KR100481376B1 - Washing control method of washing machine - Google Patents

Abstract

In the present invention, the amount of detergent, washing quantity, washing temperature, pulsator on / off time, water station in washing clothes which have a high amount of contaminants such as a shirt (dress shirt) and cause damage to wrinkles and wrinkles caused by dehydration The present invention relates to a laundry control method of a washing machine for improving washing performance by controlling rotation and dehydration time to an appropriate level to prevent tangling and wrinkles as much as possible.

To this end, the present invention is the first process of determining the amount of washing and washing the appropriate amount of water during washing of clothes with a lot of contamination and wrinkles, and if the amount of washing and the appropriate water temperature is determined, more detergent than standard detergent amount and water supply A second process of performing a washing process by rotating the pulsator forward / resting / reverse for a predetermined time when the water supply is completed, and performing a low speed rotation for a predetermined time at the time of final dehydration after the completion of the washing process. It consists of a fourth process of rotating to advance the dehydration stroke.

Description

Washing machine control method

The present invention relates to a washing control method of a washing machine, and more particularly, in washing clothes that have a large amount of contamination such as a shirt (dress shirt) and cause wrinkle damage and wrinkles caused by dehydration. By controlling the temperature, pulsator on / off time, reverse rotation, dehydration time to the appropriate level to prevent tangling and wrinkles as much as possible to improve the washability.

As shown in FIG. 1, the structure of a general washing machine is controlled by an operating power source obtained from a load driving unit (not shown in the accompanying drawings) under the control of a microcomputer (not shown in the accompanying drawings) that controls the overall system operation of the washing machine. Washing motor 1 for generating power by driving, the clutch 5 receives the power generated from the washing motor 1 through the pulley (2), pulley belt (3) and clutch pulley (4), It consists of a pulsator 7 which receives power from the clutch 5 and vortexs the washing water in the washing tank 6.

In the figure, reference numeral 8 denotes laundry.

Referring to FIGS. 1 and 2 attached to the laundry control operation of the general washing machine configured as described above are as follows.

First, when a user puts laundry in the washing tub 6 and sets a washing stroke by pressing a washing key configured in a key input unit (not shown in the accompanying drawings), the microcomputer performs an initial operation by reading a key signal of the key input unit. .

That is, initially, the microcomputer opens the cold water valve and the hot water valve (not shown in the accompanying drawings) through the load driving unit to supply water to a small amount of water in the washing tank 6.

When the water supply to the small amount of water in the washing tank 6 is completed, the microcomputer rotates the washing motor 1 and the pulsator 7 clockwise or counterclockwise through the load driving unit for a predetermined time in order to detect the amount of water in the washing tank 6. After rotating for a predetermined time, the washing motor 1 is turned off through the load driving unit again.

At this time, the washing motor 1 stops slowly as the speed decreases without immediately stopping by the rotational inertia even if the operating voltage is blocked in the load driving unit.

That is, if the amount of water in the washing tank 6 is large, the rotation of the washing motor 1 is stopped more quickly because the friction force between the pulsator 7 and the laundry becomes more severe. The rotation slowly decreases.

In this operation principle, the excitation voltage generated by the rotational inertia force of the washing motor 1 is detected by the quantity detecting unit, the waveform is shaped, converted into a digital signal, and input to the microcomputer.

Accordingly, the microcomputer determines that the quantity of the quantity is large and small according to the number of waveforms obtained from the quantity detecting unit, and sets one washing level among the water level (high level, increasing level, low level, minimum level) and washing according to the determined quantity. Set the time.

After that, the washing administration proceeds for a set time, and when the washing administration is completed, draining is performed after draining.

When the dehydration is completed, the water is supplied to the same water level as the washing water level to proceed with the rinsing stroke.

After the drainage proceeds to dehydration, if not equal to the preset number of dehydration (N = 2) is supplied again and the process is repeated.

In addition, if it is equal to the predetermined number of dehydration (N = 2) to complete the washing administration.

On the other hand, if the water level is selected before the washing selection, the washing, rinsing, and dehydration process are performed based on the selected water level.

However, in the conventional laundry control method of the washing machine, hot water is supplied only when the user selects hot water from the water supply selection. Therefore, when washing clothes with heavy pollution, the proper temperature cannot be set automatically. Since the dehydration time is set regardless of the laundry, there is a problem in that the clothing is easily wrinkled and the appearance of the clothing is damaged.

Therefore, in the present invention, the amount of detergent, washing quantity, washing temperature, pulsator on / off time, and the like in washing clothes that have a large amount of contamination such as a shirt (dress shirt) and cause wrinkle damage and wrinkles caused by dehydration, An object of the present invention is to provide a washing control method of a washing machine for improving washing performance by controlling semen rotation and dehydration time to an appropriate level to prevent tangles and wrinkles.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a structural diagram of a washing machine to which the present invention is applied.

The laundry control operation and effect of the present invention configured as described above will be described with reference to FIG. 3.

First, when the user puts the laundry in the washing tank 6 and presses the washing key configured in the key input unit (not shown in the attached drawing), the user selects the course A, which is a multi- or multi-clothing course dedicated to contamination. The microcomputer performs the initial operation by reading the key signal of the key input unit.

