KR20090070854A - Controlling method for suppling water of standard capacity in dish washer - Google Patents

Abstract

A control method of supplying the fixed quantity of water in a dish washer is provided to prevent waste of water resource and maximize washing efficiency by supplying the fixed quantity of water although water supply pressure of a water service, cold and hot water supply pipe is not fixed. A control method of supplying the fixed quantity of water in a dish washer comprises following steps. Signals are provided from a flow meter(S10). Whether the water supply is started from a supply pipe or not is determined(S20). The flow rate counter is started from the determination point of time after t1 seconds in case water supply is started(S30). Whether passing t2 seconds after flow rate counter beginning or not is determined(S40). The pulse period for the t2 seconds is integrated(S50). In a water service, the pressure of the raw water flowed through a supply pipe is calculated and the flow rate is re-calculated according to the calculated feed water(S60). The flow rate according to the pressure of the calculated feed water and the counted flow rate are compared(S70). The water supply is stopped after achieving set target flow(S90) in case the flow rate according to the pressure of the calculated feed water and the counted flow rate are equal or the counted flow rate exceeds the flow rate according to the pressure of the calculated feed water(S80).

Description

Controlling method for suppling water of standard capacity in dish washer}

The present invention relates to a dishwasher, and more particularly, to a method for controlling the quantitative water supply of a dishwasher, the water supply of which is constant regardless of the water supply pressure of the tap water or cold / hot water supply pipe.

1 is a block diagram showing a flow rate adjusting device of the dish washer according to the prior art.

As shown in FIG. 1, the flow rate adjusting device of the conventional dishwasher includes solenoid valves 3 and 4 installed in the cold water supply pipe 1 and the hot water supply pipe 2 to control water supply, and the solenoid valve 3, respectively. It is operated by the water collecting tank 5 which temporarily stores the water supplied in opening 4), the air chamber 6 which forms air pressure according to the water level supplied to the water collecting tank 5, and the air pressure of the air chamber 6; And the pressure switch 7 for controlling the solenoid valves 3 and 4.

In the conventional flow control device configured as described above, the solenoid valves 3 and 4 are opened so that the cold and hot water introduced from the cold and hot water supply pipes 1 and 2 are supplied to the water collecting tank 5 so that a predetermined amount of water is supplied to the water collecting tank 5. Water is stored, and when the water level of the water collection tank 5 rises during water supply, the air pressure increases in the air chamber 6 by the water pressure, and when the desired water supply is made, the air pressure in the air chamber 6 becomes the pressure switch 7 Since the control unit connected to the pressure switch (7) determines that the desired washing water is supplied into the sump (5), the solenoid valve (3) (4) is closed to shut off the water supply.

However, in the conventional flow control device, since the water supply pressure of the water supply is not constant, an error occurs in the amount of water determined by the control unit, and thus the water supply of a predetermined amount inputted to the control unit into the inside of the dishwasher is not substantially performed. There was a problem in that the amount of water that is substantially greater or less than the amount of water determined by the controller is supplied to the inside of the dishwasher.

For this reason, the flow control device according to the prior art has a problem that causes a waste of the material source and reducing the washing efficiency.

The present invention has been made to solve the above problems, even if the water supply pressure of the water supply or cold, hot water supply pipe is not constant, it is possible to quantitative water supply, unlike the conventional dishwasher that can prevent the waste of materials and maximize the cleaning efficiency The purpose is to provide a method for controlling quantitative water supply.

According to an aspect of the present invention for achieving the above object, a water collecting tank, a supply pipe for receiving raw water from the water supply and guiding the water collection tank, a flow meter installed in the supply pipe to measure the water supply amount, the water supply amount through the flow meter A control method for quantitative water supply in a dishwasher including a control unit for detecting the water supply, comprising: a first step of receiving a signal from the flowmeter and determining whether water supply is started in the supply pipe; If it is determined that water supply has started, a second step of starting a flow counter t1 seconds after the determination time; A third step of determining whether t2 seconds have elapsed since the start of the flow counter; A fourth step of calculating the water supply pressure of the raw water flowing from the water supply through the supply pipe by integrating the pulse period for t2 seconds, and recalculating the flow rate according to the calculated water supply pressure; A fifth step of comparing the counter flow rate and the flow rate according to the calculated water supply pressure, and determining whether the counter flow rate is the same as the flow rate according to the calculated water supply pressure or exceeds the flow rate according to the calculated water supply pressure; And a sixth step of stopping the water supply after achieving the predetermined target flow rate if the condition of the fifth step is satisfied.

