Pneumatic tire

The invention claimed is: 1. A pneumatic tire comprising: a tread portion provided with an asymmetric tread pattern and having an outboard tread edge and an inboard tread edge between which a tread width is defined, the tread portion provided with circumferentially continuously extending main grooves including an outboard shoulder main groove, an inboard shoulder main groove, an outboard crown main groove and an inboard crown main groove so as to axially divide the tread portion into an outboard shoulder land section defined between the outboard shoulder main groove ( 3 ) and the outboard tread edge, an outboard middle land section defined between the outboard shoulder main groove and the outboard crown main groove, a crown land section defined between the outboard crown main groove and the inboard crown main groove, an inboard middle land section defined between the inboard crown main groove and the inboard shoulder main groove, and an inboard shoulder land section defined between the inboard shoulder main groove ( 4 ) and the inboard tread edge, wherein the groove width of the outboard shoulder main groove is 3 to 4% of the tread width, the groove width of the inboard shoulder main groove is 5 to 6% of the tread width, the groove width of the outboard crown main groove is 6 to 7% of the tread width, the groove width of the inboard crown main groove is 6 to 7% of the tread width, in each of the inboard shoulder main groove, the inboard crown main groove and the outboard crown main groove, an outboard groove face's angle θ 1 is more than an inboard groove face's angle θ 2 , the outboard groove face's angle θ 1 is 13 to 19 degrees, and the inboard groove face's angle θ 2 is 9 to 14 degrees, in the outboard shoulder main groove, an outboard groove face's angle θ 3 is 9 to 14 degrees, and an inboard groove face's angle θ 4 is 5 to 8 degrees, the outboard shoulder land section is provided with a plurality of outboard shoulder lateral grooves extending axially inwardly from a position axially outside the outboard tread edge, the outboard shoulder lateral grooves include first outboard shoulder lateral grooves whose axially inner ends are connected to the outboard shoulder main groove, and second outboard shoulder lateral grooves whose axially inner ends are terminated within the outboard shoulder land section without connected to the outboard shoulder main groove, and the first outboard shoulder lateral grooves and the second outboard shoulder lateral grooves are arranged alternately in the tire circumferential direction, the outboard middle land section is provided with a plurality of outboard middle lateral grooves extending axially inwardly from the outboard shoulder main groove and terminating within the outboard middle land section without connected to the outboard crown main groove, wherein each of the first outboard shoulder lateral grooves is provided in an axially inner part thereof with a tie bar rising from the groove bottom and provided with a sipe. 2. The pneumatic tire according to claim 1 , wherein the tread portion is provided with a plurality of inboard lateral grooves extending from the tire equator to a position axially outside the inboard tread edge. 3. The pneumatic tire according to claim 1 , wherein the outboard shoulder land section is provided with a plurality of outboard shoulder sub grooves, and each of the outboard shoulder sub grooves extends from one of the second outboard shoulder lateral grooves toward one circumferential direction across the adjacent first outboard shoulder lateral groove to a position near the next second outboard shoulder lateral groove to terminate without reaching thereto. 4. The pneumatic tire according to claim 1 , wherein the axial distance between the center line of the outboard shoulder main groove and the tire equator is in a range of from 23.5 to 27.5% of the tread width, the axial distance between the center line of the inboard shoulder main groove and the tire equator is in a range of from 23.0 to 29.5% of the tread width, the axial distance between the center line of the outboard crown main groove and the tire equator is in a range of from 6.0 to 10.5% of the tread width, and the axial distance between the center line of the inboard crown main groove and the tire equator is in a range of from 6.0 to 10.5% of the tread width. 5. A pneumatic tire comprising: a tread portion provided with an asymmetric tread pattern and having an outboard tread edge and an inboard tread edge between which a tread width is defined, the tread portion provided with circumferentially continuously extending main grooves including an outboard shoulder main groove, an inboard shoulder main groove, an outboard crown main groove and an inboard crown main groove so as to axially divide the tread portion into an outboard shoulder land section defined between the outboard shoulder main groove and the outboard tread edge, an outboard middle land section defined between the outboard shoulder main groove and the outboard crown main groove, a crown land section defined between the outboard crown main groove and the inboard crown main groove, an inboard middle land section defined between the inboard crown main groove and the inboard shoulder main groove, and an inboard shoulder land section defined between the inboard shoulder main groove and the inboard tread edge, wherein the groove width of the outboard shoulder main groove is 3 to 4% of the tread width, the groove width of the inboard shoulder main groove is 5 to 6% of the tread width, the groove width of the outboard crown main groove is 6 to 7% of the tread width, the groove width of the inboard crown main groove is 6 to 7% of the tread width, in each of the inboard shoulder main groove, the inboard crown main groove and the outboard crown main groove, an outboard groove face's angle θ 1 is more than an inboard groove face's angle θ 2 , the outboard groove face's angle θ 1 is 13 to 19 degrees, and the inboard groove face's angle θ 2 is 9 to 14 degrees, in the outboard shoulder main groove, an outboard groove face's angle θ 3 is 9 to 14 degrees, and an inboard groove face's angle θ 4 is 5 to 8 degrees, the outboard shoulder land section is provided with a plurality of outboard shoulder lateral grooves extending axially inwardly from a position axially outside the outboard tread edge, the outboard shoulder lateral grooves include first outboard shoulder lateral grooves whose axially inner ends are connected to the outboard shoulder main groove, and second outboard shoulder lateral grooves whose axially inner ends are terminated within the outboard shoulder land section without connected to the outboard shoulder main groove, and the first outboard shoulder lateral grooves and the second outboard shoulder lateral grooves are arranged alternately in the tire circumferential direction, the outboard middle land section is provided with a plurality of outboard middle lateral grooves extending axially inwardly from the outboard shoulder main groove and terminating within the outboard middle land section without connected to the outboard crown main groove, the outboard shoulder land section is provided with a plurality of outboard shoulder sub grooves, and each of the outboard shoulder sub grooves extends from one of the second outboard shoulder lateral grooves toward one circumferential direction across the adjacent first outboard shoulder lateral groove to a position near the next second outboard shoulder lateral groove to terminate without reaching thereto. 6. The pneumatic tire according to claim 5 , wherein the tread portion is provided with a plurality of inboard lateral grooves extending from the tire equator to a position axially outside the