KR102562218B1 - Turbidity sensing TM/TC water micro filtration device - Google Patents

Abstract

The present invention relates to a turbidity sensing TM/TC water microfiltration device. The turbidity sensing TM/TC water microfiltration device, according to an embodiment of the present invention, comprises: a turbidity senser which senses the turbidity of service water when the service water is supplied from an inlet water pipe; a filtering tank which, when the turbidity of the service water sensed by the turbidity sensor is a set value or more, uses a filter provided therein to filter the service water and discharges the service water filtered to an outlet water pipe; a clean water pipe which, when the turbidity of the service water sensed by the turbidity sensor is a set value or less, receives the service water, in a bypass way, from a bypass inlet water pipe coupled with an inlet water pipe on a front end of the filtering tank and discharges the service water to a bypass outlet water pipe coupled with an outlet water pipe on a back end of the filtering tank; a measuring device which is provided on the inlet water pipe, the outlet water pipe, the bypass inlet water pipe, and the bypass outlet water pipe to measure state information of the service water; and a branch device which controls a flow direction of the service water based on the state information of the service water derived from the measuring device. According to the present invention, the device can continuously supply clean service water which is not contaminated.

Description

Turbidity sensing TM/TC tap water micro filtration device {Turbidity sensing TM/TC water micro filtration device}

The present invention relates to a turbidity-sensing TM/TC tap water precision filtration device, and more particularly, by determining the state of the constant based on the state information of the constant through a turbidity detecting device provided in the inlet pipe, the turbidity of the constant, water pressure and Turbidity sensing type TM/TC that can continuously supply clean water by automatically bypassing water to the filtration tank according to the degree of contamination, monitor and directly control information such as water pressure in the filtration tank, degree of contamination of the filter, and turbidity of the water supply It relates to a tap water microfiltration device.

In general, large-scale water supply facilities are provided in cities, and tap water treated according to legal standards is supplied to households, and since water treatment and facilities are professionally managed, distrust in tap water is relatively low.

However, when groundwater in a certain region contains heavy metal components harmful to the human body in excess of the allowable error range, it is most important to filter the heavy metal components completely or to a degree that is harmless to the human body.

At this time, it is most important for facilities for water purification to remove even heavy metal components harmful to the human body. You will be able to.

Conventional filtration equipment forms a filtration tank by filling filter media such as sand or gravel, allows raw water to be filtered through the filtration tank, and primarily filters the water through activated carbon or other filter media, For example, Korean Patent Registration No. 10-0560812 'Filtration System with Self-Cleaning Function' and Korean Utility Model Registration No. 20-0458705 'Removable Cartridge Type Filter' are disclosed.

However, conventional filter media such as sand, gravel, or activated carbon do not have a constant lifespan when the amount of water fluctuates from season to season and the turbidity is high, and there is a limit to the substances that can be filtered, and is provided inside the filter tank to purify water. There was a problem that it was difficult for the manager to accurately grasp the state of the filtering filter.

Specifically, when the lifespan of the filtration filter provided in the water purification facility reaches the limit, it is difficult for the manager to easily grasp information related to the lifespan of the filter, resulting in a problem that the filter cannot be replaced at the right time. , Due to such a problem, a problem has occurred in the health of a user who uses constant water filtered using an end-of-life filter.

In addition, when the manager wants to replace the filter inside the filter tank, he must visit the site to determine the degree of contamination of the filter and confirm whether to replace it. A user who needs to be supplied immediately has a problem that the constant cannot be used temporarily, and it is necessary to develop a technology for a turbidity-sensing TM / TC tap water microfiltration device to solve this problem.

The present invention was conceived to solve the above problems, and monitors the turbidity and water pressure of the water supply in real time and automatically diverts and filters the water flow to the filtration tank according to the monitoring results, thereby continuously supplying clean water that is not polluted. and to provide a turbidity-sensing TM/TC tap water fine filtration device capable of monitoring water flow conditions and remote control.