According to another aspect of the present invention for achieving the above object, a collection tank, a cold and hot water supply pipe connected to each of the collection tank to supply cold water and hot water, and a solenoid installed in each of the cold and hot water supply pipe to control water supply A meter, a flow meter installed in each of the cold and hot water supply pipes to measure a water supply amount, and a dishwasher including a control unit for detecting a water supply amount through the flow meter and controlling a solenoid valve according to preset information. A control method for controlling the solenoid valve is turned on, the first step of determining whether the water supply to the cold, hot water supply pipe is started by receiving a signal from the flow meter; If it is determined that water supply has started, a second step of starting a flow counter t1 seconds after the determination time; A third step of determining whether t2 seconds have elapsed since the start of the flow counter; A fourth step of calculating the water supply pressure flowing through the cold and hot water supply pipes by integrating the pulse periods for t2 seconds, and recalculating the flow rate according to the calculated water supply pressure; A fifth step of comparing the counter flow rate and the flow rate according to the calculated water supply pressure, and determining whether the counter flow rate is the same as the flow rate according to the calculated water supply pressure or exceeds the flow rate according to the calculated water supply pressure; And a sixth step of stopping the water supply by controlling the solenoid valve to be turned off after the predetermined target flow rate is satisfied, if the condition of the fifth step is satisfied.

In the above-described embodiments, in general, when it is determined that the water supply is not started in the first step, it is determined whether the water supply is started again, and when it is determined that t2 seconds have not elapsed in the third step, it is determined whether t2 seconds have elapsed again. If it is determined in the fifth step that the counter flow rate is not equal to or less than the calculated flow rate according to the calculated water supply pressure, it is preferable to again compare the counter flow rate with the reference flow rate. In addition, it is preferable that t1 is 1 second, and t2 is 3 seconds.

The present invention relates to a method for controlling the quantitative water supply of a dishwasher, and calculates a water supply pressure of raw water or cold / hot water flowing from a tap water or a cold or hot water supply pipe through a supply pipe or a cold or hot water supply pipe by integrating a pulse period for a predetermined time period. After recalculating the flow rate according to the calculated water supply pressure, the flow rate according to the calculated water supply pressure is compared with the counter flow rate, wherein the counter flow rate is equal to or equal to the flow rate according to the calculated water supply pressure. Since the water supply is stopped after determining the target flow rate according to the pressure, the water supply is stopped. Thus, even though the water supply pressure of the water supply or cold and hot water supply pipes is not constant, quantitative water supply is possible. There is an excellent effect to maximize the efficiency.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the method for controlling the quantitative water supply of the dishwasher according to the present invention.

Figure 2 is a block diagram showing an embodiment of a fixed amount water supply device of the dishwasher according to the present invention.

As shown in Figure 2, in the dishwasher according to the present invention is a water supply tank for supplying raw water to the injection nozzle located in the upper, and a supply pipe for receiving the raw water from the water supply to guide the collection tank (10) 20, a flow meter 40 installed in the supply pipe 20 to measure a water supply amount, and a controller 30 to detect the water supply amount through the flow meter 40. Here, the controller 30 and the flow meter 40 are preferably electrically connected.

3 is a flow chart illustrating a method for controlling the apparatus of FIG. 2.

The fixed amount water supply device of the dish washing machine having the above configuration is controlled as in the procedure of FIG. 3.

First, if the signal is supplied from the flow meter (S10) to check whether the water supply is started in the supply pipe (S20).

If water supply has not been started at the supply line, check again if water supply has been started at the supply line.

After determining that water supply has started in the supply pipe (S20), the flow counter starts t1 seconds after the water supply start determination time (S30). T1 is, for example, one second.

Thereafter, it is determined whether t2 seconds have elapsed after the flow counter starts (S40). Here, t2 is for example 3 seconds.

