Master cylinder

1 . A master cylinder comprising: a cylinder main body formed in a bottomed cylindrical shape and having a discharge path of brake liquid and a supply path configured to come in communication with a reservoir of brake liquid; a piston movably disposed in the cylinder main body and configured to form a pressure chamber between the cylinder main body and the piston to supply liquid pressure into the discharge path; and a piston seal provided in a circumferential groove formed in the cylinder main body and configured to allow an inner circumference to come into sliding contact with the piston to seal between the supply path and the pressure chamber, wherein the piston seal includes: an annular base section; an inner circumferential lip section protruding from an inner circumferential side of the base section to come into sliding contact with an outer circumferential surface of the piston; an outer circumferential lip section protruding from an outer circumferential side of the base section to abut the circumferential groove of the cylinder main body; and an intermediate protrusion section protruding from a portion between the inner circumferential lip section and the outer circumferential lip section of the base section to a position further forward than the outer circumferential lip section, and wherein at least one inner circumferential side groove extending in an axial direction and opened at a front end side of the intermediate protrusion section is formed in a surface of the inner circumferential lip section side of the intermediate protrusion section. 2 . The master cylinder according to claim 1 , wherein the plurality of inner circumferential side grooves are formed in the surface of the inner circumferential lip section side of the intermediate protrusion section in a circumferential direction. 3 . The master cylinder according to claim 1 , wherein at least one outer circumferential side groove extending in the axial direction and opened at the front end side of the intermediate protrusion section is formed in a surface of the outer circumferential lip section side of the intermediate protrusion section. 4 . The master cylinder according to claim 3 , wherein the plurality of outer circumferential side grooves are formed in a surface of the outer circumferential lip section side of the intermediate protrusion section in the circumferential direction. 5 . The master cylinder according to claim 4 , wherein the plurality of inner circumferential side grooves and the plurality of outer circumferential side grooves are disposed to coincide with each other in the circumferential direction. 6 . The master cylinder according to claim 4 , wherein the plurality of inner circumferential side grooves and the plurality of outer circumferential side grooves are disposed to be deviated in the circumferential direction. 7 . The master cylinder according to claim 4 , wherein protrusion sections extending to the front end side of the intermediate protrusion section and protruding inward are formed amid the plurality of inner circumferential side grooves, and the protrusion sections are disposed to coincide with the plurality of outer circumferential side grooves in the circumferential direction. 8 . The master cylinder according to claim 2 , wherein at least one outer circumferential side groove extending in the axial direction and opened at the front end side of the intermediate protrusion section is formed in a surface of the outer circumferential lip section side of the intermediate protrusion section.