The turbidity sensing type TM / TC tap water microfiltration device capable of solving the above problems is a turbidity sensing device that detects the turbidity of the constant when receiving constant water from the inlet pipe, and the turbidity of the constant detected by the turbidity sensor is set When the value is greater than the value, the filtering tank filters the constant using the filter provided inside and discharges the filtered constant through the drain pipe to the drain pipe. When the turbidity of the constant detected by the turbidity sensor is less than the set value, the filter tank It is provided in the fresh water pipe, the inlet pipe, the drain pipe, the bypass inlet pipe, and the bypass drain pipe, which receives constant supply from the bypass inlet pipe coupled to the front end and discharges the constant to the bypass drain pipe coupled to the rear end of the filtration tank. , It may include a measuring device for measuring the state information of the constant and a branching device for controlling the flow direction of the constant based on the state information of the constant derived from the measuring device.

In addition, the turbidity-sensing TM / TC tap water fine filtration device further includes a water supply manager terminal for receiving and displaying the state information of the constant derived from the measuring device, and the water supply manager terminal is built in the water supply manager terminal It may be characterized in that a manager's control signal is input from an input device to be input and the received control signal is transmitted to a branching device.

In addition, since one surface of the filtration tank is formed to be opened by user manipulation, the filtration filter is formed to be detachable from the filtration tank, the filtration filter has a mesh structure, and accommodates a plurality of filter members. A filter housing formed to have a predetermined height so that one side of the circumference is open, a filter casing that is inserted and removed from the filter housing and forms a multi-layer mounting portion to accommodate a plurality of filter members in a multi-stage manner, and the filter casing It may include a filter member that is inserted and detached.

In addition, the filter member may be formed of a combination of one or more of a sediment filter, an activated carbon filter, a free carbon filter, a UF filter, and a positive charge filter.

The turbidity sensing type TM/TC tap water microfiltration device according to an embodiment of the present invention,

It has the advantage of continuously supplying clean, uncontaminated water by determining the degree of contamination of the water through the turbidity detection device and measuring device and automatically sending the water to the fresh water pipe or filter tank through the branching device and controlling it.

In addition, the turbidity sensing type TM/TC tap water microfiltration device according to an embodiment of the present invention has an advantage of being more convenient to use by remotely monitoring and controlling the flow of constant water through a water supply manager terminal.

In addition, the filter member provided in the filtration tank according to the embodiment of the present invention is formed to have various purifying capabilities inside the filtration tank according to the request of the water supply manager, and thus has operational advantages.

1 is an exemplary diagram of a turbidity sensing type TM/TC tap water microfiltration device according to an embodiment of the present invention.
2 is an exemplary view of a water supply manager terminal provided in the form of a personal terminal according to an embodiment of the present invention.
3 is an exemplary view of a water supply manager terminal provided in the form of a PC in a situation room according to an embodiment of the present invention.
4 is a perspective view of a turbidity sensing type TM/TC tap water microfiltration device according to an embodiment of the present invention.
5 is an exploded view of FIG. 4 .
Figure 6 (a) and (b) is an exemplary view for showing the flow of the constant filtered through the present invention.
FIG. 7 is an exemplary diagram illustrating a state in which a plurality of filters are inserted in FIG. 6 .
Fig. 8 is an internal projection view of a filtration tank in which a filtration filter formed of a filter housing, a filter casing and a filter member is inserted.
9 is an exemplary view showing a state in which the filter housing is opened.
10 is an exploded view of a filter member inserted and detached from a filter casing.

Hereinafter, the description of the present invention with reference to the drawings is not limited to specific embodiments, and various transformations may be applied and various embodiments may be applied. In addition, the content described below should be understood to include all conversions, equivalents, or substitutes included in the spirit and scope of the present invention.

In the following description, terms such as first and second are terms used to describe various components, and are not limited in meaning to themselves, and are used only for the purpose of distinguishing one component from another.

Like reference numbers used throughout this specification indicate like elements.

