KR100905268B1 - Apparatus for diagnosing safety of clean water facility using pressure - Google Patents

Abstract

A pressure-typed apparatus for diagnosing safety of a purification plant is provided to perform washing a filter net and filtering of water efficiently by pressurizing the water in a settling tank and to diagnose of a safety state of the purification plant through relation between a water level and pressure. A pressure-typed apparatus for diagnosing safety of a purification plant includes a transfer part(100), a diagnosis part(200), and a pressurization part. The transfer part comprises a rotary pole(110), a drive motor(120), and a transfer screw(130). The both ends of the rotary pole is arranged on the both sides of a filter box(20) connected to a pump(10), and a penetration hole formed on an antibacterial filter(21). The diagnosis part comprises a pressure sensing sensor(210), a water level detecting sensor(220), and a display part(230). The pressurization part comprises a press panel(310), a press piston(320), a press cylinder(330) and a support stand(340), and a control part. A reverse current preventing valve(31) is installed on an inlet hole of the settling tank.

Description

Safety Diagnosis Device of Pressure Water Purification Facility {APPARATUS FOR DIAGNOSING SAFETY OF CLEAN WATER FACILITY USING PRESSURE}

The present invention relates to a safety diagnosis device for a pressure-type water purification facility, and more particularly, to continuously diagnose the internal pressure of the water purification facility and to appropriately adjust the pressure applied thereto to provide a high-quality water safety facility. It relates to a diagnostic device.

In general, water purification is used as drinking water by chlorination of groundwater or elution with good water quality.However, water from a river or lake can be supplied as a drink without removing harmful impurities such as turbidity and bacteria. Since it does not exist, it is purified and used as drinking water. There are two methods of water purification: slow filtration and rapid filtration. Slow filtration is not only able to provide safe and tasty high quality water, but also has the advantages of being easy to manage and requiring no chemicals or power. It is rarely used in recent years because it requires manpower and difficult defects to automate. The rapid filtration method currently used mainly serves as a chemical precipitation basin, and the filtration rate is usually 120 to 150 (m / day) .In this case, when a flocculant such as aluminum sulfate is injected and the chemical is mixed in the mixed paper, the hydrate of aluminum The clay particles and bacteria in the water are combined by mutual movement to make a fine precipitate, which is introduced into the sediment formation site, and then stays for 20 to 40 minutes, aggregates into a large sediment and stays for 3 to 4 hours in the sedimentation pond. Suspended solids are removed by sedimentation and suspended solids are not removed from the drug settler. However, unlike slow filtration, bacteria and microorganisms will leak into the filtrate, so chlorine sterilization should be performed as a third process for sterilizing these organisms. Although there are some differences depending on the results of the pretreatment, in the case of continuous filtration for 1 to 2 days, the filtration is not blocked and the filtration is not possible. At this time, using the pressure water from above, it destroys the film deposited on the surface of the sand layer. At the same time the bottom is flushed with purified water to clean the filter bed back to restore the filtration function. This rapid filtration method can be purified even if the turbidity and color is high, it takes a small paper area, there is an advantage that no manpower is required because the cleaning of the filtration is mechanically automated.

By the way, the purification facility according to the rapid filtration method is difficult to supply a constant pressure of water, it is difficult to check the pressure when supplying water, there is a problem that the filtration and washing process is not efficient.

The present invention has been made to solve the above-described problems of the prior art, by applying pressure to water within a certain range can not only efficiently achieve its filtration and cleaning of the filter network, but also the pressure applied to the water in real time The purpose of the present invention is to provide a safety diagnosis device for a pressure-type water purification facility that can confirm the operation status of the water purification facility.

