JPH1043756A - Pressurizing pump controller for water purifying machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To protect a pressurizing pump by interrupting the operation of the pressurizing pump in case a filter clogs and to announce the same to a user. SOLUTION: A current sensing sensor 20 senses the operating current of the pressurizing pump 3 and outputs the voltage value proportional to the operating current. A microcomputer 50 outputs a 'low' level signal from an output terminal Out2 to an inverter IC1 when the voltage value impressed from the current sensing sensor 20 deviates from a normal voltage value. As a result, a power source Vcc impressed on a relay RY is shut off and the power source Vcc is shut off as well. The microcomputer 50 outputs a 'high' level signal from an output terminal Out1 to an inverter IC2 when the voltage value impressed from the current sensing sensor 20 deviates from the normal voltage value. As a result, a light emitting diode LED is turned on by impressing the Vcc thereon.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water purifier for purifying raw water such as tap water, and more particularly to detecting a clogged filter of a water purifier and stopping the operation of a pressure pump when the filter is clogged. , While protecting the pressure pump,
The present invention relates to a pressure pump control device for a water purifier, which notifies a user of filter clogging.

[0002]

2. Description of the Related Art In modern society, as water pollution due to industrial development becomes more serious, water purifiers for purifying raw water such as tap water are widely used in ordinary households and the like. The system diagram of such a water purifier is shown in FIG. FIG. 1
The water purifier illustrated in FIG. 1 supplies raw water such as tap water to a pretreatment filter 1, a pressurizing pump 3, a reverse osmosis pressure filter,
Water is purified through the post-processing filter 7 and the like, stored in the storage tank 9, and then flows out as treated water.

[0003] In this case, relatively large particles of impurities present in the raw water are removed and supplied to the pressurizing pump 3.
Thus, the low-pressure water is supplied to the reverse osmotic pressure filter 5 while being maintained at a constant water pressure. Further, the reverse osmotic pressure filter 5 processes the water flowing through the pressure pump 3 by a reverse osmotic pressure method, removes fine particles, bacteria, and the like existing in the water, and provides the post-treatment filter 7 with the same. The post-treatment filter 7 performs the role of recovering lost water by the pre-treatment filter and the reverse osmosis pressure filter 5 and flows into the water purification tank 9. Such a water purifier is provided with a pressurized pump control device that interrupts the operation of the pressurized pump 3 when the original water is cut off.

One embodiment of the above-described pressurized pump control device can be shown in FIG. 2, but the conventional pressurized pump control device shown in FIG.
W1, the microcomputer 10, the inverter IC1, and the relay RY. The above-mentioned outage detection switch S
W1 is turned off when the source water is cut off, the voltage Vcc applied from the outside is applied to the input terminal In of the microcomputer 10, and is turned on when the source water continues to flow, and is turned on. Voltage Vcc applied to terminal In
Cut off. When the voltage Vcc is applied through the input terminal In, the microcomputer 10 interrupts the operation of the pressurizing pump 3, and when the voltage Vcc applied through the input terminal In is cut off, Is operated.

That is, when the voltage Vcc is applied through the input terminal In, the microcomputer 10 outputs a signal of a "low" level through the output terminal Out.
As described above, when a low-level signal is output through the output terminal Out of the microcomputer 10, current cannot flow to the ground of the inverter IC1 through the relay RY due to the externally applied voltage Vcc. Since the RY stops, the relay switch RY-b is turned off, the power applied to the pressurizing pump 3 is cut off, and the operation of the pressurizing pump 3 is interrupted.

When the voltage Vcc applied through the input terminal In is cut off, the microcomputer 10 outputs a signal of "high" level through the output terminal Out to operate the relay RY. Accordingly, the relay switch RY-b is turned on and power is applied to the pressurizing pump 3, so that the pressurizing pump 3 operates. That is, when the original water is cut off, the cut-off detection switch SW1 is turned off.
Then, the operation of the pressure pump 3 is interrupted to prevent the pressure pump 3 from being damaged by idling.