Singular expressions used in the present invention include plural expressions unless the context clearly dictates otherwise. In addition, terms such as "include", "include" or "have" described below are meant to designate that features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist. should be construed, and understood not to preclude the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, it should not be interpreted in an ideal or excessively formal meaning. don't

In addition, in the description with reference to the accompanying drawings, the same reference numerals are given to the same components regardless of reference numerals, and overlapping descriptions thereof will be omitted. In describing the present invention, if it is determined that a detailed description of related known technologies may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 10 attached.

1 is an exemplary diagram of a turbidity sensing type TM/TC tap water microfiltration device according to an embodiment of the present invention, and FIG. 2 is an exemplary diagram of a water supply manager terminal provided in the form of a personal terminal according to an embodiment of the present invention, 3 is an exemplary view of a water supply manager terminal provided in the form of a control room PC according to an embodiment of the present invention, and FIG. 4 is a perspective view of a turbidity sensing type TM/TC tap water microfiltration device according to an embodiment of the present invention. 5 is an exploded view of FIG. 4, (a) and (b) of FIG. 6 are exemplary views showing the flow of constant water filtered through the present invention, and FIG. 7 is a view in which a plurality of filters are inserted in FIG. It is an example diagram to show.

1 to 7, the turbidity sensing type TM/TC tap water microfiltration device 1 according to an embodiment of the present invention includes a turbidity sensing device 100, a filter tank 200, a fresh water pipe 300, a measurement It may include a device 400 and a branching device 500 .

First, the turbidity detecting device 100 may detect the turbidity of constant water supplied through a turbidity detecting sensor provided in the inlet pipe IN and provided therein.

In addition, in the turbidity sensing device 100, a manager may set the degree of turbidity.

In this case, the turbidity detecting device 100 may supply constant water to the filtration tank 200 when the turbidity of the constant corresponds to a high turbidity equal to or higher than a set value.

In addition, the turbidity detecting device 100 may treat the supplied constant as fresh water and supply it to the fresh water pipe 300 when the turbidity of the constant is equal to or less than the set value.

Next, the filtration tank 200 is supplied with constant water from the water supply pipe (IN) coupled to one side of the filtration tank 200 using the filtration filter 210 provided therein, and filters it, and the other side of the filtration tank 200 Through the drain pipe (OUT) coupled to the filtered constant water can be discharged to the drain pipe (OUT).

At this time, the filtration filter 210 provided inside the filtration tank 200 may be formed of a combination of any one or more of a cartridge filter, a bag filter, and a basket filter, and has a diameter corresponding to the inner circumference of the filtration tank 200. It is formed in a cylindrical shape, or has a certain arrangement inside the filtration tank 200, as shown in FIG. 7, and may be provided in plurality.

More specifically, the filtration tank 200 may have a predetermined space so that the filter 210 can be inserted therein, and the overall shape may be formed to have a cylindrical shape.

In addition, a first hacking window (not shown) made of a transparent acrylic or glass material is provided on one side of the circumference of the filtration tank 200, and a manager uses it to access the inside of the filtration tank 200, that is, the filtration filter 210. condition can be visually checked.

In addition, as shown in FIG. 5, one surface of the filtration tank 200 is formed to be opened and closed by a manager's operation, so that the manager opens the filtration tank 200 and inserts it into the filter tank 200. After the filter 210 has been removed, it can be replaced with a new filter 210.

If the turbidity detected by the turbidity sensing device 100 is a low turbidity equal to or less than a set value, the fresh water pipe 300 may determine the turbidity as fresh water and supply water.

In addition, the fresh water pipe 300 is supplied with constant water from the inlet pipe IN of the filtration tank 200 or the bypass inlet pipe BIN coupled to the front end of the inlet pipe IN, and the filtration tank 200 Filtered constant water can be discharged through the bypass drain pipe (BOUT) coupled to the rear end of.

In addition, a second hacking window (not shown) formed of a transparent acrylic or glass material is provided on one side of the circumference of the clearing water pipe 300, and a manager can use this to visually check the internal state of the clearing water pipe 300.

At this time, the fresh water pipe 300 is equipped with a fresh water pipe valve 310 capable of controlling the flow of constant water, and the supply of constant water to the fresh water pipe 300 can be stopped.

