Scroll compressor

What is claimed is: 1. A scroll compressor comprising: a fixed scroll having a tabular first end plate, a first spiraling lap protruding from a front face of the first end plate, and a thrust sliding portion surrounding the first spiraling lap; a movable scroll having a tabular second end plate and a second spiraling lap protruding from a front face of the second end plate; and a drive part linked to the movable scroll via a crankshaft, the drive part revolving the movable scroll, the first spiraling lap and the second spiraling lap being brought together so that the front face of the first end plate and the front face of the second end plate face each other, and a compression chamber is formed between the first spiraling lap and the second spiraling lap adjacent to each other, the drive part revolving the movable scroll cyclically so that a gaseous refrigerant in the compression chamber is compressed, a back-pressure space formed at a back face side of the second end plate of the movable scroll, the back pressure space communicating with the compression chamber on a peripheral side for at least a first prescribed period in a revolution cycle of the movable scroll, a communication hole formed in the second end plate, the communication hole communicating with the back-pressure space, and on a sliding face contacting the front face of the second end plate for at least a second prescribed period in the revolution cycle of the movable scroll, in the thrust sliding portion facing the front face of the second end plate, there being formed a first oil channel extending in an arc shape in a first angle region with respect to a center of the first end plate as seen in plan view, an oil being supplied to the first oil channel from a high-pressure space communicating with the compression chamber at high pressure and retained in the first oil channel, a communication channel disposed in a second angle region, which is external to the first angle region, with respect to the center of the first end plate as seen in plan view, the communication channel communicating with the compression chamber, and, for at least a third prescribed period in the revolution cycle of the movable scroll, communicating with the communication hole, and a second oil channel disposed in the second angle region with respect to the center of the first end plate as seen in plan view, the second oil channel communicating with the back-pressure space for at least a fourth prescribed period in the revolution cycle of the movable scroll. 2. The scroll compressor according to claim 1 , wherein the second oil channel extends radially a first distance and circumferentially a second distance with respect to the center of the first end plate as seen in plan view, and the first distance is at least as large as the second distance. 3. The scroll compressor according to claim 2 , wherein the second oil channel is one of circular, ellipsoidal, rectangular, J-shaped, and L-shaped as seen in plan view. 4. The scroll compressor according to claim 1 , wherein the communication channel extends radially with respect to the center of the first end plate as seen in plan view and is formed into a J-shape that curves inwardly with respect to the center of the first end plate, and the second oil channel extends radially towards the center of the first end plate as seen in plan view and is formed into a J-shape which curves outwardly with respect to the center of the first end plate. 5. The scroll compressor according to claim 1 , wherein at least part of the second oil channel is formed on a regular sliding face of the thrust sliding portion, the regular sliding face always contacting with the front face of the second end plate. 6. The scroll compressor according to claim 5 , wherein the first oil channel and the communication channel are formed on the regular sliding face. 7. The scroll compressor according to claim 1 , wherein the second oil channel always communicates with the back-pressure space. 8. The scroll compressor according to claim 1 , wherein the second oil channel includes a plurality of channels. 9. The scroll compressor according to claim 1 , wherein the second oil channel is at least partly formed in an intermittent sliding face of the thrust sliding portion, the intermittent sliding face intermittently contacting the front face of the second end plate when the movable scroll revolves with respect to the fixed scroll. 10. A scroll compressor comprising: a fixed scroll having a tabular first end plate, a first spiraling lap protruding from a front face of the first end plate, and a thrust sliding portion surrounding the first spiraling lap; a movable scroll having a tabular second end plate and a second spiraling lap protruding from a front face of the second end plate; and a drive part linked to the movable scroll via a crankshaft, the drive part revolving the movable scroll, the first spiraling lap and the second spiraling lap being brought together so that the front face of the first end plate and the front face of the second end plate face each other, and a compression chamber is formed between the first spiraling lap and the second spiraling lap adjacent to each other; the drive part revolving the movable scroll cyclically so that a gaseous refrigerant in the compression chamber is compressed, a back-pressure space formed at a back face side of the second end plate of the movable scroll, the back pressure space communicating with the compression chamber on a peripheral side for at least a first prescribed period in a revolution cycle of the movable scroll, a communication hole formed in the second end plate, the communication hole communicating with the back-pressure space, an oil introduction path formed in the fixed scroll, an oil supplied from a high-pressure space communicating with the compression chamber at high pressure flowing in the oil introduction path, and on a sliding face contacting the front face of the second end plate for at least a second prescribed period in the revolution cycle of the movable scroll, in the thrust sliding portion facing the front face of the second end plate, there being formed a first oil channel extending in an arc shape in a first angle region with respect to a center of the first end plate as seen in plan view, the oil being supplied to the first oil channel from the oil introduction path and retained in the first oil channel, a communication channel disposed in a second angle region, that is external to the first angle region, with respect to the center of the first end plate as seen in plan view, the communication channel communicating with the compression chamber, and, for at least a third prescribed period in the revolution cycle of the movable scroll, communicating with the communication hole, and a second oil channel disposed in the second angle region with respect to the center of the first end plate as seen in plan view, the second oil channel communicating with the back-pressure space for at least a fourth prescribed period in the revolution cycle of the movable scroll. 11. The scroll compressor according to claim 10 , wherein the second oil channel extends radially a first distance and circumferentially a second distance with respect to the center of the first end plate as seen in plan view, and the first distance is at least as large as the second distance. 12. The scroll compressor according to claim 11 , wherein the second oil channel is one of circular, ellipsoidal, rectangular, J-shaped, and L-shaped as seen in plan view. 13. The scroll compressor according to claim 10 , wherein the communica