KR101259698B1 - Water Treatment System of Water Park - Google Patents

Abstract

The present invention relates to a water treatment system for a water play facility, and is intended to provide a water treatment system capable of purifying water by turbidity removal of water and disinfection and continuously using the water.
According to the present invention, the water in the water tank is turbidly removed by a sand filter or a hydraulic filter, and sterilized by a sterilizer or an electronically active water purifier, and a turbidity measuring sensor is installed to warn water turbidity removal And provides a new water treatment system.

Description

[0001] The present invention relates to a water treatment system of a water-

The present invention relates to a water treatment system for a water play facility such as a swimming pool, a water amusement park, a spa, a spa, a bath, a fountain, etc. More particularly, the present invention relates to a water treatment system for water sterilization, The present invention relates to a water treatment system for the management of cattle.

Recently, fountains have been installed not only in indoor and outdoor pools but also in public parks. In particular, the accessibility of the fountain can be improved, allowing visitors to drink water from the fountain and even drink a small amount. Therefore, water treatment facilities for water used in these water facilities are important for environment and health.

The water treatment facilities in the water treatment facility should be specially treated for disinfection of various bacteria including Escherichia coli, tidal treatment of algae, and removal of turbidity by various microorganisms and suspended matter.

However, water treatment facilities for existing water facilities are mostly sterilized, turbidity control systems are not provided, and turbidity measurement systems are also absent.

Korean Patent No. 10-0942843 also discloses a water treatment system for a water treatment facility, in which a clean unit for destroying bacterial cell membranes and sterilizing the water is installed in a water tank to purify the water supplied to the water bath . However, such a water treatment system can not remove water turbidity, and it is impossible to remove suspended solids from sterilization.

Accordingly, an object of the present invention is to provide a water treatment system for eliminating sterilization, salting and turbidity of water used in a watering facility.

The present invention relates to a pump for pumping water from a water tank connected to a water tank;
A filter for filtering water pumped from the pump to remove turbidity of water;
A sterilizing device for sterilizing water filtered out from the filter;
A turbidity measurement sensor for measuring turbidity with respect to the water passing through the filter;
A processor for reading the measured value of the turbidity measurement sensor and executing a notification display for a threshold value or more; And
And a display unit for displaying the notification display,
Wherein the filter is a sand filter or a hydraulic filter,
Wherein the turbidity measurement sensor comprises:
A light source is provided at one end of a channel having a predetermined length and made of a light blocking material and a photodetector is provided at the other end,
Wherein the processor is programmed to detect a flow of a current flowing in a water having a predetermined turbidity at a flow rate corresponding to the length of the water and to perform a notification display.

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Further, the present invention is characterized in that the hydraulic filter includes: a hydraulic motor for pumping up water to an inlet and discharging the water to an outlet;

A micro-screen having a through-hole, the micro-screen being disposed so as to surround a water channel filled with water into which the inlet and the outlet are formed to remove turbidity of water pumped up by the hydraulic motor;

A sludge collector formed on a central axis of the hydraulic motor and passing through both the waterway and the hydraulic motor;

A nozzle connected to the sludge dust collector and having an end directed toward the fine screen;

A partition wall that isolates the waterway from where the hydraulic motor is installed; And

And a rinsing valve connected to the hydraulic motor chamber,

The sludge accumulated on the fine screen by the turbidity removing action is sensed when the discharge pressure of the water is reduced and the rinse valve is opened at the threshold pressure so that the air is discharged to reduce the pressure in the hydraulic motor chamber, And the sludge is sucked into a dust collector, and the sludge dust collector is rotated by the hydraulic motor to discharge the sludge through a through hole formed in the hydraulic motor.

According to the present invention, it is possible to maintain clean and clean water quality continuously without removing the water in the water tank, since the water turbidity removal and the sterilization / licking are carried out together. Nevertheless, when the life of the filter is reached and the water turbidity removing ability reaches the limit, According to the indication by the sensor, it is possible to replace the water newly, so that the water quality management can be done thoroughly.

1 is a block diagram of a preferred embodiment of the present invention.
2 is a configuration diagram of a sand filter constituting the present invention.
3 is a configuration diagram of a hydraulic filter constituting the present invention.
4 is a configuration diagram of a turbidity measurement sensor constituting the present invention.
5 is a configuration diagram of a sterilizing apparatus constituting the present invention.

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

Fig. 1 shows a schematic configuration of an embodiment of the present invention. The facilities such as the water tank 210 connected to the water tank 100 which is a component of the water play facility are installed in the water tank 200 located on the ground near the ground or the water tank 100, 100) to the water tank.

And the water supplied to the water tank 100 is purified through the facilities of the water pool 200 and is recycled to the water tank 100.

That is, the water flowing into the water tank 210 from the water tank 100 may be contaminated with various suspended matters and bacteria. Therefore, the water in the water tank 210 is pumped by the pump 220, A filter 230 capable of removing the filter is installed. Water having turbidity removed by the filter 230 is sent to the sludge (dust, microorganisms such as dead bodies of a microorganism, etc.) in consideration of the turbidity limit for the water of the water play facility recently announced by the sterilizing device 240 A sand filter 23 (shown in FIG. 2) which is generally used may be provided as the filter 230 for removing turbidity by removing the sludge (collectively referred to as sludge). The sand filter 23 is configured to filter the sludge of water passing through the sand and / or fibers by introducing water into the sand and / or fiber-filled housing, To perform a filtering operation and a backwash operation for sludge discharge. The filter 230 may also be constituted by a hydraulic filter as shown in Fig.

