Compressor having improved discharge structure including discharge inlets, communication hole, and discharge outlet

What is claimed is: 1. A scroll compressor, comprising: a casing in which oil is stored in an oil storage chamber formed at a lower portion of the casing; a drive motor provided in an inner space of the casing; a main frame provided under the drive motor and fixed in the inner space of the casing; a fixed scroll provided under the main frame and including a fixed end plate having an inner surface and an outer surface and a discharge outlet is disposed on the outer surface; an orbiting scroll provided between the main frame and the fixed scroll and engaged with the fixed scroll to perform an orbiting movement to form first and second compression chambers with the fixed scroll, and a rotary shaft coupled to the drive motor and including a main bearing portion supported by the main frame, a sub bearing portion supported by the fixed scroll, and an eccentric portion eccentrically coupled to the orbiting scroll, the fixed end plate of the fixed scroll includes a first discharge inlet configured to discharge a refrigerant compressed in the first compression chamber, a second discharge inlet configured to discharge a refrigerant compressed in the second compression chamber, and a communication groove that connects the first discharge inlet and the second discharge inlet, wherein the second discharge inlet passes through the fixed end plate and the first discharge inlet does not pass through the fixed end plate, the first discharge inlet and the communication groove being formed as respective grooves in the inner surface of the fixed end plate, the communication groove having a concave groove shape. 2. The scroll compressor of claim 1 , wherein the fixed end plate of the fixed scroll includes the discharge outlet at a position overlapping with any one of the first discharge inlet or the second discharge inlet. 3. The scroll compressor of claim 2 , wherein the discharge outlet has a circular or elliptical shape. 4. A scroll compressor, comprising: a casing; a drive motor provided in an inner space of the casing; a main frame provided adjacent to the drive motor and fixed in the inner space of the casing; a fixed scroll provided adjacent to the main frame and including a fixed end plate having an inner surface and an outer surface and a discharge outlet is disposed on the outer surface; an orbiting scroll provided between the main frame and the fixed scroll and engaged with the fixed scroll to perform an orbiting movement to form first and second compression chambers with the fixed scroll; and a rotary shaft coupled to the drive motor and including a main bearing portion supported by the main frame, a sub bearing portion supported by the fixed scroll, and an eccentric portion eccentrically coupled to the orbiting scroll, the fixed end plate of the fixed scroll includes a first discharge inlet configured to discharge a refrigerant compressed in the first compression chamber, a second discharge inlet configured to discharge a refrigerant compressed in the second compression chamber, and a communication groove that provides selective communication between the first discharge inlet and the second discharge inlet and a common outlet or respective outlets based on a position of the orbiting wrap, wherein the second discharge inlet passes through the fixed end plate and the first discharge inlet does not pass through the fixed end plate, the first discharge inlet and the communication groove being formed as respective grooves in the inner surface of the fixed end plate, the communication groove having a concave groove shape. 5. The scroll compressor of claim 4 , wherein the fixed end plate of the fixed scroll includes the common discharge outlet at a position overlapping with any one of the first discharge inlet or the second discharge inlet. 6. The scroll compressor of claim 5 , wherein the common discharge outlet has a circular or elliptical shape.