Patent ID: 9690237
Date: 2017-06-27
CPC Classifications: G03G

Claim:
1. An image forming apparatus comprising: an apparatus main body having a housing space formed therein and an opening communicating with the housing space; a transfer unit including an extending roller including a rotation shaft and a transfer belt supported on the extending roller, the transfer unit being able to be inserted into the housing space through the opening along a first direction that crosses an axial direction of the rotation shaft and is a direction from the opening toward the housing space; a pair of support members provided in the apparatus main body, spaced apart from each other in the axial direction across the housing space, and configured to support the transfer unit inserted in the housing space and support the rotation shaft such that the rotation shaft is movable in the first direction; a guide groove extending from an end portion, at an opening side, of each of the pair of support members toward the first direction so as to branch each of the pair of support members into two parts and configured to guide the rotation shaft in the first direction while supporting the rotation shaft in a process of inserting the transfer unit; a positioning groove provided at a deep portion of a guide surface in the first direction, for the rotation shaft, in the guide groove and configured to position the transfer unit at a predetermined mounting position in a state where the rotation shaft has fitted in the positioning groove; a pressing member provided so as to be rotatable about a support shaft provided at the opening side with respect to the positioning groove, formed in a shape of an arm extending from the support shaft in the first direction, and extending in the axial direction, the pressing member being configured to come into contact with the rotation shaft and press the rotation shaft in a groove depth direction of the positioning groove when the rotation shaft is present in a range from a fit-in position at which the rotation shaft has fitted in the positioning groove to an escape position at which the rotation shaft has escaped from the positioning groove; a pressing force application portion including a contact portion of the pressing member, the contact portion being configured to come into contact with the rotation shaft, the pressing force application portion being configured to apply a first pressing force in the groove depth direction to the rotation shaft in a fit-in state where the rotation shaft is located at the fit-in position, and apply a second pressing force in the first direction to the rotation shaft against the first pressing force in an escape state where the rotation shaft is located at the escape position; and a biasing member located between the support members and the pressing member and configured to apply, to the pressing member, a biasing force in a direction in which the contact portion comes into contact with the rotation shaft, wherein the pressing force application portion includes a first projection portion and a second projection portion that are spaced apart from each other in an extension direction of the pressing member and project downward, wherein the first projection portion has a first contact point and a third contact point, the first contact point coming into contact with a circumferential surface of the rotation shaft in the fit-in state, the third contact point coming into contact with the circumferential surface of the rotation shaft in the escape state, the second projection portion has a second contact point that comes into contact with the circumferential surface of the rotation shaft in the escape state, and the pressing force application portion applies the first pressing force at the first contact point, applies a third pressing force, including a first component force in a second direction opposite to the first direction, to the rotation shaft at the third contact point, and applies the second pressing force, including a second component force in the first direction, to the rotation shaft at the second contact point, the second component force being greater than the first component force.