The hydraulic filter removes turbidity by the fine screen 232 and is more preferable in that the backwash action is automatically controlled in a purge manner unlike the sand filter 23. That is, the hydraulic filter is driven by a hydraulic motor 239 and surrounds the chamber wall of the water filled with water as the water flows into the inlet 231 and the outlet 233 by the operation of the hydraulic motor 239 The sludge is filtered by the porous fine screen 232 and the turbid water is discharged to the outlet 233. When the sludge is continuously filtered to accumulate the sludge inside the fine screen 232, a pressure difference occurs in the pressure for discharging the water, and when the pressure decrease reaches a predetermined threshold value, the rinse valve 234 Thereby causing the air in the hydraulic motor chamber 236 to decrease in pressure so that it sucks the sludge into the sludge collector 237 through the nozzle 238 while the water is flowing backward. This sludge is sprinkled by the hydraulic motor 239 through the hole in the hydraulic motor 239 by rotating the sludge collector 237. During this backwash operation, the outlet valve 235 may be selectively programmed, but even in the open state, water does not flow out due to backwash of water, and such operations are controlled by an automatic control system. Therefore, even if the backwashing operation for removing the sludge is not performed at a separate time, it is backwashed by the purge method, so that the water treatment system can be continuously operated.

The water from which the turbidity is removed is sterilized by the operation of the sterilizer 240. The sterilizing device may be a silver ion sterilizer (see FIG. 5) for sterilizing by disposing power by applying power to two electrodes made of silver and copper mixed alloy, or an electronically active water machine which makes water particles into active water may be used. In addition, an electronically active water machine having an ion generating device may be used.

As described above, both the turbidity removal and the disinfection are performed, and the purified water is supplied to the water tank 100 again and recycled. However, the turbidity measuring sensor 250 may be installed in case that turbidity removal can no longer satisfy the reference value during continuous recycling.

Fig. 4 is a configuration diagram of the turbidity measurement sensor 240. Fig.

The water passage through which the water passes may be made of a material with a certain light shielding effect or a light shielding film 251 opaque to the tube may be attached to more securely block the penetration of light and a light source 253 may be provided at one end of the channel, And the turbidity is measured by paying attention to the fact that the amount of current flowing through the photodetector 255 decreases according to the turbidity of the water. The gauge is created by the amount of current of the photodetector 255 due to the light of the light source that has passed through the water channel of a predetermined length with respect to the contaminated water whose turbidity is less than the reference value, At this time, the water in the water tank 100 is re-introduced.

It is preferable that the light source 253 is composed of a light source of a blue color system in which scattering is easy to occur with respect to particles, and a module in which a LED is modularized is embedded in a water channel, 255) to reach the light. The photodetector 255 may also be formed in a ring shape, but it is not limited thereto.

The turbidity measuring sensor 250 may be installed in a water channel into the water tank 100 as shown in FIG. 1, but may also be provided with a separate branch from the water channel.

In this way, the water used in the water play facility can be maintained in a clean and hygienic manner, and it is easy to manage the water flood time since it is easy to know the water flood time without any inspection.

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

100: Water tank 200:
210: Water tank 220: Pump
230: filter 231: inlet
232: fine screen 233: outlet
234: Rinse valve 235: Outlet valve
236: Hydraulic motor chamber 237: Sludge collector
238: Nozzle 239: Hydraulic motor
330: Piston
240: Sterilization device 250: Turbidity measuring sensor
251: opaque tube 253: light source
255: Photo detector

Claims (3)

A pump for pumping water from a water tank connected to the water tank;
A filter for filtering water pumped from the pump to remove turbidity of water;
A sterilizing device for sterilizing water filtered out from the filter;
A turbidity measurement sensor for measuring turbidity with respect to the water passing through the filter;
A processor for reading the measured value of the turbidity measurement sensor and executing a notification display for a threshold value or more; And
And a display unit for displaying the notification display,
Wherein the filter is a sand filter or a hydraulic filter,
Wherein the turbidity measurement sensor comprises:
A light source is provided at one end of a channel having a predetermined length and made of a light blocking material and a photodetector is provided at the other end,
Wherein the processor is programmed to sense a case where a current of a current equal to or lower than a current flowing to water having a predetermined turbidity flows at a predetermined number of lengths to perform a notification display.
delete The hydraulic filter according to claim 1,
A hydraulic motor for pumping water to the inlet and discharging the water to the outlet;
A micro-screen having a through-hole, the micro-screen being disposed so as to surround a water channel filled with water into which the inlet and the outlet are formed to remove turbidity of water pumped up by the hydraulic motor;
A sludge collector formed on a central axis of the hydraulic motor and passing through both the waterway and the hydraulic motor;
A nozzle connected to the sludge collector and having an end directed toward the fine screen;
A partition wall that isolates the waterway from where the hydraulic motor is installed; And
And a rinsing valve connected to the hydraulic motor chamber,
The sludge accumulated on the fine screen by the turbidity removing action is sensed when the discharge pressure of the water is reduced and the rinse valve is opened at the threshold pressure so that the air is discharged to reduce the pressure in the hydraulic motor chamber, And the sludge is sucked into the dust collector, and the sludge dust collector is rotated by the hydraulic motor to discharge the sludge through the through hole formed in the hydraulic motor.

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