This application claims the benefit of Korean Application(s) No. 10-2003-0074062 filed on Oct. 23, 2003 which is/are hereby incorporated by reference.
1. Field of the Invention
The present invention relates to a washer and washing cycle control method thereof.
2. Discussion of the Related Art
Generally, a drum type washer has a configuration shown in
Referring to
A sensor hose 60 is connected to a bottom of the tub 20. And, a water level sensor 50 is provided to a tip of the sensor hose 60 to sense an amount of water supplied to the tub 20. The water level sensor 50 applies a signal of sensing the amount of water to a system control unit 70.
Referring to
A method of measuring a laundry amount in a drum type washer according to a related art is explained by referring to
Referring to
The control unit 75 sends a gate drive control signal and a PWM (pulse width modulation) signal to drive the BLDC motor 40. In doing so, the control unit agitates the drum 40 in forward-to-reverse directions so that water can be evenly absorbed in the laundry.
After the water has been evenly absorbed in the laundry by agitating the drum 40 in the forward-to-reverse directions, the water level, as shown in
If the water level is lowered below the previously set water level by the water absorption in the laundry, the control unit 75 decides whether a water re-supply is necessary.
If deciding that the water re-supply is necessary, the control unit 75 stops agitating the drum 30 in the forward-to-reverse directions. After having re-supplied water up to the previously set water level, the control unit 75 agitates the drum 30 again.
The control unit 75 repeatedly performs the above-explained procedure during a prescribed time t1 and counts the number of performing the water re-supply.
After the prescribed time t1 has passed, the control unit 75 decides the laundry amount of the laundry according to the counted number of performing the water re-supply. If the counted number is small, it is decided that the laundry amount is small. If the counted number is great, it is decided that the laundry amount is large.
A criteria of deciding the laundry amount according to the water re-supply number is determined via tests to be programmed in the control unit 75.
For instance, if the water re-supply number is smaller than ‘2’, it is decided that the laundry amount of the laundry is smaller than 2 kg. If the water re-supply number is greater than ‘7’, it is decided that the laundry amount of the laundry is greater than 5 kg.
However, the related art laundry amount deciding method is carried out in a manner of deciding the laundry amount using the water re-supply number after completion of supplying the water into the drum, whereby a washing time is fixed regardless of the laundry amount of the laundry as well as an amount of used water is almost identical.
Hence, a washing cycle time is unnecessarily taken so long as to waste power consumption. And, the amount of the used water is unnecessarily sufficient to waste water.
Accordingly, the present invention is directed to a washer and washing cycle control method thereof that substantially obviate one or more of the problems due to limitations and disadvantages of the related art.
An object of the present invention, which has been devised to solve the foregoing problem, lies in providing a washer and washing cycle control method thereof, by which a laundry amount of a laundry can be measured prior to a water supply despite a dry state of the laundry.
It is another object of the present invention to provide a washer and washing cycle control method thereof, by which the waste of power consumption and unnecessary use of water can be prevented.
The present invention is characterized in finding to use a motor RPM amount of an acceleration section, a motor RPM amount of a deceleration section, and a motor drive voltage amount applied during the acceleration time by accelerating to stop a rotation of a drum using a motor prior to a water supply. Thus, the present invention measures a laundry amount of the laundry.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent to those having ordinary skill in the art upon examination of the following or may be learned from a practice of the invention. The objectives and other advantages of the invention will be realized and attained by the subject matter particularly pointed out in the specification and claims hereof as well as in the appended drawings.
To achieve these objects and other advantages in accordance with the present invention, as embodied and broadly described herein, in a washer comprising a drum holding a laundry therein and a motor rotating the drum, there is provided a method of controlling a washing cycle, including the steps of applying a drive voltage to the motor during an acceleration section to measure a motor RPM amount and a drive voltage amount during the acceleration section before supplying water to the drum, stopping supplying the drive voltage to the motor to measure a motor RPM amount of a deceleration section, and measuring a laundry amount of the laundry using the motor RPM amount of acceleration section, the drive voltage amount of the acceleration section, and the motor RPM amount of the deceleration section.
In another aspect of the present invention, there is provided a washer including a drum holding a laundry therein, a motor rotating the drum, and a control unit executing a sub-routine for measuring a laundry amount of the laundry prior to a water supply to the drum, the sub-routine including the steps of applying a ramp drive voltage to the motor during an acceleration section to measure a motor RPM amount and a drive voltage amount during the acceleration section, stopping supplying the ramp drive voltage to the motor to measure a motor RPM amount of a deceleration section, and measuring a laundry amount of the laundry using the motor RPM amount of the acceleration section, the drive voltage amount of the acceleration section, and the motor RPM amount of the deceleration section.
Preferably, the laundry amount is found by ‘area-A×Vref/Vdc+C×area-B/area-A’ where A, B, Vref, Vdc, and C are the motor RPM amount of the acceleration section, the motor RPM amount of the deceleration section, a reference DC voltage, a DC drive voltage amount applied during the acceleration section, and a constant for weight, respectively.
