Scroll compressor having communication groove in orbiting end plate

What is claimed is: 1. A scroll compressor, comprising: a fixed scroll including a fixed end plate and a fixed wrap; an orbiting scroll including an orbiting end plate and an orbiting wrap, the orbiting wrap being engaged with the fixed wrap and orbiting with respect to the fixed wrap to form a first compression chamber and a second compression chamber to compress a refrigerant, wherein the fixed scroll includes a first discharge configured to communicate with the first compression chamber and a second discharge configured to communicate with the second compression chamber, and wherein the orbiting scroll includes a communication groove configured to provide selective communication between the first discharge and the second discharge at an initial stage of discharge of one of the first discharge or the second discharge. 2. The scroll compressor of claim 1 , wherein the communication groove provides selective communication between the first discharge and the second discharge based on a position of the orbiting scroll. 3. A scroll compressor, comprising: a fixed scroll including a fixed end plate and a fixed wrap; and an orbiting scroll including an orbiting end plate and an orbiting wrap, the orbiting scroll being configured to perform an orbiting movement about the fixed scroll, wherein a communication groove having a form of a recessed groove is formed in an inner surface of the orbiting end plate; wherein a refrigerant flows through the communication groove according to a state in which the fixed wrap overlaps the communication groove; wherein a first compression chamber is formed between an outer surface of the fixed wrap and an inner surface of the orbiting wrap; wherein a second compression room is formed between an inner surface of the fixed wrap and an outer surface of the orbiting wrap; wherein the fixed end plate of the fixed scroll includes a first discharge hole configured to discharge a refrigerant compressed in the first compression chamber and a second discharge hole configured to discharge a refrigerant compressed in the second compression chamber, and wherein the communication groove is configured to discharge the refrigerant compressed in the second compression chamber at an initial stage of a discharge of the second compression chamber through the communication groove and the first discharge hole. 4. A scroll compressor comprising: a fixed scroll including a fixed end plate and a fixed wrap, and an orbiting scroll including an orbiting end plate and an orbiting wrap, the orbiting scroll being configured to perform an orbiting movement about the fixed scroll, wherein a communication groove having a form of a recessed groove is formed in an inner surface of the orbiting end plate; wherein a refrigerant flows through the communication groove according to a state in which the fixed wrap overlaps the communication groove; wherein the orbiting wrap orbits while coming into contact with the fixed wrap and compresses a refrigerant introduced into a first compression chamber and a second compression chamber formed on an outer side surface and an inner side surface of the orbiting wrap; and wherein: the region at which the communication groove overlaps the first compression chamber is a communication inlet; the region at which the communication groove overlaps the second compression chamber is a communication outlet; and the refrigerant in the first compression chamber flows through the communication groove to the second compression chamber. 5. A scroll compressor, comprising: a fixed scroll including a fixed end plate and a fixed wrap; and an orbiting scroll including an orbiting end plate and an orbiting wrap, the orbiting scroll being configured to perform an orbiting movement about the fixed scroll, wherein a communication groove having a form of a recessed groove is formed in an inner surface of the orbiting end plate, wherein a refrigerant flows through the communication groove according to a state in which the fixed wrap overlaps the communication groove; wherein the orbiting wrap orbits while coming into contact with the fixed wrap and compresses a refrigerant introduced into a first compression chamber and a second compression chamber formed on an outer side surface and an inner side surface of the orbiting wrap; and wherein: the region at which the communication groove overlaps the second compression chamber is a communication inlet; the region at which the communication groove overlaps the first compression chamber is a communication outlet; and the refrigerant in the second compression chamber flows through the communication groove to the first compression chamber. 6. A scroll compressor, comprising: a fixed scroll including a fixed end plate and a fixed wrap; and an orbiting scroll including an orbiting end plate and an orbiting wrap, the orbiting scroll being configured to perform an orbiting movement about the fixed scroll, wherein a communication groove having a form of a recessed groove is formed in an inner surface of the orbiting end plate; wherein a refrigerant flows through the communication groove according to a state in which the fixed wrap overlaps the communication groove; wherein the orbiting wrap orbits while coming into contact with the fixed wrap and compresses a refrigerant introduced into a first compression chamber and a second compression chamber formed on an outer side surface and an inner side surface of the orbiting wrap; wherein the fixed end plate includes a first discharge hole configured to discharge a refrigerant compressed in the first compression chamber and a second discharge hole configured to discharge a refrigerant compressed in the second compression chamber; wherein the communication groove provides a path through which the refrigerant compressed in the second compression chamber flows to the first compression chamber; and wherein the refrigerant compressed in the second compression chamber is discharged through the second discharge hole and the first discharge hole. 7. A scroll compressor, comprising: a fixed scroll including a fixed end plate and a fixed wrap; and an orbiting scroll including an orbiting end plate and an orbiting wrap, the orbiting scroll being configured to perform an orbiting movement about the fixed scroll, wherein: a first compression chamber is formed between two contact points generated by an inner side surface of the fixed wrap coming into contact with an outer side surface of the orbiting wrap; a second compression chamber is formed between two contact points generated by an outer side surface of the fixed wrap coming into contact with an inner side surface of the orbiting wrap; the fixed end plate includes a first discharge hole configured to discharge a refrigerant compressed in the first compression chamber and a second discharge hole configured to discharge a refrigerant compressed in the second compression chamber; and the orbiting end plate includes an inner surface on which the compression chamber is formed and which is provided with a communication groove that provides a path configured to move the refrigerant in the second compression chamber toward the first discharge hole. 8. The scroll compressor of claim 7 , wherein the communication groove is configured such that the refrigerant in the second compression chamber is moved toward the first discharge hole at a discharge start time at which the compressed refrigerant in the second compression chamber is discharged through the second discharge hole. 9. The scroll compressor of claim 8 , wherein an area of a communication inlet, which is a region at which the communication groove overlaps the second compression chamber, increases at the discharge start time. 10. The