In order to achieve the above object, the present invention, a pump for supplying water at a constant pressure, a filter box in which a plurality of antibacterial filters are installed at regular intervals to purify the water supplied by the pump, and the filter box A device for diagnosing safety of a pressure-type water purifying facility including a sedimentation tank in which water falling through the sedimentation tank is sedimented and moved, both ends of one side and the other side of a filter box connected to the pump and through holes formed in a straight line in the antibacterial filter. The rotatable pole is rotatably disposed, the drive motor is installed outside the filter box to rotate the rotary pole, and the portion of the portion located between the antibacterial filter to transfer the water in the filter box in the direction of the other side thereof A transfer part made of a transfer screw installed on the rotary pole; A pressure sensor installed in the lower part of the sedimentation tank, a water level sensor installed horizontally in the input hole of the upper part of the sedimentation tank formed so that water in the filter box falls, and a measured value of the pressure sensor and the water level sensor A diagnosis unit comprising a display unit for displaying the display unit; A pressurizing panel disposed in the upper part of the settling tank, a pressurizing piston disposed vertically upwardly from an upper surface of the pressurizing panel to be elevated in the settling tank inner space, and disposed at an upper part of the settling tank to receive or discharge fluid from the outside; A pressurized cylinder which enables the linear movement of the pressurized piston, a support fixed to the upper surface of the settling tank outer side to support the pressurized cylinder, and a fluid amount of the pressurized cylinder according to the measured value of the level sensor And a pressurizing unit made of a control unit for adjusting the quantity of water supplied through the pump according to the measured value of the sensing sensor.

In addition, the on / off control of the pump and the drive motor and the measured value display of the pressure sensor and the water level sensor can be displayed, and further comprising a terminal portion capable of controlling the pressurizing portion, the pressurizing piston is lowered in the input hole of the sedimentation tank As it is characterized in that the non-return valve for preventing the water flow back to the filter box side.

As described above, the safety diagnosis device of the pressure type purification system according to the present invention operates the pressurizing unit and the pump in accordance with the measured value of the pressure sensor or the water level sensor to apply pressure to the water of the sedimentation tank within a certain range. Its filtration and cleaning of the filtering network in the water purification facility can be efficiently performed, and the level and pressure are checked in real time through the display unit and the terminal connected to each sensor to check the safety state of the water purification facility through the relationship between the water level and the pressure. Diagnosis can be made.

Hereinafter, with reference to the drawings will be described a safety diagnosis device of a pressure-type water purification facility according to the present invention.

1 is a cross-sectional view showing a safety diagnosis device of a pressure-type water purification facility according to the present invention, Figure 2 is a partial cross-sectional view showing a transport unit, a diagnostic unit, a pressurizing unit of the safety diagnosis device of the pressure-type water purification facility according to the present invention, 3 is a cross-sectional view showing an operating state of the safety diagnosis device of the pressure type purification facility according to the present invention.

Safety diagnosis device of the pressure-type purified water facility according to the present invention is a pump 10 for supplying water at a constant pressure, and a plurality of antimicrobial filter 21 to clean the water supplied by the pump 10 at regular intervals. In addition to the pressure-type water purifying facility including a filter box 20 spaced apart from each other and a sedimentation tank 30 in which water falling through the filter box 20 is settled and moved, the water in the filter box 20 is settled. Transfer unit 100 for smoothly transporting up to 30, the diagnostic unit 200 for checking the water level and the pressure of the water in the settling tank 30, and the pressurizing unit 300 for applying pressure to the water in the settling tank 30 ).

The transfer part 100 is a rotary pole 110 is rotatably disposed at both ends of the through-hole formed in a straight line on one side and the other side and the antibacterial filter 21 of the filter box 20 connected to the pump 10 and Is installed between the filter box 20, the drive motor 120 for rotating the rotary pole 110 and the antibacterial filter 21 to transfer the water in the filter box 20 in the other side direction thereof Consists of a transfer screw 130 is installed in the rotary pole 110 of the portion, even when the amount of water introduced into the filter box 20 by the pump 10 is small, the water in the bottom of the filter box 20 sedimentation tank ( 30), and when the amount of water introduced is large, the water can be strongly impinged by the antimicrobial filter 21 to separate the foreign matter from the filter and at the same time increase the amount of water passing through. In addition, by installing a bearing in the through-hole of the filter box 20 will be able to more smoothly rotate the rotating pole 110.

