| 摘要 |
(γ−1)×360×(x/p)−α(x)≠0 is satisfied of L1≦x≦L2, where x is a distance in a shaft line direction in a screw shaft of a first region, L1 and L2 are distances in the shaft line direction of the screw shaft of a lib member, γ is a value obtained by dividing a moving velocity of a developer in a rotation direction in the border line by a moving velocity of an outer circumference surface of a screw blade in the rotation direction, p is a helical pitch, and α(x) is an angle formed by a first straight line and a second straight line passing a point on a conveying surface of the lib member at a point of the distance x and the rotational center of the screw shaft. |
| 主权项 |
1. A developing apparatus, comprising:
a developer bearing member which bears a developer including a toner and a magnetic carrier; a developing container that includes a circulation path in which the developer circulates and contains the developer to be supplied to the developer bearing member; a conveying member which is rotatably installed in the circulation path, and conveys the developer in the circulation path; and an outlet which is formed on a side surface of the circulation path facing the conveying member, and is able to discharge the developer; wherein the conveying member includes a rotating shaft which is rotatable and a helical blade portion which is formed around the rotating shaft, wherein the conveying member has a first region including a region facing the outlet and a second region adjacent to the first region at an upstream in a conveying direction of the conveying member, the helical blade portion is not formed in the first region, a protruding portion protruding from the rotating shaft is formed in at least a part of the first region, and the helical blade portion is formed in the second region, and wherein the length of the protruding portion about the shaft diameter direction of the conveying member is shorter than the maximum outer diameter of the helical blade portion of the conveying member, and the following formula is satisfied of L1≦x≦L2, (γ−1)×360×(x/p)−α(x)≠0, where x is a distance in a shaft line direction of the rotating shaft based on an end point of the first region at an uppermost stream side in the conveying direction of the conveying member, L1 is a distance in the shaft line direction of the rotating shaft between the end point of the first region at the uppermost stream side in the conveying direction of the conveying member and an end point of the protruding portion at an upstream side in the conveying direction of the conveying member, L2 is a distance in the shaft line direction of the rotating shaft between the end point of the first region at the upstream side in the conveying direction of the conveying member and an end point of the protruding portion at a downstream side in the conveying direction of the conveying member, γ is a value obtained by dividing an angular speed of the developer conveyed by the blade portion around the rotating shaft of the conveying member at the end point of the second region at the downstream side by an angular speed of the conveying member, p is a pitch of the helical blade portion of the conveying member in the second region, and α(x) is an angle that is formed by a first straight line and a second straight line when the rotation direction of the conveying member is positive, the first straight line passing an apex of the blade portion at the end point of the second region at the downstream side and a rotational center of the rotating shaft of the conveying member, the second straight line passing through a point that is at a region protruding from the rotating shaft by 0.8×B or more on a developer conveying surface of the protruding portion in a cross section of a point of the distance x in the protruding portion and the rotational center of the rotating shaft, wherein B indicates a distance obtained by subtracting a shaft diameter from an apex of the protruding portion. |