If t2 seconds have not elapsed, it is again determined whether t2 seconds have elapsed since the start of the flow counter.

Thereafter, the pulse period for t2 seconds is integrated (S50), the water supply pressure of the raw water flowing from the water supply through the supply pipe is calculated, and the flow rate according to the calculated water supply pressure is recalculated (S60).

After the step, the counter flow rate is compared with the flow rate according to the calculated water supply pressure (S70), and it is determined whether the counter flow rate is equal to the flow rate according to the calculated water supply pressure or exceeds the flow rate according to the calculated water supply pressure (S80). ).

If, as a result of the comparison, the counter flow rate is not equal to the flow rate according to the calculated water supply pressure or is less than the flow rate according to the calculated water supply pressure, the counter flow rate and the flow rate according to the calculated water supply pressure are again compared.

Thereafter, if the predetermined target flow rate is achieved (S90), the water supply is stopped (S100) and ends.

Figure 4 is a block diagram showing another embodiment of a fixed amount water supply device of the dishwasher according to the present invention.

As shown in Figure 4, in the dishwasher according to the present invention, the fixed amount water supply device is connected to the water collecting tank (100) for supplying cold water and hot water to the injection nozzle located in the upper, and the water collecting tank (100), respectively, to provide cold water and hot water Flow meters installed in the cold and hot water supply pipes 210 and 220 to supply and the solenoid valves 510 and 520 and cold and hot water supply pipes 210 and 220 respectively, which are installed in the cold and hot water supply pipes 210 and 220 to control water supply. 410 and 420, and a controller 300 for sensing the amount of water supplied through the flow meters 410 and 420 and controlling the solenoid valves 510 and 520 according to preset information. Herein, the controller 300 is electrically connected to the solenoid valves 510 and 520 and the flow meters 410 and 420.

First, since the cold water supply pipe 210 and the hot water supply pipe 220 are respectively connected to the water collecting tank 100, cold water and hot water may be selectively supplied to the water collecting tank 100 during washing, and, if necessary, the water collecting tank 100. ) Can supply cold and hot water at the same time.

The solenoid valves 510 and 520 are respectively installed in the cold and hot water supply pipes 210 and 220 to control the water supply state of the water collecting tank 100 while opening and closing the flow paths of the cold and hot water supply pipes 210 and 220, respectively.

The flow meters 410 and 420 are installed in the cold and hot water supply pipes 210 and 220, respectively, and measure the amount of cold water and hot water supplied to the collection tank 100, respectively.

The controller 300 turns off the solenoid valves 510 and 520 to block the water supply when a preset amount of water is detected through the flow meters 410 and 420. In this case, it is preferable that the water supply amount required for the washing stroke and the rinsing stroke is preset for each stroke in the controller 300.

5 is a flowchart illustrating a method for controlling the apparatus of FIG. 4.

The fixed amount water supply device of the dish washing machine having the above-described configuration is controlled in the first to sixth steps, more specifically in the order of FIG. 5.

First, the solenoids are controlled to be turned on (S11), and if a signal is supplied from the flowmeters (S21), it is checked whether water supply is started in the cold and hot supply pipes (S31).

If the water is not started in the hot and cold water supply pipe, check whether the water is started in the hot and cold water supply pipe again.

After it is determined that water supply has started in the cold / hot water supply pipe (S31), the flow rate counter starts t1 seconds after the water supply start determination time (S41). T1 is, for example, one second.

Thereafter, it is determined whether t2 seconds have elapsed since the start of the flow counter (S51). Here, t2 is 3 seconds, for example.

If t2 seconds have not elapsed, it is again determined whether t2 seconds have elapsed since the start of the flow counter.

Thereafter, the pulse period for t2 seconds is integrated (S61), and the water supply pressure flowing through the cold / hot water supply pipe is respectively calculated, and the flow rate according to the calculated water supply pressure is recalculated (S71).

After the step, the counter flow rate is compared with the flow rate according to the calculated water supply pressure (S81), and it is determined whether the counter flow rate is equal to the flow rate according to the calculated water supply pressure or exceeds the flow rate according to the calculated water supply pressure (S91). ).