The diagnostic unit 200 is a level of water level installed horizontally in the pressure sensor sensor 210 is installed in the lower portion of the sedimentation tank 30 and the input hole of the upper portion of the sedimentation tank 30 formed so that the water in the filter box 20 falls. The sensor 230, the pressure sensor 210 and the display unit 230 for displaying the measured value of the water level detection sensor 220 is composed of a display unit 230 is located on the outer surface of the sedimentation tank (30) It is possible to check the water level and the water pressure in the settling tank 30, and attach a table indicating the relationship between the water level and the water pressure measured in advance, and compare the table with the value measured in the display 230. This makes it possible to check the water level, water pressure, and sensor abnormality without having to convert the measured values of the sensor into length units or pressure units.

The pressing unit 300 is a pressing panel 310 disposed in the upper portion of the sedimentation tank 30, and the pressing piston 320 is vertically disposed from the upper surface of the pressing panel 310 to be elevated in the inner space of the sedimentation tank 30. And a pressurized cylinder 330 disposed above the settling tank 30 to receive or discharge fluid from the outside to enable the linear movement of the pressurized piston 320 and a pressurized cylinder fixed to the outer upper surface of the settling tank 30. The support 340 supporting the 330 and the fluid level of the pressure cylinder 330 according to the measured value of the water level level sensor 220 or the pump 10 according to the measured value of the pressure sensor 210. Control unit 350 for adjusting the quantity supplied from the. Here, the pressure panel 310 has a size smaller than the inner circumferential surface of the settling tank 30 so as not to come into contact with the water level level sensor 220 installed in the settling tank 30, and the pressurized piston 320 is used to filter or filter various filters. Is installed above the settling tank 30 is provided with a composition for the size of the linear movement in a range that is not in contact with the filtering network or the purification composition, the pressure cylinder 330 is supplied with fluid from a tank in which the fluid is stored outside As the fluid is returned to the tank, the pressure piston 320 is operated, and the support 340 is installed on the upper surface of the settling tank 30 so that the pressure cylinder 330 is fixed, and the control unit 350 is pressurized. When the water is filled up to the installation position of the water level level sensor 220 is electrically connected to the detection sensor 210 and the water level level sensor 220 to operate the pressure piston 320 to be installed in the control unit 350. After pressurizing the water for a predetermined time, the pressurized piston 320 is returned to its original position, thereby increasing the quantity and water pressure which are transferred to the water purification tank, the aeration tank, the sterilization tank, etc., which are connected to the precipitation tank 30 next. Remove the foreign matter stuck to the composition through the blocked portion of the filter net installed in the tank, or if the value measured by the pressure sensor 210 is less than the value set in the control unit 350 to increase the quantity supplied through the pump (10) The pressure range of the water in the settling tank 30 is adjusted. The pressure sensor 210 and the water level sensor 220 are installed for a complementary relationship, and the water pressure in the sedimentation tank 30 is normally managed by the pressure sensor 210 and then the pressure sensor 210. If an abnormality is generated), the mandatory hydraulic pressure management of the pressurizing unit 300 through the water level detection sensor 220 is performed.

Furthermore, the safety diagnosis device of the pressure type purification facility according to the present invention can display the on / off control of the pump 10 and the driving motor 120 and display the measured values of the pressure sensor 210 and the water level sensor 220. And, further comprising a terminal 400 capable of controlling the pressing unit 300, the operation state and control for each part can be separately confirmed and performed through the terminal 400, a more convenient function in use On the other hand, the inlet hole of the sedimentation tank 30 is closed with the lowering of the pressure piston 320 and is opened in accordance with its rise to prevent water from flowing back toward the filter box 20 as the pressure piston 320 descends. The non-return valve 31 is installed.

