Damping valve for shock absorber

The invention claimed is: 1. A damping valve for a shock absorber, comprising: a valve disc configured to partition a first chamber and a second chamber; a retainer provided on a second chamber side of the valve disc, the retainer having an inner peripheral surface; a flow passage penetrating the valve disc and the retainer and constantly communicating with the first chamber; an annular plate-shaped leaf valve provided on a side of the retainer opposite to the valve disc to open and close a communication of the flow passage with the second chamber; a shaft member penetrating the valve disc, the retainer and the leaf valve, the shaft member having a central axis and an outer periphery facing the inner peripheral surface of the retainer; and a first outer peripheral groove formed on the outer periphery of the shaft member and along the central axis, wherein the first outer peripheral groove and the inner peripheral surface of the retainer form a choke passage having a flow characteristic of a choke and connecting the first chamber and the second chamber. 2. The damping valve for the shock absorber according to claim 1 , wherein: the damping valve further comprises a third communication passage formed between the first outer peripheral groove and the leaf valve to connect the choke passage to the second chamber. 3. The damping valve for the shock absorber according to claim 1 , wherein the retainer includes a small outer diameter part and a large outer diameter part coaxially continuous with the small outer diameter part on a side of the small outer diameter part opposite to the valve disc, the large outer diameter part having an outer diameter larger than that of the small outer diameter part. 4. The damping valve for the shock absorber according to claim 1 , wherein the shaft member is made of a solid shaft. 5. The damping valve for the shock absorber according to claim 1 , wherein the flow passage extends from a top surface of the retainer to a bottom surface of the retainer. 6. A damping valve for a shock absorber, comprising: a valve disc configured to partition a first chamber and a second chamber; a retainer provided on a second chamber side of the valve disc; a flow passage penetrating the valve disc and the retainer and constantly communicating with the first chamber; an annular plate-shaped leaf valve provided on a side of the retainer opposite to the valve disc to open and close a communication of the flow passage with the second chamber; a shaft member penetrating the valve disc, the retainer and the leaf valve, the shaft member having an outer periphery; a first outer peripheral groove formed on the outer periphery of the shaft member, the first outer peripheral groove forming a choke passage having a flow characteristic of a choke and connecting the first chamber and the second chamber between the first outer peripheral groove and the retainer, wherein: the shaft member includes a tip part on which a screw part engaging with a nut is formed, a base end, and a mounting part formed between the base end and the screw part to mount the valve disc, the retainer, and the leaf valve on the outer periphery; the valve disc and the retainer have mating surfaces and the mounting part includes a small diameter part arranged at a position facing the mating surfaces; the damping valve further comprises an annular first communication passage formed in a space surrounded by the small diameter part, the valve disc, and the retainer to communicate with the choke passage; and a second communication passage formed along a radial direction between the valve disc and the retainer to connect the first communication passage and the flow passage. 7. The damping valve for the shock absorber according to claim 6 , wherein the screw part comprises an outer periphery, and the damping valve further comprises: a second outer peripheral groove formed on the outer periphery of the screw part, the second outer peripheral groove forming a fifth communication passage between the second outer peripheral groove and the nut to connect the choke passage to the second chamber. 8. A damping valve for a shock absorber, comprising: a valve disc configured to partition a first chamber and a second chamber; a retainer disposed on a same side of the valve disc as the second chamber; a flow passage penetrating from the valve disc to the retainer and having an entrance constantly communicating with the first chamber; an annular plate-shaped leaf valve provided on a side of the retainer opposite to the valve disc and configured to openably close an exit of the flow passage; a shaft member penetrating through axial center holes of the valve disc, the retainer and the leaf valve, the shaft member including a screw part which is arranged on a tip part and with which a nut is to be threadably engaged, and a mounting part which is continuous with a base end side of the screw part and which has the valve disc, the retainer and the leaf valve mounted on an outer periphery of the mounting part, the mounting part including a small diameter part arranged at a position facing a mating surface of each of the valve disc and the retainer; a first outer peripheral groove formed on an outer periphery of the shaft member; a choke passage formed between the first outer peripheral groove and the retainer and configured to function as a choke, one side of the choke passage communicating with the flow passage and another side of the choke passage communicating with the second chamber; an annular first communication passage communicating with the choke passage and formed between the small diameter part and the valve disc, the annular first communication passage further being formed between the small diameter part and the retainer; a second communication passage communicating with the first communication passage and the flow passage and formed along a radial direction between the valve disc and the retainer; a second outer peripheral groove formed on an outer periphery of the screw part; and a fifth communication passage configured to allow the choke passage to communicate with the second chamber and formed between the second outer peripheral groove and the nut.