Therefore, the laundry amount of the laundry is measured prior to supplying the water to the washer, whereby the power consumption for the laundry amount measurement and a used water amount can be considerably reduced.
It is to be understood that both the foregoing explanation and the following detailed description of the present invention are exemplary and illustrative and are intended to provide further explanation of the invention as claimed.
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principle of the invention. In the drawings:
Reference will now be made in detail to the preferred embodiment(s) of the present invention, examples of which are illustrated in the accompanying drawings. Throughout the drawings, like elements are indicated using the same or similar reference designations where possible.
First of all, a washer according to one embodiment of the present invention includes a drum holding a laundry therein, a motor rotating the drum, and a control unit executing a sub-routine for determining a laundry amount of the laundry prior to a water supply to the drum.
And, the sub-routine includes the steps of applying a ramp drive voltage to the motor during an acceleration section to measure an RPM amount of the motor and a drive voltage amount during the acceleration section, stopping supplying the ramp drive voltage to the motor to measure the RPM amount of the motor during a deceleration section, and measuring the laundry amount of the laundry using the RPM amount of the motor during the deceleration section.
The acceleration section lies between a start time point of supplying the drive voltage to the motor and an end time point of supplying the drive voltage to the motor. And, the deceleration section lies between the end time point of supplying the drive voltage and a rotation-stop time point of the motor.
Configurations of the drum type washer and the control drive are equivalent to those in
Yet, the control unit, which generates the various corresponding control signals according to various signals inputted from the water level sensing unit and the rotational speed sensing unit, measures the laundry amount of the dry laundry instead of determining the laundry amount of the laundry according to the water supply number in the related art method.
The control unit of the drum type washer accelerates a rotation of the motor by applying a ramp drive voltage to the motor during a prescribed time before supplying water to the drum and then short-circuits three-phase coils of the motor. Namely, the control unit stops the supply of the ramp drive voltage applied to the motor to decelerate the accelerated motor, thereby stopping the rotation of motor eventually.
Meanwhile, the control unit measures a motor RPM amount of the acceleration section, a motor RPM amount of the deceleration section, and the ramp drive voltage amount applied to the motor during the acceleration section. In the embodiment of the present invention, the motor is the three-phase coil type DC motor and the ramp drive voltage is DC voltage. Subsequently, the control unit enables to measure the laundry amount of the laundry which is in a dry state using the motor RPM amount of the acceleration section, the motor RPM amount of the deceleration section, and the ramp drive voltage amount applied to the motor during the acceleration section.
A function of measuring the laundry amount using the measure information will be explained later by referring to
In performing the washing cycle in the drum type washer, the control unit, as shown in
Namely, when a user puts the laundry in the drum of the drum type washer, the control unit controls the motor drive unit before supplying the water to the drum so that a DC voltage having a uniform slope, i.e., ramp drive voltage, to the motor to accelerate the rotation of the motor.
In doing so, the acceleration section is determined to lie between 2˜5 seconds. Specifically, the acceleration section is determined to correspond to about two or three seconds in case of a small laundry, i.e., light load. And, the acceleration section is determined to correspond to about five seconds in case of a heavy load. As mentioned in the foregoing description, the acceleration section can be previously determined according to a kind or amount of the laundry appropriately.
After the acceleration section has passed, the control unit short-circuits the three-phase coils of the DC motor to decelerate the accelerated motor, thereby stopping the motor eventually.
During the acceleration and deceleration sections, the control unit measures the motor RPM amount of the acceleration section, the motor RPM amount of the deceleration section, and the ramp drive voltage applied to the motor during the acceleration section. The control unit then measures the precise laundry amount of the laundry in the dry state using the measured information.
Meanwhile, the control unit determines the washing time and water amount for the washing cycle based on the measured laundry amount and then executes the washing cycle according to the determined washing time and water,
In doing so, a DC ramp voltage, as shown in
In
The control unit measures the laundry amount of the laundry using the motor RPM amount (area-A) of the acceleration section, the motor RPM amount (area-B) of the deceleration section, and the DC ramp voltage Vdc applied to the motor during the acceleration section.
And, the laundry amount can be found by Function 1 as follows.
In Function 1, ‘area-A×Vref/Vdc’ means a voltage compensation because the area-A is affected by the laundry amount of the laundry and the DC drive voltage.
In Function 1, ‘C×area-B/area-A’ means an area compensation because the area-B is affected by the laundry amount of the laundry and the area-A.
In Function 1, the constant ‘C’ is considered as a weight for the ‘area-A×Vref/Vdc’ and ‘Vref’ is a DC reference voltage. In case of DC voltage, the ‘Vref’ is about 5V.
Referring to
As mentioned in the foregoing description of the washer and control method thereof according to the embodiments of the present invention, the laundry amount of the laundry in the dry state is measured prior to supplying the water to the washer, whereby the washing time and the water amount can be appropriately determined. Moreover, the present invention enables to prevent the energy and water from being unnecessarily wasted.
It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention cover such modifications and variations, provided they come within the scope of the appended claims and their equivalents.
Number | Date | Country | Kind |
---|---|---|---|
P 2003-0074062 | Oct 2003 | KR | national |