On the other hand, as a material for forming the filtration tank 200 and the fresh water pipe 300, such as stainless steel, which effectively resists impact applied from the outside and does not adversely affect the quality of water supplied to the inside, All materials having appropriate strength and rigidity and corrosion resistance may be used.

In addition, as shown in FIG. 4, the inlet pipe (IN) coupled to the filtration tank 200 may be formed to have a structure that is separately coupled to the main inlet pipe for supplying constant water from the water supply facility, but this It is only a form expressed to help the understanding of those skilled in the art, and as shown in the drawing, the inlet pipe (IN) itself may be formed to serve as the main inlet pipe, rather than having a structure coupled to the main inlet pipe. That is, the main inlet pipe and the inlet pipe (IN) coupling portion is not formed separately, but the inlet pipe (IN) itself can perform the role of the main inlet pipe.

In addition, the measuring device 400 is provided in the inlet pipe (IN), the drain pipe (OUT), the bypass inlet pipe (BIN), and the bypass drain pipe (BOUT), and the state of the passed/passed constant flowing between them. information can be measured.

Specifically, the measurement device 400 may include first, second, third, and fourth measurement sensors 410 , 420 , 430 , and 440 .

First, the first measurement sensor 410 may be provided in the inlet pipe IN, and the second measurement sensor 420 may be provided in the drain pipe OUT.

In addition, the third measurement sensor 430 may be provided in the bypass intake pipe BIN, and the fourth measurement sensor 440 may be provided in the bypass drain pipe BOUT.

At this time, the positions of the above-described first to fourth measurement sensors 410, 420, 430, and 440 are only the most desirable positions for accurately measuring the state of the constant to be passed and the state of the passed constant, and the manager's request Accordingly, it may be provided inside the filtration tank 200 and the fresh water pipe 300.

In addition, the measuring device 400, a pressure sensor for measuring the pressure of the constant water inlet and the pressure of the constant discharged, a foreign matter measuring sensor for measuring the foreign matter contained in the water received and the foreign matter contained in the water discharged, A configuration such as a DO sensor that measures the amount of dissolved oxygen in the constant water to be discharged and the amount of dissolved oxygen in the constant water discharged can be used, but both physical and electrical measuring means and sensors for measuring the state of the constant water inlet and discharged water can be used. can

The measuring device 400 provided in this form transfers state information of the constant to the branching device 500, which will be described in detail later, so that the branching device 500 plays a mediating role of information determining the supply direction of the constant. can do.

In addition, the measuring device 400 is currently operating the filter tank 200 and the fresh water pipe 300 through a light emitting means (not shown) provided on one side of the circumference of the fresh water pipe 300. status can be displayed.

In addition, the branching device 500 is a constant derived from the measuring device 400 provided in the inlet pipe (IN), the drain pipe (OUT), the bypass inlet pipe (BIN), and the bypass drain pipe (BOUT). Based on the state information, the flow direction of the constant can be controlled.

Specifically, the branch device 500 may include a first branch valve 510 and a second branch valve 520, and the branch device 500 is a three-way valve, that is, a 3-way valve. It can be provided in the configuration of a three way valve.

First, the first branch valve 510 may be provided at a location where the inlet pipe (IN) and the bypass inlet pipe (BIN) are coupled, and the second branch valve 520 is the drain pipe (OUT). ) and the bypass drain pipe (BOUT).

Accordingly, in the turbidity sensing type TM/TC tap water microfiltration device 1 according to an embodiment of the present invention, among the information measured in real time through the measuring device 400, the state of the constant passing through the drinking water pipe is abnormal If detected, the branching device 500 is operated so that the constant obtained through the fresh water pipe 300 as shown in (b) of FIG. 6 is operated and the filtering tank 200 ) and filtered, it has the advantage of continuously supplying clean water.

