KR100476545B1 - Ion water generating method in washing machine - Google Patents

Abstract

A method for supplying electrolytic water to a washing machine is disclosed. According to the present invention, a) a step of table mapping the weight step information for detecting the appropriate amount of electrolyzed water corresponding to the weight of the laundry in multiple steps; b) detecting the start of washing; c) starting water supply with an electrolysis device and calculating the time from the start of the water supply until the bottom of the float switch is operated; d) determining whether the time calculated in step c) exceeds the reference value, and setting the stepwise unit time to N seconds when the calculated time exceeds the reference value; e) extracting the weight stage information according to the table map, and setting the water supply time by integrating the extracted weight stage information and N seconds; h) after the water supply time is counted, electrolysis of the electrolysis device is performed, so that the amount of basic wash water can be provided corresponding to the weight of the laundry, thereby preventing the generation of unnecessary basic wash water. In addition, it is possible to obtain an effect that can prevent unnecessary energy consumption. In addition, in the float switch, since the capacity of the basic washing water is identified in a plurality of stages by using only one bed instead of two bills, the cost of the system implementation can be reduced.

Description

ION WATER GENERATING METHOD IN WASHING MACHINE

The present invention relates to a washing machine, and more particularly, to an electrolytic water supply method of a washing machine so that the amount of the electrolyzed water (basic washing water) supplied into the reservoir of the washing machine is properly made according to the laundry.

Generally, detergent-free washing machines inject electrolytes such as sodium chloride (NaCl) and sodium carbonate (Na ₂ CO ₃ ) to dissolve in tap water to induce chemical reactions through electrolysis in order to ensure that the wash water supplied to the reservoir is basic. As shown in FIG. 1, an electrolysis apparatus of a washing machine for inducing such a chemical reaction includes an electrolyte chamber housing 103 having a predetermined shape for accommodating the electrolyte and generating electrolytic water through an electrolysis reaction with tap water. And, having a shape corresponding to the electrolyte housing 103 and the wash-water housing 105 for generating a basic wash water through the electrolysis reaction with tap water, the electrolyte room housing 103 and the laundry room housing 105 The ion exchange membrane 109 is retained therebetween.

In addition, a positive electrode plate 107 is formed between the electrolyte chamber housing 101 and the ion exchange membrane 109 for electrolysis, and a negative electrode plate 111 is formed between the laundry chamber housing 105 and the ion exchange membrane 109. It is provided to supply DC power to each electrode plate. Accordingly, an electrolyte chamber is formed between the ion exchange membrane 109 and the positive electrode plate 107, and a laundry chamber is formed between the ion exchange membrane 109 and the negative electrode plate 111. In order to supply a predetermined amount of water, a water supply pipe located at an upper end, an input pipe for supplying an electrolyte such as sodium chloride or sodium carbonate, and an electrolytic water outlet for discharging the aqueous electrolyte solution are provided at the bottom of the electrolyte chamber.

The washing bag has a water supply pipe for supplying tap water to the upper part thereof, a gas outlet for discharging hydrogen (H ₂ ) gas due to electrolysis, and washing water ionized to a lower part of the washing bag, that is, basic washing water. The wash water discharge pipe 113 is provided with a wash water discharge port for supplying, and a float switch 115 for measuring the amount of basic wash water loaded into the wash bag is mounted inside the wash water discharge pipe. . Float switch 115 is provided with each bed 117 at the top and bottom, and each bed 117 detects the amount of basic washing water.

The electrolysis device 100 configured as described above supplies a predetermined amount of tap water to the water supply pipes of the electrolyte room and the washing room, and the electrolyte is supplied to the inlet pipe through an electrolyte providing device (not shown). In addition, current and voltage are applied to the positive electrode plate 107 and the negative electrode plate 111 to allow electrolysis to be performed in the electrolyte chamber housing 103 and the laundry chamber housing 105. Thus, sodium chloride and sodium carbonate and Carbon dioxide, carbon monoxide and oxygen electrolyzed from water are generated in the electrolyte room, and hydrogen is generated in the laundry room so that the generated gas is discharged through the inlet and the gas outlet, respectively.

At this time, the ion exchange membrane 109 supplies sodium ions (Na +) and hydrogen ions (H +) to the laundry room, and provides hydroxide ions (OH-) to the electrolyte room, whereby the laundry room is formed of basic wash water. will be. Since the basic wash water is used as a washing liquid during washing, it should be set according to the amount of laundry, and the amount of the basic wash water is detected from the float switch 115. That is, after the laundry is loaded in the water reservoir, when the washing starts, the amount of the basic washing water through the float switch 115 is determined according to the loading amount of the laundry. The float switch 115 detects the level of the basic wash water through a switching signal by the pump 117, as two floats 117 are mounted to detect the level of the basic wash water.

