Driving force transmission apparatus and image forming apparatus using the same

The invention claimed is: 1. A driving force transmission apparatus; comprising: a driving member configured to rotate by receiving driving force from a driving source; a driven member configured to concentrically rotate with the driving member by receiving driving force from the driving member; an engaging portion configured to be movably held on the driven member and to be engageable with the driving member; an abutted portion configured to be movably held on the driven member; an abutting member configured to be movable between a contact position at which the abutting member is in contact with the abutted portion and a non-contact position at which the abutting member is not in contact with the abutted portion, wherein the engaging portion separates from the driving member in a case where the abutting member is positioned at the contact position; and a biasing member configured to bias the engaging portion, wherein, when the engaging portion is engaged with the driving member, driving force is transmitted from the driving member to the driven member via the engaging portion, wherein, when the engaging portion is disengaged from the driving member, transmission of the driving force from the driving member to the driven member is stopped, wherein the biasing member is disposed between the engaging portion and the abutted portion, wherein biasing force by the biasing member acts on the engaging portion and the abutted portion in directions in which the engaging portion and the abutted portion are attracted to each other, and wherein, when the abutting member is in contact with the abutted portion and the engaging portion is engaged with the driving member, the biasing member biases the engaging portion in a direction where the engaging portion is disengaged from the driving member. 2. The driving force transmission apparatus according to claim 1 , wherein, when the engaging portion is disengaged from the driving member, the engaging portion is moved by biasing force of the biasing member in a direction where the engaging portion is separated away from the driving member. 3. The driving force transmission apparatus according to claim 1 , wherein the biasing member is arranged to act between the abutted portion and the engaging portion, and wherein, while the engaging portion is engaged with the driving member, between when the abutting member comes into contact with the abutted portion and when the engaging portion is disengaged from the driving member, the engaging portion is moved with respect to the abutted portion against the biasing force of the biasing member. 4. The driving force transmission apparatus according to claim 3 , further comprising a regulating portion configured to regulate the movement of the engaging portion with respect to the abutted portion against the biasing force of the biasing member more than a predetermined amount. 5. The driving force transmission apparatus according to claim 1 , wherein the biasing member is a first biasing member, the driving force transmission apparatus further comprising a second biasing member configured to bias the abutted portion, wherein, when the abutting member is not in contact with the abutted portion, the second biasing member biases a force on the engaging portion via the abutted portion to engage the engaging portion with the driving member. 6. The driving force transmission apparatus according to claim 1 , further comprising a second biasing member configured to bias the abutted portion, wherein, when the abutting member is not in contact with the abutted portion, the second biasing member, via the abutted portion, biases the engaging portion to engage with the driving member against the biasing force of the first biasing member. 7. The driving force transmission apparatus according to claim 1 , wherein the abutted portion and the engaging portion are rotatably held on the driven member around a shaft arranged on the driven member. 8. The driving force transmission apparatus according to claim 1 , wherein the engaging portion is rotatably held on the abutted portion around a first shaft arranged on the abutted portion, and the abutted portion is rotatably held on the driven member around a second shaft arranged on the driven member. 9. The driving force transmission apparatus according to claim 8 , wherein an angle between an engaging surface that is a surface including an abutting point with which the driving member being contacted and a line formed by connecting the abutting point and the second shaft is larger when the abutted portion is in contact with the abutting member than when the abutted portion is not in contact with the abutting member. 10. The driving force transmission apparatus according to claim 1 , comprising a reverse rotation prevention member configured to prevent rotation of the driven member in a direction, which is opposite to a direction in which the driven member is rotated by receiving the driving force from the driving member, when the engaging portion is disengaged from the driving member. 11. The driving force transmission apparatus according to claim 1 , wherein, when the abutting member comes into contact with the abutted portion and when the engaging portion is moved from a state in which the engaging portion is engaged with the driving member to the direction where the engaging portion is disengaged from the driving member, a direction in which the biasing member biases the engaging portion is changed from a direction in which the engaging portion is engaged with the driving member to the direction in which the engaging portion is disengaged from the driving member. 12. The driving force transmission apparatus according to claim 11 , wherein the abutting member is movable, and wherein, when the biasing member biases the engaging portion in the direction where the engaging portion is disengaged from the driving member, by causing the abutting member to move and press the abutted portion in a direction where the engaging portion is engaged with the driving member, the direction in which the biasing member biases the engaging portion is changed to the direction in which the engaging portion is engaged with the driving member. 13. The driving force transmission apparatus according to claim 11 , wherein, when the engaging portion is disengaged from the driving member, the engaging portion is moved in a direction where the engaging portion is separated away from the driving member by the biasing force of the biasing member. 14. An image forming apparatus comprising: the driving force transmission apparatus according to claim 1 ; and an image forming unit. 15. The driving force transmission apparatus according to claim 1 , wherein, while the abutting member locks the abutted portion, the driving member and the driven member rotate so that the engaging portion is pulled by the driving member and the abutted portion is pulled by the driven member such that the engaging portion and the abutted portion are moved to be separated away from each other against the force of the biasing member and, when a distance between the engaging portion and the abutted portion is increased to a predetermined distance, the force of the biasing member is increased to a force that pulls the engaging portion away from the driving member to a position where the engaging portion and the driving member are disengaged and cannot reengage.