In addition, when an abnormality is detected in the state of the water passing through the fresh water pipe and the water is supplied to the filtration tank 200 as shown in FIG. 6 (a), the contamination degree of the filter 210 provided in the filtration tank When a higher contamination level is detected from the second measurement sensor 420 provided in the drain pipe OUT compared to the first measurement sensor 410 provided in the water intake pipe IN, the branching device 500 is operated. As shown in (a) of FIG. 6, the constant water obtained through the filtration tank 200 may flow back to the fresh water pipe 300 as shown in (b) of FIG. 6.

On the other hand, the turbidity sensing device 100, the measuring device 400, and the branching device 500 may be provided to receive and operate available power from the outside, but the solar power generation device installed on its own on the ground of the present invention It may be operated by receiving available power by (SP).

In addition, the turbidity sensing type TM/TC tap water microfiltration device according to an embodiment of the present invention is connected to the turbidity sensing device 100, the measuring device 400, and the branching device 500 described above, and a PLC responsible for automatic control A controller (C) may be included.

In addition, the user has a PLC controller (C) installed around the turbidity-sensing TM / TC tap water precision filtration device (1) and a field monitor and field control panel additionally provided near the place where the filtration tank 200 is installed in connection thereto Through this, it is possible to directly check the situation and directly control the turbidity sensing device 100, the measuring device 400, and the branching device 500.

In addition, the PLC controller C may transmit and receive measurement data and control data with the water supply manager terminal 600 and the water supply manager server SV, which will be described in detail later.

In addition, the turbidity sensing type TM/TC tap water fine filtration device according to an embodiment of the present invention may include a water supply manager terminal 600 and a water supply manager server (SV).

Specifically, the water supply manager terminal 600 may receive state information of constants derived from the turbidity sensing device 100 and the measuring device 400, and transmitted through a display device built in the water supply manager terminal 600. Status information of received constants can be displayed.

In addition, the water supply manager server (SV) receives the state information of the constant derived from the turbidity sensing device 100 and the measuring device 400, and organizes the data delivered by classification of seconds, minutes, hours, days, and months. In addition, the water supply manager terminal 600 can view the water supply manager server (SV) and check the operation status of the turbidity sensing type TM/TC tap water microfiltration device in real time.

At this time, the data is processed in the form of a table or graph as shown in FIGS. 2 and 3 so that the water supply manager can intuitively grasp the state information of the water supply, and the display device of the water supply manager terminal 600 can be displayed on

Accordingly, a waterworks manager using the present invention can grasp operation information of components constituting the present invention in real time, including state information of incoming constant water, purified constant state information, and discharged constant state information using the present invention.

In addition, the water supply manager terminal 600 receives a manager's control signal from an input device built in the water supply manager terminal 600 and transmits the input control signal to the branching device 500, so that the manager using the present invention It is possible to remotely control the flow of constant water flowing through the present invention.

Accordingly, the waterworks manager using the present invention has the advantage of more convenient operation by remotely grasping the operating state of the present invention and directly controlling the branching device 500 provided in the pipe, and also based on, Control data capable of automatically operating the branching device 500, that is, by inputting and transmitting reference data, is provided to enable automatic control and has the advantage of convenient use.

At this time, the water supply manager terminal 600, as briefly shown in FIG. 2, may be equipped with an electronic device that can be easily used by a manager, such as a personal smart phone, but this is only one example, shown in FIG. As such, any information processing device such as a personal/group PC or a portable PDA for easily managing the present invention can be used.

In addition, as a means for communication between the water supply manager terminal 600 and the measuring device 400, a wireless communication network such as a wireless LAN, Bluetooth, or Wi-Fi may be used, but this is preferable. It is only an embodiment, and may include all wireless communication means for communication between the water supply manager terminal 600 and the measuring device 400, and may be provided to communicate by wire in a situation where wireless communication is restricted.

In addition, when the water supply manager terminal 600 is provided in the form of a personal terminal such as a personal smart phone, as shown in FIG. status can be transmitted.

Accordingly, the turbidity sensing type TM / TC tap water microfiltration device according to an embodiment of the present invention is provided in the filtration tank 200 based on the constant supplied to the filtration tank 200 and the state information of the constant filtered through it The state of the filtration filter 210 can be determined.

