An image forming apparatus includes: a light source; a photosensitive member; a brushless motor including a stator and a rotor; a rotary polygon mirror rotated by the brushless motor; an energization switching unit that turns on/off energizations of the coils; a voltage detecting unit that outputs a
An image forming apparatus includes: a light source; a photosensitive member; a brushless motor including a stator and a rotor; a rotary polygon mirror rotated by the brushless motor; an energization switching unit that turns on/off energizations of the coils; a voltage detecting unit that outputs a detection signal based on induced voltages generated in coils of the stator by rotation of the rotor; and a motor controlling unit that controls the turning on/off of the energizations by the energization switching unit based on the detection signal. In a non-image forming period after one image forming operation, the motor controlling unit performs a low-speed process where the motor controlling unit maintains a rotation speed of the brushless motor at a speed, which is lower than a speed in the image forming operation, and at which the induced voltages are detectable by the voltage detecting unit.
대표청구항▼
1. An image forming apparatus comprising: a light source configured to emit a light beam;a photosensitive member configured to carry a toner image;a brushless motor comprising: a stator in which a plurality of coils are placed; anda rotor in which a plurality of magnets are placed;a rotary polygon m
1. An image forming apparatus comprising: a light source configured to emit a light beam;a photosensitive member configured to carry a toner image;a brushless motor comprising: a stator in which a plurality of coils are placed; anda rotor in which a plurality of magnets are placed;a rotary polygon mirror, which is rotated by the brushless motor, and which is configured to periodically deflect the light beam emitted from the light source to sequentially form scanning lines on the photosensitive member;an energization switching unit configured to turn on and off energizations of the coils;a voltage detecting unit configured to output a detection signal based on induced voltages that are generated in the coils by rotation of the rotor;a motor controlling unit configured to control the turning on/off of the energizations by the energization switching unit based on the detection signal;a fixing unit configured to thermally fix the toner image transferred to a recording medium from the photosensitive member; anda heat controlling unit that is configured to: perform a fixing temperature control, during the image forming operation, in which a temperature of the fixing unit is maintained at a fixable temperature; andstop the fixing temperature control in a non-image forming period,wherein, in a non-image forming period after one image forming operation is ended, the motor controlling unit performs a low-speed process, andwherein, in the low-speed process, the motor controlling unit is configured to maintain a rotation speed of the brushless motor at a speed, which is less than a speed in the image forming operation, and at which the induced voltages are detectable by the voltage detecting unit,wherein, in the low-speed process, the motor controlling unit is further configured to: maintain the rotation speed of the brushless motor at a first rotation speed, which is less than the speed in the image forming operation, until the temperature of the fixing unit becomes less than a first temperature;decrease the rotation speed of the brushless motor, when the temperature of the fixing unit becomes less than the first temperature, from the first rotation speed to a second rotation speed at which the induced voltages are detectable by the voltage detecting unit; andmaintain the rotation speed of the brushless motor at the second rotation speed until the temperature of the fixing unit becomes less than a second temperature. 2. The image forming apparatus according to claim 1, wherein the motor controlling unit stops the low-speed process when a reference time has elapsed after the end of the one image forming operation even in the non-image forming period. 3. The image forming apparatus according to claim 2, wherein the motor controlling unit forcibly stops the brushless motor to stop the low-speed process. 4. The image forming apparatus according to claim 2, wherein the reference time is a time when the temperature of the fixing unit is decreased to a threshold temperature, which is less than the fixable temperature, in the non-image forming period. 5. The image forming apparatus according to claim 4, wherein a time elapsing before the temperature of the fixing unit is raised from the threshold temperature to the fixable temperature by the fixing temperature control is equal to or longer than a time elapsing before the brushless motor is brought from a stop state to a rotation state in which the brushless motor rotates at the rotation speed in the image forming operation by the motor control. 6. The image forming apparatus according to claim 1, wherein, in the non-image forming period, the motor controlling unit is configured to control rotation driving of the brushless motor at a rotation speed such that: the rotation speed is decreased in accordance with temperature reduction of the fixing unit in a stepwise manner; andwhen an instruction for starting the image forming operation is received, the rotation speed can be returned to the rotation speed in the image forming operation by the motor control before, at a latest, the temperature of the fixing unit reaches the fixable temperature by the fixing temperature control. 7. The image forming apparatus according to claim 1, further comprising: a transferring unit which, in a case where instructions for starting a next image forming operation is not issued within a predetermined time after the image forming operation is ended, transfers the image forming apparatus to a power saving mode where a power consumption is further reduced than the image forming operation,wherein during execution of the power saving mode, the motor controlling unit does not execute the low-speed process. 8. The image forming apparatus according to claim 1, wherein the plurality of coils are connected via a star connection, andwherein the voltage unit is connected to a neutral point of the star connection and an end point of each coil of the plurality of coils different from the neutral point.
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