KR100709121B1 - Production well for riverbed filtration - Google Patents

Abstract

The present invention relates to a water filtration well for river filtration installed in a waterfront zone of a river so as to pass through an alluvial aquifer at the bottom of the river to collect and filter the filtered river water;

In the water filtration wells for collecting and pumping the filtered stream water while passing through the alluvial aquifer using a collecting pipe 11 embedded in the alluvial aquifer at the bottom of the river,

A valve member 13 for opening and closing the collection pipe 11 connected to the collection well at an upper side of the collection well; A pumping member (12) for finally transporting the water collected by the water collecting pipe (11) to be used for river maintenance water or indirect water intake and other purposes; Disinfection means installed on the water pipe line 14 connected to the pumping member 12 to inactivate microorganisms adversely affecting the human body in the pumped water; Characterized in that it comprises a.

Therefore, prior to discharging the water collected in the sump to the outside, UV sterilization may be performed to inactivate microorganisms adversely affecting the human body, thereby providing a cleaner bottom filter water.

River filtration, sump, microorganism, disinfection, pump, pumping facility, collection pipe, alluvial aquifer, motorized valve, ideal valve, MAP, HMI

Description

Production Well for Riverbed Filtration

BRIEF DESCRIPTION OF THE DRAWINGS The block diagram for demonstrating a lower filter system.

Figure 2 is a block diagram showing a water collecting well for river bed according to the present invention.

Fig. 3 is a block diagram showing a remote control structure which is a main component of the present invention.

<Explanation of symbols for the main parts of the drawings>

11: collection pipe 12: pumping member

13: valve member 14: water pipe

15: manhole 16: ladder

17: UV sterilizer 20: control unit

21: internal camera 22: external camera

30: General Management Office

The present invention relates to a water collecting well for river filtration, which is installed in a waterfront zone of a river so that the filtered river water is collected through a collecting pipe installed in the alluvial aquifer of the river bottom and then pumped.

In general, as shown in FIG. 1, the bottom of the stream has a structure in which an alluvial layer 61 in which sand and gravel are deposited is formed on the rock layer 62. The alluvial aquifer 61 of the bottom of the river is called a river bed, and the bed is composed of sand and gravel when viewed physically, and has excellent water permeability and good filtration function. As a characteristic, it has excellent ability to adsorb contaminants, and biologically, it has excellent characteristics of degrading contaminants in an environment suitable for living with microorganisms.

The river filtration system utilizes the characteristics of the river bed, and installs the water collecting well 50 on the side of the river and installs the water collecting pipe 51 horizontally with the bottom of the water collecting well 50 on the lower aquifer. Pumping system. A river filtration system is a system for improving river water quality using river physicochemical and biological properties and river groundwater inflow characteristics, or for river maintenance water, indirect water intake and other uses.

The above-described bottom filtration well 50 is a water collecting pipe 51 which is embedded in the alluvial aquifer 61 at the bottom of the river 60 and collects the filtered stream water while passing through the alluvial aquifer 61 and a collection well ( A valve 53 for opening and closing the water collecting pipe 51 connected to the water collecting well 50 at the upper side of the 50), and the water collected by the water collecting pipe 51 may be used for river maintenance water, indirect water intake and other uses. Submersible pump 52 to be finally transported through the water pipe line 54 so that the manhole 55 is installed on the upper side of the sump (50) for carrying in the equipment or the worker's entry and exit, and through the manhole (55) It consists of a ladder 56 installed for the lifting of the worker.

The river filtration wells configured as described above can be used for river maintenance water or indirect water intake and other purposes by collecting and pumping water in the alluvial aquifer.

When the operator enters the inside of the sump 50 through the manhole 55 and operates the valve 53, the sump 51 and the sump 50 communicate with each other and are in the alluvial layer 61 of the river bed, that is, the bottom of the river. The filtered filtrate is collected through the collecting pipe 51. Thereafter, the filtered water collected in the sump 50 is pumped through the submersible pump 52 and then transferred to the intake station through the water pipe 54 or flows back to the river to be used for river maintenance water and other purposes.

However, the above-described conventional wastewater collecting wells for collecting the filtered water have a problem that microorganisms harmful to the human body may remain because water is not purified.

