Seal structure in hydraulic cylinder, and said hydraulic cylinder

1 . A seal structure between a piston and a cylinder hole, in which the piston is slidable axially, in a hydraulic cylinder, the cylinder hole having a first chamber and a second chamber located on opposite sides of the piston in an axial direction, the piston having an outer circumferential surface around the axis thereof to define a sliding face, the cylinder hole having an inner circumferential surface around the axis thereof to define a slide-receiving face to which the sliding face of the piston faces and over which the piston slides, the sliding face of the piston having a recess groove that extends around the axis of the piston and opens in a radial direction of the piston, the recess groove holding a proximal part, serving as an inner circumferential part, of a packing made of a rubber elastic material, the packing including a distal part, serving as an outer circumferential part, protruding from the sliding face, the distal part of the packing including a first sealing part at a side edge of the packing that is adjacent to the first chamber in the axial direction and a second sealing part at a side edge of the packing that is adjacent to the second chamber in the axial direction, the first sealing part and the second sealing part extending around the axis of the packing, the first sealing part and the second sealing part of the packing held in the recess groove each having an outside diameter smaller than the diameter of the slide-receiving face of the cylinder hole, wherein while a compressed fluid is supplied to either one of the first chamber and the second chamber, the side edge of the packing adjacent to the chamber to which the fluid is supplied is radially stretched by elastic deformation due to the pressure of the fluid, thus causing the sealing part that is one of the first sealing part and the second sealing part and that is adjacent to the chamber, to which the fluid is supplied, to reduce a gap formed with the slide-receiving face of the cylinder hole or come into contact with the slide-receiving face. 2 . The seal structure according to claim 1 , wherein the packing and the recess groove each have a cross-section along the axis that is symmetric in the radial direction, and wherein the recess groove has a depth extending in the radial direction from the sliding face to a bottom surface, with which a proximal end of the packing is in contact, of the recess groove and the depth is greater than or equal to ½ of the height of the packing from the proximal end to a distal end thereof. 3 . The seal structure according to claim 2 , wherein the recess groove has a pair of side surfaces that extend radially from opposite ends of the bottom surface in the axial direction and face each other, and the bottom surface forms an angle of 90 degrees or less with each of the pair of side surfaces. 4 . The seal structure according to claim 3 , wherein the proximal part of the packing held in the recess groove has a maximum width in the axial direction that is smaller than a minimum width of the recess groove between the pair of side surfaces. 5 . The seal structure according to claim 4 , wherein the proximal end of the packing is fixed to the bottom surface of the recess groove with adhesive. 6 . The seal structure according to claim 1 , wherein the packing has a pair of side faces located at opposite ends thereof in the axial direction, the pair of side faces are parallel to and opposite each other, and the packing has a cross-section along the axis that is symmetric in the axial direction, wherein the distal part of the packing has a distal face that faces the slide-receiving face, and wherein the first sealing part is located at the side edge of the distal face adjacent to the first chamber in the axial direction, and the second sealing part is located at the side edge of the distal face adjacent to the second chamber in the axial direction. 7 . The seal structure according to claim 6 , wherein the first sealing part is formed by a first projection projecting from the distal face toward the slide-receiving face, and the second sealing part is formed by a second projection projecting from the distal face toward the slide-receiving face. 8 . The seal structure according to claim 7 , wherein the first projection and the second projection each have a tip formed by an angular portion that forms an acute angle with the corresponding one of the pair of side faces of the packing. 9 . The seal structure according to claim 7 , wherein the distance from the slide-receiving face to the tip of the first projection is equal to the distance from the slide-receiving face to the tip of the second projection. 10 . The seal structure according to claim 9 , wherein the distal face of the packing is parallel to the slide-receiving face, wherein each of the first projection and the second projection has a height from the distal face to the tip and the height of the first projection is equal to that of the second projection, and wherein the first projection and the second projection are spaced apart from each other in the axial direction. 11 . The seal structure according to claim 10 , wherein each of the first projection and the second projection is wedge-shaped such that the width of the projection in the axial direction gradually decreases in a direction from the distal face to the tip. 12 . The seal structure according to claim 10 , wherein the distal face of the packing has a labyrinth projection, serving as a labyrinth seal, located between the first projection and the second projection. 13 . The seal structure according to claim 6 , wherein the pair of side faces of the packing each have a circular constriction groove in communication with an opening of the recess groove. 14 . The seal structure according to claim 13 , wherein the constriction groove has a curved surface. 15 . The seal structure according to claim 1 , wherein the hydraulic cylinder has a supply port connected to the cylinder hole, and wherein let C 1 denote the sonic conductance of the supply port, let C 2 denote the sonic conductance of a leakage passage formed between the sliding face and the slide-receiving face by the gap between the packing and the slide-receiving face, and the ratio of the sonic conductance C 1 to the sonic conductance C 2 is 2.0 or more at all times. 16 . The seal structure according to claim 1 , wherein the piston has a wear ring extending circumferentially on the sliding face such that the wear ring is located next to the packing in the axial direction, and the wear ring has an outside diameter larger than that of the packing while the compressed fluid is supplied to neither the first chamber nor the second chamber. 17 . A hydraulic cylinder comprising: the seal structure according to claim 1 .