Components such as the pump 10, the drive motor 120, the pressure piston 320, the non-return valve 31 in the safety diagnostic device of the pressure type purification facility having the structure as described above is the pressure sensor 210 When the pump 10 and the driving motor 120 are operated through the measured value of, the non-return valve 31 is kept open and the pressure piston 320 is positioned at the top of the operating range and is stopped. When the pressure piston 320 descends through the measured value of the water level level sensor 220, the control unit 350 is closed such that the non-return valve 31 is closed and the pump 10 and the driving motor 120 are stopped. Can be controlled. In addition, the terminal unit 400 may turn on / off the pump 10 and the driving motor 120 as previously described through the control unit 350, and the pressure sensor 210 and the water level sensor 220. It can display the measured value of and can control the operation, such as the movement of the pressure cylinder 320, the opening and closing of the non-return valve 31, respectively.

1 is a cross-sectional view showing a safety diagnosis device of a pressure type purification facility according to the present invention.

Figure 2 is a partial cross-sectional view showing a conveying unit, a diagnostic unit, a pressurizing unit of the safety diagnosis device of the pressure type water purifying facility according to the present invention.

Figure 3 is a cross-sectional view showing the operating state of the safety diagnosis device of the pressure type purified water facility according to the present invention.

Claims (3)

Pump 10 for supplying water at a constant pressure, the filter box 20 is provided with a plurality of antimicrobial filter 21 is provided at regular intervals to purify the water supplied by the pump 10, and the filter In the device for diagnosing the safety of the pressure-type water purification facility comprising a settling tank 30 in which water falling through the box 20 is settled, One side and the other side of the filter box 20 connected to the pump 10 and the rotary pole 110 is rotatably disposed at both ends through a through hole formed in a straight line in the antimicrobial filter 21, and the filter box 20 is installed outside the drive motor 120 for rotating the rotary pole 110 and the portion located between the antibacterial filter 21 to transfer the water in the filter box 20 in the other side direction thereof. A transfer part 100 formed of a transfer screw 130 installed at the rotary pole 110; Pressure level sensor 210 is installed in the lower portion of the sedimentation tank 30, and the water level level sensor 220 is installed horizontally in the input hole of the upper portion of the sedimentation tank 30 formed so that the water in the filter box 20 falls. A diagnostic unit 200 including a display unit 230 for displaying the measured values of the pressure sensor 210 and the water level sensor; The pressing panel 310 disposed in the upper portion of the settling tank 30, the pressing piston 320 is vertically disposed from the upper surface of the pressing panel 310 to be elevated in the inner space of the settling tank 30, and the A pressure cylinder 330 disposed at an upper portion of the sedimentation tank 30 to receive or discharge fluid from the outside to enable the linear movement of the pressure piston 320, and fixed to an upper surface of the sedimentation tank 30 outside the In accordance with the support 340 for supporting the pressure cylinder 330 and the measured value of the water level level sensor 220, the amount of fluid in the pressure cylinder 330 is adjusted or the measured value of the pressure sensor 210 is adjusted. Safety according to the pressure-type water purification facility, characterized in that consisting of; pressurizing portion 300 consisting of a control unit 350 for adjusting the amount of water supplied through the pump (10). The method according to claim 1, The on / off control of the pump 10 and the driving motor 120 and the display of the measured values of the pressure sensor 210 and the water level sensor 220 are possible, and the terminal capable of controlling the pressurizing unit 300. Safety diagnosis device of the pressure-type water purification facility, characterized in that the unit further comprises 400. The method according to claim 1 or 2, Pressure-type water purifier, characterized in that the inlet hole of the settling tank 30 is installed with a non-return valve (31) for preventing water from flowing back toward the filter box 20 as the pressure piston (320) descends Safety diagnosis device of the facility.

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