In addition, the conventional low-filtration water collection well has the inconvenience that the operator must go directly through the manhole to check the inside, there is a problem that the maintenance of the ideal valve is also manually adjusted.

In addition, since the conventional water filtration wells are installed in the waterfront area, there is a risk that foreign substances may be introduced through the manhole during rainy season or flooding of the river to damage the internal structure.

The present invention has been made to solve the above-mentioned conventional problems, it is possible to provide a water suitable for use as a water intake by disinfecting the microorganisms adversely affecting the human body by disinfecting before transporting the collected water through the collection pipe The purpose is to provide a water collection basin.

In addition, an object of the present invention is to provide a lower filtration sump for easy maintenance by checking the inside and the outside of the sump using a camera and remotely controlling the valve of the sump.

In addition, an object of the present invention is to provide a low-filtration water collection well for preventing and confirming the occurrence of an accident, and to cope with it by allowing a plurality of water wells to be controlled at one place.

In addition, an object of the present invention is to provide a water collecting well for river filtration so that the structure inside the water collecting well is not damaged even during rainy season or river flooding by constructing the manhole in a sealed type.

According to the water filtration well of the present invention for achieving the above object, by using a water collecting pipe embedded in the alluvial aquifer of the bottom of the river to the river filtration catchment to collect and pump the filtered river water while passing through the alluvial aquifer A valve member for opening and closing the water collecting pipe connected to the water collecting well from the upper side of the water collecting well; A pumping member for finally transporting the water collected by the water collection pipe to be used for river maintenance water, indirect water intake, and other uses; It is characterized in that it comprises a disinfection means is installed in the water pipe connected to the pumping member to inactivate the microorganisms adversely affecting the human body in the pumped water.

In addition, according to the bottom filtration basin of the present invention, a manhole for carrying in equipment or entering and exiting a worker is installed at an upper side of the sump, and the manhole is a hermetic type that can safely protect facilities in the sump during rainy season or river overflow. Characterized in that the structure.

In addition, according to the low-filtration filtration basin of the present invention, the inner camera is installed in the interior of the sump, the external camera is installed on the outside of the sump to look around the sump, each The camera is characterized in that it can be operated through the control unit.

In addition, according to the water collecting well for lower filter of the present invention, the valve member is characterized in that it has a motorized valve structure controlled by the control unit.

In addition, according to the low-filtration filtration basin of the present invention, it is characterized in that the comprehensive management office to build a remote management system for the integrated management using the internal camera and the external camera installed in each collection basin.

Hereinafter, with reference to the accompanying drawings illustrating a water collecting well for the present invention as follows.

Figure 2 is a block diagram showing a water collecting well for the bottom filter according to the present invention, Figure 3 is a block diagram showing a remote control structure that is the main configuration of the present invention.

The water collecting well for river filtration of the present invention includes a water collecting pipe 11 embedded in an alluvial aquifer at the bottom of the river and collecting the filtered river water while passing through the alluvial aquifer, and the water collecting pipe 11 connected to the water collecting well at an upper side of the water collecting well. Valve member 13 for opening and closing the pump member, a pumping member 12 for finally transporting the filtered water collected by the water collection pipe 11 to be used for river maintenance water, indirect water intake and other purposes, and the pumping member Ultraviolet sterilizer 17 which is installed in the water pipe line 14 connected to 12 to inactivate microorganisms adversely affecting the human body in the pumped water, and a manhole installed on the upper side of the sump for carrying in equipment or entering and exiting workers. 15) and a moving means such as a ladder 16 installed for elevating a worker entering through the manhole 15.

The water collecting pipe 11 is a pipe body that collects the filtered river water while passing through the alluvial aquifer, and is formed of a wedge wire screen structure or a reinforced screen structure or a strainer structure. Here, a screen having a high porosity is called a screen, and a screen having a porosity of 20% or less is called a strainer. The water collecting pipe 11 is made of stainless steel or reinforced iron and other materials, and may be made of a high strength carbon steel pipe. The water collecting pipe is installed by directly drilling the insertion or horizontal excavation equipment after drilling the casing.

