Sheet processing apparatus

What is claimed is: 1. A sheet processing apparatus comprising: a frame; a motion member provided above the frame, wherein the motion member includes a tip portion and a base portion, the tip portion is provided with an acting member that processes a sheet, and the base portion is supported by the frame to be rotatable about a first shaft which is fixed with respect to the frame; and an operation member that is provided above the motion member and supported by the motion member to be rotatable about a second shaft which is fixed with respect to the motion member between the tip portion of the motion member and the first shaft, wherein the frame includes a contact part to be contacted to the operation member, and a location of a contact position at which the contact part contacts the operation member is displaceable, wherein the operation member is rotated with a force applied from an operator, and the motion member is rotated with a force of the operation member applied through the second shaft, and applies force to the acting member, wherein, as the operation member is operated to be rotated, the contact position between the contact part of the frame and the operation member is changed such that a fulcrum of a rotating operation of the operation member moves so that a first length between the fulcrum and a part at which the operation member is applied with the force is changed, and a second length between the fulcrum and a part at which the force is applied from the operation member to the motion member is changed, and a reduction rate of a load applied to the operation member is thus changed, wherein the operation member is supported to be movable along a shape of a guide part provided in the frame, and wherein the guide part has a shape that moves the fulcrum in a direction in which the first length and the second length are reduced as the operation member is operated. 2. The sheet processing apparatus according to claim 1 , wherein the acting member is a driver that drives a staple to the sheet, and wherein the reduction rate of the load applied to the operation member is set for each of a plurality of processes that is included in an operation where the operation member is operated and thus the driver drives the staple so as to bind the sheets. 3. The sheet processing apparatus according to claim 2 , wherein the reduction rate of the load applied to the operation member is set for each of a first process before a process of separating one staple from a plurality of connected staples by a shearing, a second process of separating the staple by the shearing, and a third process of enabling the staple to penetrate the sheets. 4. The sheet processing apparatus according to claim 3 , wherein the reduction rate of the load that is applied to the operation member in the second process is larger than the reduction rate of the load that is applied to the operation member in the first process, and wherein the reduction rate of the load that is applied to the operation member in the third process is larger than the reduction rate of the load that is applied to the operation member in the second process. 5. The sheet processing apparatus according to claim 1 , wherein the operation member is formed with a shaft hole, wherein the contact part of the frame includes a shaft, and wherein, as the operation member is operated to be rotated, a contact position and a contact angle between the third shaft of the frame and the shaft hole of the operation member is changed such that the fulcrum of the rotating operation of the operation member moves. 6. The sheet processing apparatus according to claim 5 , wherein the shaft hole includes a plurality of zones in which the contact angle with the third shaft is different from each other according to the contact position with the shaft, which is changed by the rotating operation of the operation member. 7. The sheet processing apparatus according to claim 1 , wherein, as the operation member is operated to be rotated, the second shaft is moved with respect to the frame and the contact position between the contact part of the frame and the operation member is changed such that the fulcrum of the rotating operation of the operation member moves.