However, when the water purifier performs the water purification operation for a certain period of time or more, the pretreatment filter and the reverse osmotic pressure filter 7 are clogged, and the water purifier cannot exhibit a smooth water purification ability. there were. That is, if the filter is clogged as described above, when the pressure pump 3 is forcibly operated to perform the water purification operation, the pressure pump is deteriorated and the life of the pressure pump 3 is shortened. There was a point.

[0008]

SUMMARY OF THE INVENTION According to the present invention, a filter for a water purifier is provided which detects clogging of a filter of a water purifier and, when the filter is clogged, interrupts the operation of the pressure pump to protect the pressure pump. It is an object to provide a pressure pump controller. Another object of the present invention is to detect clogging of a filter of a water purifier, and to notify a user when the filter is clogged.

[0009]

According to the present invention, there is provided a pressurizing pump control device for a water purifier according to the present invention, which is connected to both ends of a pressurizing pump and detects a filter clogging. Means, a power supply means for applying or interrupting the operating current of the pressurized pump according to the output of the sensing means, and a display means for notifying a user of the replacement time of the filter by the output of the sensing means. It is characterized by being performed. Therefore,
When the filter is clogged and the filter is clogged, the operation of the pressurizing pump is interrupted to protect the pressurizing pump and notify the user of the filter clogging.

[0010]

FIG. 3 is a circuit diagram of a pressurizing pump control device for a water purifier according to the present invention. The pressurizing pump control device according to the present invention includes a current sensing sensor 20, a power supply means 30, and a display. And means 40. The power supply means 30 includes a microcomputer 50, an inverter IC1, and a relay RY, while the display means 40 includes a microcomputer 50,
It is configured to include an inverter IC2 and a light emitting diode LED. R1, not described above
R2 is a bias resistor, D1 and D2 are stabilizing diodes, and SW1 is a water cutoff switch. In the pressurizing pump control device configured as described above, the current sensor 20 detects the operating current of the pressurizing pump 3 and outputs a voltage value proportional to the operating current.

The power supply means 30 supplies or interrupts the operation current of the pressure pump 3 according to the voltage value output from the current sensor 20. In the power supply means 30 described above, when the voltage value applied by the current sensing sensor 20 deviates from a normal voltage value, the microcomputer 50 outputs a signal of low level through the output terminal Out2 to the inverter IC1. And the power supply Vc applied to the relay RY
By shutting off c, the relay RY is stopped and the power supply Vcc applied to the pressurizing pump 3 is shut off.

The display means 40 informs the user when to replace the filter based on the voltage value output from the current sensor 20. In the above-described display means 40, when the voltage value applied by the current sensing sensor 20 deviates from a normal voltage value, the microcomputer 50 outputs a signal of "high" level to the inverter IC2 through the output terminal Out1. The light emitting diode LED is turned on by outputting the power and applying the power supply Vcc to the light emitting diode LED.

As described above, the operation of the pressurizing pump control device for a water purifier according to the present invention will be described in detail as follows. When the pressurizing pump 3 is operated, the operating current of the pressurizing pump 3 increases or decreases in proportion to the water pressure applied to a filter connected to both ends of the pressurizing pump 3.
For example, if the operating current value of the pressurizing pump 3 is in the range of 1 to 10, when the pretreatment filter connected to the front end of the pressurizing pump 3 is clogged, the operating current value of the pressurizing pump 3 becomes 1 If the reverse osmotic pressure filter connected to the rear end of the pressure pump 3 is clogged, the pressure pump 3
Is increased to about 8-9. When both the pre-processing filter and the post-processing filter are not clogged, the operating current value of the pressurizing pump 3 is about 4 to 6.

The current sensing sensor 20 senses the operating current value of the pressurizing pump 3 which changes as described above, and applies a voltage signal of 0 to 5 V to the microcomputer 50 in proportion to the operating current value.