Therefore, the basic wash water level of the laundry bag is to detect only the 'low water level' or 'high water level' through the two docks 117, so that the amount of basic wash water supplied into the water reservoir during washing can be excessively supplied to the actual laundry. none. Excessive basic wash water not only decreases the degree of washing, but also causes a problem of increased energy loss for generating basic wash water, and in order to prevent the problem, when the basic wash water is supplied below the reference value, the washing efficiency is deteriorated. Is generated.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an electrolytic water supply method of a washing machine so that the amount of basic washing water supplied into the water storage tank of the washing machine is properly made according to the laundry.

In the electrolytic water supply method of the washing machine according to the aspect of the present invention for achieving the above object, in the electrolytic water supply method of a washing machine equipped with a float switch, a) detecting the appropriate amount of electrolytic water corresponding to the weight of the laundry in a number of steps Tabulating the weight stage information; b) detecting the start of washing; c) starting water supply with an electrolysis device, and calculating a time from the start of water supply to the operation of the lower side of the float switch; d) determining whether the time calculated in c) exceeds the reference value, and setting the stepwise unit time to N seconds when the calculated time exceeds the reference value; e) extracting the weight stage information according to the table map, setting the water supply time by integrating the extracted weight stage information and the N seconds, and skipping to step h); f) setting the step-by-step unit time to M seconds less than the N seconds if the time calculated in c) does not exceed the reference value; g) extracting the weight stage information according to the table map, and integrating the extracted weight stage information and the M second to set a water supply time; And h) after counting the water supply time, performing electrolysis of the electrolysis device.

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

2 is a block diagram showing an electrolytic water supply device of a washing machine according to the present invention. 3 is a flowchart for describing an operating method of FIG. 2. The electrolysis device used in the present invention will be cited in FIG. As shown, the float switch 115 holds two parts 117, each of which is installed at a predetermined distance to detect the water level at that location.

The electrolytic water supply apparatus of the washing machine is composed of an interface 205, a control unit 201, a program memory 203, a water supply valve 207, and a drain valve 209. And the start button 211 for starting the operation of the washing machine is connected to the input port of the control unit 201.

The interface 205 converts the switching signal detected from the float switch 115 into an electrical signal of a predetermined level and provides the control signal to the controller 201, and the water supply valve 207 and the drain valve 209 provided by the controller 201. ) Switching is performed by receiving operation control signal. The program memory 203 is equipped with a timer control program for temporally controlling the amount of the electrolyzed water up to a predetermined step, for example, seven steps according to the amount of laundry.

The control unit 201 calculates a time until the lower float of the float switch 115 is turned on after the washing start button 211 is operated based on a timer control program, and according to the calculation time. The valve control signal for controlling the water supply valve 207 and the drain valve 209 is output by estimating the capacity of the electrolyzed water loaded in the washing room.

The user administers the laundry into the reservoir of the washing machine, and then operates the washing start button 21 for starting the washing (S301). The control unit 201 receives a switching signal of the washing start button 211 and fetches a timer control program preloaded in the program memory 203. In addition, the control unit 201 calculates the weight of the laundry by enabling a load sensor (not shown) to detect the amount of laundry in the reservoir.

The control unit 201 classifies the weight of the laundry in seven steps and calculates the capacity of the electrolyzed water corresponding thereto. That is, to calculate the capacity of the electrolyzed water suitable for the current laundry weight, which may depend on the experimental value and is separated into seven steps as an embodiment of the present invention (S303). The separated weight step information is stored in a predetermined register of the control unit 201. In addition, the control unit 201 generates a valve control signal for operating the water supply valve 207 of the electrolytic apparatus 100 together with detecting the switching signal of the washing start button 211, and starts counting through an internal timer. (S305).

The interface 205 turns on the water supply valve 207 in response to a valve control signal, and supplies tap water to the electrolysis device 100. At this time, it is assumed that the electrolyte is already supplied or individually operated by a predetermined electrolyte supply device. Due to this, the electrolytic water is increased in the washing room, the lower side 117 of the float switch 115 mounted on the washing water discharge pipe 113 flows by buoyancy. Electrical switching due to the flow of the dock 117 is detected at the interface 205 and notified to the controller 201 (S307).

The controller 201 stops the operation of the internal timer and fetches predetermined reference time information in the program memory 203. The reference time information is time information from the start of normal internal pressure water supply to operation of the lower float, and is set to 10 seconds in the present invention. That is, the controller 201 determines whether 10 seconds has been exceeded since the lower float is operated after the water supply valve 207 is opened (S309). As a result of the determination of the control unit 201, if it is determined that the time before the lower float is operated does not exceed 10 seconds, it is determined that the normal water pressure or more and sets the unit time step by step.