Here, the valve member 13 generally uses a manual or electric ideal valve, but other valves may be used. In addition, the constant pumping member 13 is preferably to use a submersible pump operated in the water, it is also possible to use other pumping facilities.

At this time, the manhole 15 has a sealed structure to safely protect the facilities in the sump by preventing water from flowing into the sump during the rainy season or the flooding of the river.

In addition, the bottom filtration wells of the present invention enable the integrated management of a plurality of water wells. To this end, an internal camera 21 is installed inside the sump to check internal facilities, and an external camera 22 is installed outside the sump to inspect the periphery of the sump, and each camera is provided with a controller 20. Is manipulated by). In addition, the valve member 13 is a motorized valve controlled by the controller 20, and can be remotely controlled.

The river filtration well of the present invention configured as described above collects the water filtered by the alluvial aquifer at the bottom of the river and re-introduces it into the stream so that it can be used as a river maintenance water or used as an indirect intake source and other uses.

Filtrate filtered while passing through the alluvial aquifer at the bottom of the stream is introduced into the sump by the collecting pipe (11). The filtered water introduced into the sump is pumped by a pumping member 12 such as a submersible pump, and is supplied to the intake station or river and other areas through the water pipe 14. At this time, since the ultraviolet sterilizer 13 is installed in the water pipe 14, it is possible to inactivate microorganisms that adversely affect the human body included in the filtered water supplied to the intake station, river and other areas).

In addition, the lower filter filtration basin of the present invention can be integrated management using the internal camera 21 and the external camera 22. That is, by using the internal camera 21 and the external camera 22 installed in each of the plurality of collection wells, the internal situation and the external situation of each collection well are monitored in a remote comprehensive management office. Therefore, it is possible to manage the alarm and record for the occurrence section in the event of an emergency, and to remotely manage each collection well.

Then, using the valve member 13 having a motorized valve structure capable of remote control, the valve member 13 is controlled by the control unit 20 in the general management office. In other words, the internal camera 21 is operated to first diagnose whether there is an external abnormality inside the sump well and to control the valve member 13.

In addition, the present invention uses a MAP-based monitoring system for real-time control of each sump well, the main function is configured graphically and easy to operate, it is possible to monitor and control the operation of each sump well. In addition, remote control is possible through the video-based network integrated HMI system, which enables integrated supervisory control of the river filtration facility using web-based open network technology.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to such specific embodiments, and those of ordinary skill in the art are appropriately within the scope described in the claims of the present invention. Changes will be possible.

As described above, according to the bottom filtration sump of the present invention, prior to discharging the water collected in the sump to the outside, UV sterilization may be performed to inactivate microorganisms adversely affecting the human body, thereby providing more clean water. It is effective.

In addition, according to the low-filtration water collection wells of the present invention, the integrated management of a plurality of water collection wells in a remote control station can reduce the maintenance cost and easy maintenance, such as accident prevention and occurrence confirmation and response.

Claims (5)

In the water filtration wells for collecting and pumping the filtered stream water while passing through the alluvial aquifer using a collecting pipe 11 embedded in the alluvial aquifer at the bottom of the river, A valve member 13 for opening and closing the water collecting pipe 11 connected to the water collecting well from an upper side of the water collecting well; A pumping member 12 for finally transporting the water collected by the water collecting pipe 11 to be used for river maintenance water or an indirect water source and other uses; And a disinfection means for inactivating microorganisms adversely affecting the human body in the pumped water, which is installed in the water conduit passage 14 connected to the pumping member 12. The method of claim 1, A manhole 15 is provided on the upper side of the sump for carrying in or carrying out equipment, and the manhole 15 is a closed structure that can safely protect facilities in the sump during rainy season or river flooding. Filtration sump. The method of claim 1, An internal camera 21 is installed inside the sump to check internal facilities, and an external camera 22 is installed outside the sump to inspect the periphery of the sump, and each camera controls the controller 20. Water filtration basin, characterized in that the operation through. The method according to claim 1 or 3, The valve member (13) has a motorized valve structure controlled by the control unit (20). The method according to claim 1 or 3, Sewage filtration basin, characterized in that to construct a remote management system for the integrated management using the internal camera 21 and the external camera 22 installed in each catchment in the general management office (30).

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