Binding machine

What is claimed is: 1. A binding machine comprising: a wire feeding unit configured to feed a wire; a curl forming unit configured to form a path along which the wire fed by the wire feeding unit is to be wound around an object; a cutting unit configured to cut the wire wound on the object; a binding unit configured to twist the wire wound on the object and cut by the cutting unit; and a transmission unit configured to transmit movement of the binding unit to the cutting unit, wherein the binding unit comprises a locking member configured to lock the wire, a sleeve configured to actuate the locking member, and a rotary shaft configured to actuate the sleeve, wherein the transmission unit comprises a displacement member configured to be displaced by movement of the sleeve, and a transmission member configured to transmit movement of the displacement member to the cutting unit, wherein the cutting unit comprises a movable blade part connected to the transmission member, and wherein the displacement member is configured to change an amount of movement of the movable blade part in a cutting direction and to change an amount of force imparted by the movable blade part on the wound wire as the displacement member moves within a moving range. 2. The binding machine according to claim 1 , wherein the displacement member is configured to change the amount of movement of the movable blade part and to change the amount of force imparted by the movable blade part when the movable blade part moves to a position where cutting of the wire is started. 3. The binding machine according to claim 1 , wherein the displacement member is configured to rotate about a shaft as a fulcrum, and wherein a distance from the shaft to a first connection portion at which the displacement member is engages with the transmission member or a distance from the shaft to a second connection portion at which the displacement member engages with the sleeve changes based on a rotating operation of the displacement member about the shaft. 4. The binding machine according to claim 3 , wherein the displacement member comprises a cam configured to rotate about the shaft as the fulcrum, wherein the cam has a cam groove whose distance from the shaft varies along a circumferential direction of a rotating operation about the shaft, and wherein the first connection portion or the second connection portion moves along the cam groove as the cam is rotated about the shaft. 5. The binding machine according to claim 3 , wherein the displacement member comprises a lever configured to rotate about the shaft as the fulcrum, wherein the lever comprises a third connection portion, the second and third connection portions being at different distances from the shaft, and wherein engagement between the sleeve and the lever changes from the second connection portion to the third connection portion by a rotating operation of the lever. 6. The binding machine according to claim 1 , wherein the displacement member comprises a cam or a lever configured to rotate by movement of the sleeve. 7. A binding machine comprising: a wire feeding unit configured to feed a wire; a curl forming unit configured to form a path along which the wire fed by the wire feeding unit is to be wound around an object; a cutting unit configured to cut the wire wound on the object; a binding unit configured to twist the wire wound on the object and cut by the cutting unit; and a transmission unit configured to transmit movement of the binding unit to the cutting unit, wherein the binding unit comprises a locking member configured to lock the wire, a sleeve configured to actuate the locking member, and a rotary shaft configured to actuate the sleeve, wherein the transmission unit comprises a displacement member configured to be displaced by movement of the sleeve, and a transmission member configured to transmit movement of the displacement member to the cutting unit, wherein the cutting unit comprises a movable blade part connected to the transmission member, and wherein the displacement member is configured to change an amount of movement of the movable blade part in a cutting direction based on an amount of movement of the sleeve such that the amount of movement of the movable blade part in the cutting direction is larger than the amount of movement of the sleeve when the displacement member is within a first movement range, and the amount of movement of the movable blade part in the cutting direction is smaller than the amount of movement of the sleeve when the displacement member is within a second movement range different from the first movement range.