The unit time for each step is a time for detecting each step in step 7 above, and in case of normal hydraulic pressure, the time between steps is set to 4 seconds. For example, when the weight step information stored in the register is set in five steps, and the current water pressure is determined to be a pressure higher than the normal value, the control unit 201 returns 5 (steps) x 4 (seconds) = 20 seconds later. It is determined by the amount of electrolytic water corresponding to the step 5 (S311).

On the other hand, in step S309, when the control unit 201 determines that the time before the lower float exceeds 10 seconds, that is, if the current water pressure is lower than the normal value, the step unit time is set to 6 seconds. Therefore, if the current weight step information is set in five steps, the control unit 201 blocks the tap water provided to the electrolysis device 100 by blocking the water supply valve 207 after 25 seconds.

After that, the control unit 201 determines that the appropriate electrolytic water is loaded in the washing bag, and performs electrolysis based on the control program of the preset electrolysis device (S313). When the electrolysis is completed, the basic washing water generated in the washing bag of the electrolysis device 100 is provided as a reservoir. To this end, after detecting the completion of the electrolysis, the control unit 201 operates the drain valve 209 to supply the basic washing water of the washing room to the washing tank.

In addition, when the control unit 201 determines that the time before the operation of the lower float passes a predetermined time compared to the previous state, that is, the control unit 201 receives the water supply received through the interface 205 in S309. The time from the time point to the contact point of the lower end is detected for each washing time, and the final detection result is stored in the memory, and the difference from the water supply time currently detected is calculated to determine whether a time difference of a predetermined value or more occurs. The occurrence of a time difference of more than a predetermined value is determined to be an error of the electrolysis device, so that the error detection time can be shortened.

As described above, the electrolytic water supply method of the washing machine according to the present invention, after calculating the weight step information corresponding to the weight of the laundry to be loaded in the reservoir, the basic washing water amount based on the weight step information, the electrolysis apparatus Calculate the time when the lower side of the float switch operates at the same time as supplying tap water, and if the calculated time exceeds the reference value, it determines that the current water pressure is low and sets the unit time step by step, and the calculated time exceeds the reference value. If not, it is determined that the water pressure is high, and set the unit time for each step short, so that the amount of basic wash water can be provided corresponding to the weight of the laundry by integrating the weight step information and the step time information for each step, thus eliminating unnecessary basic washing. It not only prevents the generation of water, but also prevents unnecessary energy consumption. It can be obtained an effect that.

In addition, in the float switch, the capacity of the basic washing water can be identified in a plurality of stages by using only one bed instead of two bills, thereby reducing the cost of implementing the system.

What has been described above is just one embodiment for implementing the electrolytic water supply method of the washing machine according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims of the present invention Without departing from the gist of the present invention, one of ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

1 is an exploded perspective view showing a general electrolysis device.

2 is a block diagram showing a control device according to the present invention.

FIG. 3 is a flowchart for explaining the operation of FIG. 2.

<Description of Symbols for Main Drawings>

100: electrolysis device 113: washing water discharge pipe

115: float switch 117: coming

201: control unit 203: program memory

205: interface 211: washing start button

Claims (4)

In the electrolytic water supply method of a washing machine equipped with a float switch, a) table-mapping the weight stage information for detecting the appropriate amount of electrolyzed water corresponding to the weight of the laundry in multiple stages; b) detecting the start of washing; c) starting water supply with an electrolysis device, and calculating a time from the start of water supply to the operation of the lower side of the float switch; d) determining whether the time calculated in c) exceeds the reference value, and setting the stepwise unit time to N seconds when the calculated time exceeds the reference value; e) extracting the weight stage information according to the table map, setting the water supply time by integrating the extracted weight stage information and the N seconds, and skipping to step h); f) setting the step-by-step unit time to M seconds less than the N seconds if the time calculated in c) does not exceed the reference value; g) extracting the weight stage information according to the table map, and integrating the extracted weight stage information and the M second to set a water supply time; And h) after counting the water supply time, electrolytic water supply method of the washing machine, characterized in that the step of performing the electrolysis of the electrolysis device. The method of claim 1, wherein the plurality of stages are separated into seven stages. The method of claim 1, wherein N is 6 seconds and M is 4 seconds. The method of claim 1, wherein the step c) further comprises providing an error message when the time from the water supply start time until the lower float of the float switch is operated exceeds a second reference value. Method of supplying electrolytic water to a washing machine.