That is, initially, the microcomputer opens the cold water valve and the hot water valve (not shown in the accompanying drawings) through the load driving unit to supply water to a small amount of water in the washing tank 6.

When the water supply to the small amount of water in the washing tank 6 is completed, the microcomputer rotates the washing motor 1 and the pulsator 7 clockwise or counterclockwise through the load driving unit for a predetermined time in order to detect the amount of water in the washing tank 6. After rotating for a predetermined time, the washing motor 1 is turned off through the load driving unit again.

At this time, the washing motor 1 stops slowly as the speed decreases without immediately stopping by the rotational inertia even if the operating voltage is blocked in the load driving unit.

In other words, if there is a large amount of water in the washing tank 6, the rotation of the washing motor 1 is stopped more quickly because the friction force between the pulsator 7 and the laundry becomes more severe. The rotation slowly decreases.

In this operation principle, the excitation voltage generated by the rotational inertia force of the washing motor 1 is detected by the quantity detecting unit, the waveform is shaped, converted into a digital signal, and input to the microcomputer.

The microcomputer judges that the quantity of the quantity is large or small according to the number of waveforms obtained from the quantity detection unit, and sets the appropriate washing quantity of one of the water level (high water level, medium water level, low water level and minimum water level) according to the determined quantity of water, and also the washing time. Will be set.

Here, the proper washing water amount is 30 ~ 35L for 1g ~ 1kg, 45 ~ 50L for 1kg ~ 2kg, which is the same as the amount of rinsing water.

In addition, the appropriate water temperature of the appropriate amount of washing water is determined automatically and the amount of detergent is automatically added to the detergent.

Here, the proper water temperature is 30 ° C ~ 50 ° C most noticeable improvement in washing power against the increase in temperature, the amount of detergent is a predetermined value (α) multiplied by the standard detergent amount.

On the other hand, in a washing machine without an automatic detergent dispensing device, the amount of detergent dispensed is displayed, and the amount of detergent dispensed is a predetermined value α multiplied by the standard detergent amount.

Here, the predetermined value α is a number larger than one.

After that, the water supply is controlled by controlling the cold / hot water valve, and the washing stroke is performed for the set time.

At this time, the forward / rest / reverse rotation time of the pulsator 7 is set to a predetermined value, which is 0.4 seconds / 0.4 seconds / 0.4 seconds and the same when rinsing.

After the washing administration is completed, the drainage and dehydration is performed, and when dehydration is completed, the water is supplied to the same water level as the washing water level to proceed with a rinsing stroke.

After the drainage proceeds to dehydration and then water supply again and the rinse cycle is repeated.

After the rinsing stroke is completed, the draining process is performed after draining. The dehydrating stroke is rotated at a low speed for a predetermined time, and then the washing process is completed after the high speed dehydrating stroke.

Here, the dehydration time is subtracted a predetermined time from the standard dehydration time is to reduce the tangles and wrinkles by shortening the last dehydration administration time.

As described above, the present invention provides a detergent amount, washing quantity, washing temperature, and pulsator on in washing clothes which have a high amount of contamination such as a shirt (dress shirt) and cause damage to wrinkles and wrinkles caused by dehydration. By controlling the on / off time, reverse rotation, dehydration time to an appropriate level, there is an effect that can improve the washability by preventing tangling and wrinkles as much as possible.

1 is a structural diagram of a conventional washing machine to which the conventional and the present invention is applied.

2 is an operation flowchart of a washing control method of a conventional washing machine.

3 is an operation flowchart of a washing control method of a washing machine according to the present invention;

*** Explanation of symbols for the main parts of the drawing ***

1: washing motor 5: clutch

6: washing tank 7: pulsator

Claims (5)

 The first step of determining the amount of washing and washing the appropriate water temperature according to the washing of clothes with a lot of contamination and wrinkles, A second process of supplying more detergent than the standard detergent amount and supplying water when the washing water quantity and the proper water temperature are determined; When the water supply is completed, the third process of proceeding the washing administration by rotating the pulsator forward / rest / reverse for a predetermined time, Comprising a fourth step of proceeding to the dehydration administration by rotating at a high speed after a low speed rotation for a predetermined time when the final dehydration after the washing administration, The washing amount is 30 ~ 35L when the laundry is 1g ~ 1kg, 45 ~ 50L when the laundry is 1kg ~ 2kg, The appropriate water temperature is 30 ℃ ~ 50 ℃, The washing amount of the washing machine, characterized in that the detergent amount is a predetermined value (α) multiplied by the standard detergent amount, and the predetermined value (α) is larger than one. The method of claim 1, The washing amount is the washing control method of the washing machine, characterized in that the same as the amount of rinsing water. The method of claim 1, Washing control method of the washing machine, characterized in that the forward / idle / reverse rotation time of the pulsator is 0.4 seconds / 0.4 seconds / 0.4 seconds respectively. The method of claim 3, Washing control method of the washing machine, characterized in that the pulsator forward / idle / reverse rotation time is the same when washing, rinsing. The method of claim 1, The final dehydration time washing control method of a washing machine, characterized in that the standard dehydration time minus a predetermined time.

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