub-housing comprising a refrigerant discharge port and an oil channel that each face the main housing, the oil channel including an oil reservoir, wherein the sub-housing comprises: a first central portion that houses the oil reservoir; and a first partition wall extending from the first central portion and separating a refrigerant discharge chamber at an upper side of the first partition wall and an oil storage space at a lower side of the first partition wall, a sensor module attached to a sensor receptor in the sub-housing, the sensor module comprising: a sensor housing covering the sensor receptor; and an oil sensor and a temperature sensor that are each located on the sensor housing and that each protrude towards the oil reservoir. 2. The compressor of claim 1 , further comprising: a first communicating portion located at the first partition wall and configured to allow the refrigerant discharge chamber and the oil storage space to be in communication with each other. 3. The compressor of claim 2 , wherein the oil passing passage faces the oil storage space, and the refrigerant discharge port and the refrigerant discharge passage face the refrigerant discharge chamber. 4. The compressor of claim 1 , wherein the main housing comprises: a second central portion facing the oil reservoir and including a through passage through which a rotary shaft of the motor penetrates, a second partition wall extending from the second central portion and separating the refrigerant discharge chamber at an upper side of the second partition wall and the oil storage space at a lower side of the second partition wall, and a second communicating portion located at the second partition wall and configured to allow the refrigerant discharge chamber and the oil storage space to be in communication with each other. 5. The compressor of claim 1 , wherein the motor comprises: a motor shaft including an inner channel into which the oil in the oil reservoir flows; and an oil pump located on the motor shaft, wherein the sensor module faces the inner channel. 6. The compressor of claim 1 , wherein the oil channel includes a vertical channel that is elongated at a lower side of the oil reservoir in a vertical direction and that is configured to guide the oil to the oil reservoir. 7. The compressor of claim 1 , further comprising: a fixing ring located on the sensor housing and configured to fix the sensor housing to the sub-housing.