If, as a result of the comparison, the counter flow rate is not equal to the flow rate according to the calculated water supply pressure or is less than the flow rate according to the calculated water supply pressure, the counter flow rate and the flow rate according to the calculated water supply pressure are again compared.

Subsequently, if the predetermined target flow rate is achieved (S101), after controlling the solenoid valves to be turned off (S111), the water supply is stopped (S121) and ends.

The present invention is capable of quantitative water supply even if the water supply pressure of the tap water or cold and hot water supply pipe is not constant, thereby preventing waste of material sources and maximizing washing efficiency.

1 is a block diagram showing a flow rate adjusting device for a dish washer according to the prior art,

Figure 2 is a block diagram showing an embodiment of a fixed amount water supply device of the dishwasher according to the present invention,

3 is a flowchart illustrating a method for controlling the apparatus of FIG. 2,

Figure 4 is a block diagram showing another embodiment of the fixed amount water supply device of the dishwasher according to the present invention,

5 is a flowchart illustrating a method for controlling the apparatus of FIG. 4.

Explanation of symbols on the main parts of the drawing

10,100: sump 20: supply pipe

30,300: control unit 40,410,420: flow meter

210: cold water supply pipe 220: hot water supply pipe

510,520: solenoid valve

Claims (4)

A water supply tank, a supply pipe for receiving raw water from the water supply and guiding the water collection tank, a flow meter installed in the supply pipe to measure the water supply, and a control unit for detecting the water supply through the flow meter for a fixed amount of water in the dishwasher As a control method, A first step of receiving a signal from the flow meter and determining whether water supply is started in the supply pipe; If it is determined that water supply has started, a second step of starting a flow counter t1 seconds after the determination time; A third step of determining whether t2 seconds have elapsed since the start of the flow counter; A fourth step of calculating the water supply pressure of the raw water flowing from the water supply through the supply pipe by integrating the pulse period for t2 seconds, and recalculating the flow rate according to the calculated water supply pressure; A fifth step of comparing the counter flow rate and the flow rate according to the calculated water supply pressure, and determining whether the counter flow rate is the same as the flow rate according to the calculated water supply pressure or exceeds the flow rate according to the calculated water supply pressure; And And a sixth step of stopping the water supply after the predetermined target flow rate is satisfied, if the condition of the fifth step is satisfied. A water tank, a cold and hot water supply pipe connected to each of the water tanks to supply cold water and hot water, a solenoid valve installed at each of the cold and hot water supply pipes to control water supply, and installed at the cold and hot water supply pipes, respectively, A control method for quantitative water supply in a dishwasher including a flow meter for measuring and a control unit for detecting a water supply amount through the flow meter and controlling a solenoid valve according to predetermined information, A first step of controlling the solenoid valve to be turned on and determining whether water is started to the cold and hot water supply pipe by receiving a signal from the flow meter; If it is determined that water supply has started, a second step of starting a flow counter t1 seconds after the determination time; A third step of determining whether t2 seconds have elapsed since the start of the flow counter; A fourth step of calculating the water supply pressure flowing through the cold and hot water supply pipes by integrating the pulse periods for t2 seconds, and recalculating the flow rate according to the calculated water supply pressure; A fifth step of comparing the counter flow rate and the flow rate according to the calculated water supply pressure, and determining whether the counter flow rate is the same as the flow rate according to the calculated water supply pressure or exceeds the flow rate according to the calculated water supply pressure; And And a sixth step of stopping the water supply by controlling the solenoid valve to be turned off after the predetermined target flow rate is satisfied, if the condition of the fifth step is satisfied. The method according to claim 1 or 2, If it is determined that the water supply has not started in the first step, it is determined whether water supply has started again, and if it is determined that t2 seconds have not elapsed in the third step, it is determined whether t2 seconds have elapsed again, and the flow rate countered in the fifth step If it is determined that the flow rate according to the calculated water supply pressure is not equal to or less than the reference flow rate, the counter flow rate and the reference flow rate again characterized in that the dishwasher control method. The method according to claim 1 or 2, The t1 is 1 second, the t2 is a fixed amount water supply control method of the dishwasher, characterized in that 3 seconds.

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