초록 ▼

A method of operating a washing machine to detect unbalanced loads has been developed. The method includes operating a motor to rotate a tub holding a load at a first rotational rate that is below a threshold rotational rate, identifying a mass of the load, operating the motor to rotate the tub at a

A method of operating a washing machine to detect unbalanced loads has been developed. The method includes operating a motor to rotate a tub holding a load at a first rotational rate that is below a threshold rotational rate, identifying a mass of the load, operating the motor to rotate the tub at a second rotational rate that is above the threshold rotational rate, identifying a power applied to the motor to continue rotation of the tub at the second rotational rate, obtaining an out of balance mass value from a memory with reference to the power applied to the motor, second rotational rate, and identified mass, identifying a maximum rate for the tub with reference to the out of balance mass value, and operating the motor to rotate the tub at a rate that is less than or equal to the maximum rate.

대표청구항 ▼

1. A method of operating a washing machine comprising: operating a motor to rotate a tub holding a load at a first rotational rate, the first rotational rate being less than a first predetermined threshold rotational rate and being greater than a rotational rate that enables the load to remain in co

1. A method of operating a washing machine comprising: operating a motor to rotate a tub holding a load at a first rotational rate, the first rotational rate being less than a first predetermined threshold rotational rate and being greater than a rotational rate that enables the load to remain in contact with an inner surface of the rotating tub;identifying a torque applied by the motor to continue to rotate the tub at the first rotational rate;identifying a mass of the load with reference to the torque and the first rotational rate;operating the motor to rotate the tub at a second rotational rate, the second rotational rate being greater than the first predetermined threshold rotational rate;identifying an electrical power level applied to the motor to continue rotation of the tub at the second rotational rate;obtaining an out of balance mass value from a memory with reference to the identified electrical power level applied to the motor, the second rotational rate, and the identified mass;identifying a maximum rotational rate for the tub with reference to the out of balance mass value; andoperating the motor to rotate the tub at a third rotational rate that is less than or equal to the identified maximum rotational rate and the third rotational rate being greater than the first predetermined threshold rotational rate. 2. The method of claim 1, wherein the third rotational rate is less than the first rotational rate. 3. The method of claim 1, wherein the first predetermined threshold rotational rate is a rotational rate that enables the tub to move in a linear manner with respect to a suspension. 4. A washing machine comprising: a rotatable tub having a volume for holding a load;a suspension operatively connected to the tub, the suspension being configured to dampen linear movement of the tub;an electrical motor operatively connected to the rotatable tub and configured to rotate the tub at a plurality of rotational rates;a power sensor configured to identify an amount of electrical power consumed by the motor during rotation of the tub; anda controller operatively connected to the motor, power sensor, and a memory, the controller being configured to: operate the motor to rotate the tub holding a load at a first rotational rate, the first rotational rate being less than a first predetermined threshold rotational rate and being greater than a rotational rate that enables the load to remain in contact with an inner surface of the rotating tub, the first predetermined threshold rotational rate being between five hundred rotations per minute and seven hundred fifty rotations per minute;identify a torque applied by the motor to continue rotation of the tub at the first rotational rate;identify a mass of the load with reference to the torque and the first rotational rate;operate the motor to rotate the tub at a second rotational rate, the second rotational rate being above the first predetermined threshold rotational rate;identify an electrical power level applied to the motor to continue rotation of the tub at the second rotational rate;identify an out of balance mass value of the load with reference to the electrical power level applied to the motor, the second rotational rate, and the identified mass of the load;identify a maximum rotational rate for the tub with reference to the out of balance mass value and the identified mass of the load; andoperate the motor to rotate the tub at a third rotational rate that is less than or equal to the identified maximum rotational rate. 5. The washing machine of claim 4 further comprising: a temperature sensor configured to generate a signal corresponding to a temperature of the power sensor, the controller being operatively connected to the temperature sensor and further configured to identify the electrical power level applied to the motor with reference to the electrical power identified by the power sensor during rotation of the tub and the temperature of the power sensor. 6. The washing machine of claim 4, wherein the third rotational rate is less than the first rotational rate. 7. The washing machine of claim 4, wherein the first predetermined threshold rotational rate is a rotational rate that enables the tub to move in a linear manner with respect to a suspension. 8. The washing machine of claim 4, the controller being further configured to: operate the motor to rotate the tub at a predetermined rotational rate that enables the tub to move in a linear manner with respect to the suspension, the tub holding a second load having a first predetermined mass and an object having a second predetermined mass, the second load being configured to distribute in a substantially uniform manner on an internal surface of the tub in response to rotation of the tub and the object being configured to generate an unbalanced force on the tub in response to rotation of the tub;identify an electrical power level applied to the motor to continue rotation of the tub at the predetermined rotational rate; andstore a value corresponding to the second predetermined mass in the memory in association with the predetermined rotational rate, the first predetermined mass, and the identified electrical power level applied to the motor to continue rotation of the tub at the predetermined rotational rate. 9. The washing machine of claim 8, the controller being further configured to: operate the motor to rotate the tub at a second predetermined rotational rate that is greater than the predetermined rotational rate, the tub holding the second load having the first predetermined mass and the object having the second predetermined mass;identify a second electrical power level applied to the motor to continue rotation of the tub at the second predetermined rotational rate; andstore a value corresponding to the second predetermined mass in the memory in association with the second predetermined rotational rate, the first predetermined mass of the second load, and the second identified electrical power level applied to the motor to continue rotation of the tub at the second predetermined rotational rate.