The microcomputer 50 determines a state of a filter connected to both ends of the pressurizing pump 3 based on a voltage value applied by the current sensing sensor 20, and determines that the filter is not clogged. And the output terminal O
A high level signal is output through ut2. As described above, when a high-level signal is output through the output terminal Out2 of the microcomputer 50, a current flows through the relay RY to the ground of the inverter IC1, and the relay RY operates. is turned on, the power supply Vcc is applied to the pressure pump 3, and the pressure pump 3 operates.

The microcomputer 50 determines the state of a filter connected to both ends of the pressurizing pump 3 based on the voltage value applied by the current sensing sensor 20, and determines that the filter is not clogged. When it is determined, a low-level signal is output through the output terminal Out1. As described above, when a low-level signal is output through the output terminal Out1 of the microcomputer 50, no current flows through the light emitting diode LED, and the light emitting diode LED is turned off.

On the other hand, the microcomputer 50 determines a state of a filter connected to both ends of the pressurizing pump 3 based on a voltage value applied by the current sensing sensor 20, and when it is determined that the filter is clogged. , Output terminal O
A low level signal is output through ut2. As described above, when a low-level signal is output through the output terminal Out2 of the microcomputer 50, current does not flow to the ground of the inverter IC1 through the relay RY, and the relay RY stops, so that the relay switch RY-b Is turned off, the power supply Vcc applied to the pressure pump 3 is cut off, and the operation of the pressure pump 3 is interrupted.

The microcomputer 50 determines the state of a filter connected to both ends of the pressure pump 3 based on the voltage value applied by the current sensing sensor 20, and determines that the filter is clogged. And the output terminal O
A high level signal is output through ut1. As described above, when a high-level signal is output through the output terminal Out1 of the microcomputer 50, the current is changed to the light emitting diode LE.
The current flows through D to the ground of the inverter IC1, and the light emitting diode LED is turned on.

[0019]

According to the present invention as described above, it is detected that the filter of the water purifier is clogged, and when the filter is clogged, the operation of the pressurizing pump is stopped to protect the pressurizing pump. However, it is possible to inform the user that the filter of the water purifier is clogged.

[Brief description of the drawings]

FIG. 1 is a system diagram of a general water purifier.

FIG. 2 is a circuit diagram of a conventional pressure pump control device.

FIG. 3 is a circuit diagram of a pressure pump control device according to the present invention.

[Explanation of symbols]

 1: Pretreatment filter 3: Pressurized pump 5: Reverse osmotic pressure filter 7: Post-treatment filter 9: Storage tank 10, 50: Microcomputer 20: Current sensing sensor 30: Power supply means 40: Display means

Claims (5)

[Claims] 1. A detecting means for detecting clogging of a filter connected to both ends of a pressurizing pump, and a power supply means for applying or interrupting an operating current of the pressurizing pump according to an output of the detecting means. A pressure pump control device for a water purifier, comprising: 2. The current sensing sensor according to claim 1, wherein said sensing means is a current sensing sensor that senses an operating current value of said pressurizing pump and outputs a voltage value proportional to the sensed operating current value. Pressure pump control device for water purifier. 3. The power supply means is activated when power is applied from the outside, and a relay for supplying operation power of the pressurizing pump and a voltage value applied by the current sensor are normal. A microcomputer that outputs a high voltage only in a typical state, and when a high-level signal is input from the microcomputer,
The pressurization pump control device for a water purifier according to claim 2, further comprising an inverter that applies power to the relay and operates the relay. 4. The water purifier according to claim 2, further comprising a display unit for notifying a user of a replacement time of a filter connected to both ends of the pressure pump based on an output of the sensing unit. Pressure pump control device. 5. The display unit outputs a high voltage when a voltage value applied by the current sensing sensor deviates from a normal voltage value, wherein the display unit emits light when power is externally applied. A microcomputer configured to apply power to the light-emitting diode when a high-level signal is applied from the microcomputer 50 and to turn on the light-emitting diode. 4. The pressurizing pump control device of the water purifier according to 4.