Damping valve and damper

The invention claimed is: 1. A damping valve, comprising: a valve disc that includes a passage for a fluid and a valve seat, the valve seat surrounding an exit end of the passage; a ring-shaped leaf valve stacked on the valve disc, the leaf valve separating from and being seated on the valve seat to open and close the passage; and a biasing mechanism configured to cause a variable biasing force to act on the leaf valve toward the valve disc side, wherein: a clearance is formed between the leaf valve and the valve seat in a state in which the leaf valve is stacked on the valve disc with no load, and the leaf valve is configured to retreat as a whole in an axial direction with respect to the valve disc, by a pressure of the fluid in the passage, a retreating of the leaf valve causing a size of the clearance to enlarge. 2. The damping valve according to claim 1 , further comprising a plate stacked on the leaf valve on a side opposite to the valve disc side, the plate being configured to axially retreat with respect to the valve disc together with the leaf valve, the plate having a rigidity higher than a rigidity of the leaf valve. 3. The damping valve according to claim 2 , wherein the leaf valve and the plate have a ring shape, and the damping valve further comprises: a shaft member provided with the leaf valve and the plate mounted on an outer periphery of the shaft member in a manner freely movable in an axial direction; and a stopper stacked on the shaft member, the stopper restricting an amount of retreat of the leaf valve and the plate from the valve disc. 4. The damping valve according to claim 1 , further comprising a ring spacer interposed between an inner peripheral seat of the valve disc and the leaf valve, the inner peripheral seat being provided inside with respect to the passage of the valve disc, wherein one or a plurality of the ring spacers are provided. 5. A damper comprising: a cylinder, the damping valve according to claim 1 housed in the cylinder; an extension-side chamber and a contraction-side chamber partitioned in the cylinder by the valve disc; and a piston rod movably inserted into the cylinder, the piston rod being coupled to the valve disc, wherein the passage allows communication between the extension-side chamber and the contraction-side chamber. 6. The damper according to claim 5 , wherein the biasing mechanism biases the leaf valve using one or both pressures of the extension-side chamber and the contraction-side chamber. 7. A damper comprising: a cylinder; a damping valve housed in the cylinder, the damping valve comprising a valve disc that includes a passage for a fluid and a valve seat, the valve seat surrounding an exit end of the passage, a ring-shaped leaf valve stacked on the valve disc, the leaf valve separating from and being seated on the valve seat to open and close the passage, and a biasing mechanism configured to cause a variable biasing force to act on the leaf valve toward the valve disc side, wherein a clearance is formed between the leaf valve and the valve seat in a state in which the leaf valve is stacked on the valve disc with no load, and the leaf valve is configured to retreat as a whole in an axial direction with respect to the valve disc, by a pressure of the fluid in the passage, a retreating of the leaf valve causing a size of the clearance to enlarge; an extension-side chamber and a contraction-side chamber partitioned in the cylinder by the valve disc; and a piston rod movably inserted into the cylinder, the piston rod being coupled to the valve disc, wherein the passage allows communication between the extension-side chamber and the contraction-side chamber; the passage includes an extension-side passage and a contraction-side passage that allow communication between the extension-side chamber and the contraction-side chamber; the valve seat includes an extension-side valve seat and a contraction-side valve seat, the extension-side valve seat surrounding an exit end of an extension-side passage and the contraction-side valve seat surrounding an exit end of a contraction-side passage; the leaf valve includes an extension-side leaf valve and a contraction-side leaf valve, the extension-side leaf valve opening and closing the extension-side passage, the contraction-side leaf valve opening and closing the contraction-side passage; the biasing mechanism includes: an extension-side spool configured to bias the extension-side leaf valve, an extension-side back-pressure chamber configured to press the extension-side spool by internal pressure, a contraction-side spool configured to bias the contraction-side leaf valve, a contraction-side back-pressure chamber configured to press the contraction side spool by internal pressure, a communication passage communicated with the contraction-side back-pressure chamber via an extension-side resistance element configured to impart a resistance to a flow of passing liquid, the communication passage being communicated with the extension-side back-pressure chamber via a contraction-side resistance element configured to impart a resistance to a flow of passing liquid, an extension-side pressure introduction passage configured to accept only a flow of liquid heading from the extension-side chamber to the contraction-side back-pressure chamber, a contraction-side pressure introduction passage configured to accept only a flow of liquid heading from the contraction-side chamber to the extension-side back-pressure chamber, an adjustment passage connected to the communication passage, a contraction-side discharge passage that allows communication between a downstream of the adjustment passage and the extension-side chamber, the contraction side discharge passage being configured to accept only a flow of liquid heading from the adjustment passage to the extension-side chamber, an extension-side discharge passage that allows communication between the downstream of the adjustment passage and the contraction-side chamber, the extension side discharge passage being configured to accept only a flow of liquid heading from the adjustment passage to the contraction-side chamber, and an electromagnetic pressure control valve provided at the adjustment passage and configured to control upstream pressure of the adjustment passage; and an extension-side load is larger than a contraction-side load when the pressure in the extension-side back-pressure chamber is equal to the pressure in the contraction-side back pressure chamber, the extension-side load biasing the extension-side leaf valve by the pressure of the extension-side back-pressure chamber, the contraction-side load biasing the contraction side leaf valve by the pressure of the contraction-side back-pressure chamber. 8. The damper according to claim 7 , wherein the extension-side spool has a pressure-receiving area that receives the pressure of the extension-side back-pressure chamber larger than a pressure-receiving area of the contraction-side spool that receives the pressure of the contraction-side back-pressure chamber.