Patent ID: 8892006

Claim:
A developing device, comprising: a first stirring member comprising a first helical blade extending along an axial direction around a rotary shaft; a second stirring member comprising a second helical blade formed at the same blade pitch as a blade pitch of the first helical blade, the second helical blade extending along an axial direction around a rotary shaft; a first conveyance path in which developer is conveyed from an upstream side to a downstream side by the first helical blade; a second conveyance path in which the developer is conveyed from an upstream side to a downstream side by the second helical blade and which extends adjacently to and in parallel with the first conveyance path; a partition member for separating the first conveyance path and the second conveyance path from each other; a communication portion provided on each end portion side of the partition member in a long side direction so as to circulate the developer in the first conveyance path and the second conveyance path; a developer replenishing port for replenishing developer into one of the first conveyance path and the second conveyance path; a developer discharge port formed at a downstream end portion of the first conveyance path, for discharging surplus developer; and a regulating member constructed of a helical blade which faces the developer discharge port and is provided around the rotary shaft of the first stirring member adjacently to the first helical blade, the helical blade being formed in a reverse phase with respect to the first helical blade, wherein, when a proximity portion at which the first helical blade and the regulating member become closest to each other is at a position facing the communication portion, a blade apex portion of the second helical blade is arranged at a position not facing the communication portion, and in addition the number of blade apex portions of the second helical blade facing the communication portion is zero, wherein the first stirring member and the second stirring member are driven at the same rotational speed, wherein the first and second helical blades have opposite phases to each other, and wherein the first and the second helical blades rotate in the same direction.