Vane rotary compressor with pressure reducing member inserted into the oil supply passage

What is claimed is: 1. A vane rotary compressor, comprising: a casing; a cylinder provided in an inner space of the casing; a main bearing and a sub bearing forming a compression space together with the cylinder, and provided with a plurality of back pressure pockets each having a different pressure formed on a surface facing the cylinder; a rotational shaft radially supported by the main bearing and the sub bearing; a roller eccentrically inserted into the cylinder so that an outer circumferential surface of the roller has one contact point closest to an inner circumferential surface of the cylinder, wherein the roller is provided with a plurality of vane slots formed along a circumferential direction, each vane slot having a first end opened toward an outer circumferential surface; and a plurality of vanes slidably inserted into the plurality of vane slots of the roller, respectively, and configured to divide the compression space into a plurality of compression chambers, respectively, wherein at least one of the main bearing or the sub bearing is provided with an oil supply passage that provides communication between a space between an outer circumferential surface of the rotational shaft and an inner circumferential surface of the main bearing facing the outer circumferential surface of the rotational shaft and the plurality of back pressure pockets of the main bearing, or a space between the outer circumferential surface of the rotational shaft and an inner circumferential surface of the sub bearing facing the outer circumferential surface of the rotational shaft and the plurality of back pressure pockets of the sub bearing, wherein the oil supply passage communicates with a back pressure pocket having a relatively low pressure among the plurality of back pressure pockets, wherein the main bearing or the sub bearing is provided with a flange that extends therefrom and forms the compression space together with the cylinder, wherein at least a portion of the oil supply passage is formed through the flange of the at least one of the main bearing or the sub bearing, and wherein the oil supply passage passes through an outer circumferential surface of the back pressure pocket and is directly connected to the back pressure pocket. 2. The vane rotary compressor of claim 1 , wherein the oil supply passage communicates with the inner space of the casing, and wherein an oil supply pipe that extends toward the inner space of the casing is insertedly coupled to an end portion of the oil supply passage. 3. The vane rotary compressor of claim 2 , wherein a pressure reducing member is insertedly coupled to the oil supply passage in a radial direction. 4. The vane rotary compressor of claim 3 , wherein the pressure reducing member is a pin. 5. The vane rotary compressor of claim 1 , wherein the oil supply passage is eccentrically formed with respect to a central portion of the back pressure pocket communicating with the oil supply passage in the circumferential direction toward the contact point. 6. The vane rotary compressor of claim 1 , wherein the plurality of back pressure pockets comprises: a first back pressure pocket having a first pressure; and a second back pressure pocket having a pressure higher than the first pressure, and wherein the oil supply passage is formed to communicate with the first pocket. 7. The vane rotary compressor of claim 6 , wherein at least one of the first back pressure pocket or the second back pressure pocket is provided with a bearing protrusion formed on an inner circumferential side facing the outer circumferential surface of the rotational shaft to form a radial bearing surface with respect to the outer circumferential surface of the rotational shaft. 8. The vane rotary compressor of claim 7 , wherein the first back pressure pocket is provided with the bearing protrusion, and wherein the second back pressure pocket is formed such that at least a portion of the inner circumferential side facing the outer circumferential surface of the rotational shaft is opened. 9. A vane rotary compressor, comprising: a casing; a cylinder provided in an inner space of the casing; a plurality of bearings forming a compression space together with the cylinder, and provided with a plurality of back pressure pockets each having a different pressure formed on a surface facing the cylinder; a rotational shaft radially supported by the plurality of bearings; a roller eccentrically inserted into the cylinder so that an outer circumferential surface of the roller has one contact point closest to an inner circumferential surface of the cylinder, wherein the roller is provided with a plurality of vane slots formed along a circumferential direction; and a plurality of vanes slidably inserted into the plurality of vane slots of the roller, respectively, and configured to divide the compression space into a plurality of compression chambers, respectively, wherein at least one of the plurality of bearings is provided with an oil supply passage that provides communication between a space between an outer circumferential surface of the rotational shaft and an inner circumferential surface of the at least one of the plurality of bearings facing the outer circumferential surface of the rotational shaft and the plurality of back pressure pockets of the at least one of the plurality of bearings, wherein the oil supply passage communicates with a back pressure pocket having a relatively low pressure among the plurality of back pressure pockets, and wherein the oil supply passage includes a third oil supply hole that axially penetrates the cylinder, and a fourth oil supply hole that radially penetrates a flange portion of the at least one of the plurality of bearings so that the oil supply passage passes through an outer circumferential surface of the back pressure pocket and is directly connected to the back pressure pocket. 10. The vane rotary compressor of claim 9 , wherein an inlet end of the third oil supply hole is connected to an oil supply pipe that is immersed in oil stored at a bottom portion of the inner space of the casing. 11. The vane rotary compressor of claim 9 , wherein an outlet end of the fourth oil supply hole communicates with a side wall surface of one back pressure pocket among the plurality of the back pressure pockets. 12. The vane rotary compressor of claim 11 , wherein the outlet end of the fourth oil supply hole is eccentrically formed with respect to a central portion of the back pressure pocket communicating with the oil supply passage in the circumferential direction toward the contact point. 13. The vane rotary compressor of claim 9 , wherein the oil supply passage is provided therein with a pressure reducing member. 14. The vane rotary compressor of claim 13 , wherein the pressure reducing member is a pin. 15. The vane rotary compressor of claim 9 , wherein a pressure reducing member is insertedly coupled to the fourth oil supply hole in a radial direction. 16. The vane rotary compressor of claim 15 , wherein the pressure reducing member is a pin. 17. A vane rotary compressor, comprising: a casing; a cylinder provided in an inner space of the casing; a main bearing and a sub bearing forming a compression space together with the cylinder, and provided with a plurality of back pressure pockets each having a different pressure formed on a surface facing the cylinder; a rotational shaft radially supported by the main bearing and the sub bearing; a roller eccentrically inserted into the cylinder so that an outer circumferential surface of the roller has