(1) The working principle of the clutch when rotating in a clockwise direction. During washing, the clutch electromagnet is not energized, the moving iron core blocks the brake band, so that the spring sleeve cannot rotate, the torsion spring (small) is loosened by the spring sleeve, and the torque of the wheel hub cannot Transfer to the inner hub (2). At the same time, the torsion spring (middle) is wound tightly, the inner hub (1) and the inner hub (2) are integrated, and the torque of the dehydration barrel is transmitted to the inner hub (2). The inner hub (1) and the brake disc are integrated. When the torque of the dehydration barrel is transmitted to the brake disc, the brake disc generates friction to prevent the dehydration barrel from following rotation. At this time, the torque generated by the motor's operation is transmitted to the pulsator shaft through the pulley and gear assembly, and the pulsator rotates in a clockwise direction.
(2) The working principle of the clutch when it rotates counterclockwise. When washing, the clutch electromagnet is not energized, and the moving iron core blocks the brake band, making the spring sleeve unable to rotate. At this time, the torsion spring (small) and the torsion spring (middle) are in the loosening direction: the torque cannot be transmitted to the inner hub (2) and the brake disc, and the brake disc does not generate friction. The anti-reversal spring installed on the brake disc seat shaft is wound tightly to generate friction to prevent the dehydration barrel from following rotation. At this time, the torque generated by the motor's operation is transmitted to the pulsator shaft through the pulley and gear assembly, and the pulsator rotates counterclockwise.