Accordingly, the water supply manager determines the lifespan of the filter 210, has the advantage of continuously filtering constant water, and directly controls the flow of constant water through the water supply manager terminal 600, thereby providing more convenient use. have

8 is an internal projection view of a filtration tank in which a filtration filter formed of a filter housing, a filter casing, and a filter member is inserted, FIG. 9 is an exemplary view showing a state in which the filter housing is opened, and FIG. 10 is a filter inserted and detached from the filter casing. It is an exploded view of the member.

8 to 10, the filtration tank 200 according to the embodiment of the present invention, as described above, is formed so that one surface of the filtration tank 200 is opened by user manipulation, so that the filtration filter 210 ) may be formed to be detachable from the filtration tank 200.

In addition, the filter 210 according to the embodiment of the present invention may include a filter housing 211, a filter casing 212, and a filter member 213.

First, the filter housing 211 may be formed to have a predetermined height so as to accommodate a plurality of filter members 213, and the overall shape corresponds to the inside of the filtration tank 200, that is, a cylindrical shape. It can be formed to have a shape.

In addition, the filter housing 211 may be formed in a shape in which one side of a circumference forming a cylindrical shape is open.

In addition, the filter housing 211 may be formed to have a mesh structure having a predetermined pattern and a plurality of hollow holes in order to serve as one filtering body.

In addition, the filter casing 212 is inserted and detached from the filter housing 211 and may form a multi-layer mounting portion 212a to accommodate a plurality of filter members 213 in a multi-stage manner.

In addition, the filter member 213 may be inserted and detached from the mounting portion 212a provided in the filter casing 212 .

At this time, the filter member 213 previously inserted and removed from the filter casing 212 includes a PP filter, a sediment filter, an activated carbon filter, a free carbon filter, and an ultra filter (UF). ) and a positive charge filter (Positive nano filter).

Usage For example, when a manager wants to use both an activated carbon filter and a positive charge filter at the same time as needed, after inserting the filter member formed of the activated carbon filter and the filter member formed of the positive charge filter into the filter casing 212, the filter casing By inserting 212 into the filter housing 211 and coupling it to the filtration tank 200, the filtration rate of the conventional filtration tank 200 can be adjusted to suit the purification situation required by the manager.

Accordingly, the filter member 213 provided in the filtration tank 200 according to the embodiment of the present invention is formed to have various purification capabilities inside the filtration tank 200 according to the request of the water supply manager, have an advantage

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art can implement them in other specific forms without changing the technical spirit or essential features of the present invention. you will be able to understand Therefore, the embodiments described above are illustrative in all respects and are not restrictive.

1: Turbidity Sensing Type TM/TC Tap Water Microfiltration Device
100: turbidity detection device
200: filtering tank
210: filtration filter
211: filter housing
212: filter casing
212a: mounting part
213: filter member
300: clear water pipe
310: fresh water pipe valve
400: measuring device
410: first measurement sensor
420: second measuring sensor
430: third measuring sensor
440: fourth measuring sensor
500: branching device
510: first branch valve
520: second branch valve
600: water supply manager terminal
IN: inlet pipe
OUT: drain pipe
BIN: bypass inlet pipe
BOUT: bypass drain pipe
C: PLC controller
SV: Waterworks manager server

Claims (4)

a turbidity sensing device provided in the inlet pipe to sense turbidity of the constant when receiving constant water from the inlet pipe;
When the turbidity of the constant water sensed by the turbidity detection device is equal to or greater than a set value, filtering the constant water using a filter provided therein and discharging the filtered water through the drain pipe to the drain pipe;
When the turbidity of the constant detected by the turbidity sensor is less than the set value, the constant is bypassed from the bypass inlet pipe coupled to the inlet pipe at the front of the filtration tank, and is supplied to the bypass drain pipe coupled to the drain pipe at the rear of the filtration tank. Cheongsu pipe for discharging;
A measuring device provided in the inlet pipe, the drain pipe, the bypass inlet pipe, and the bypass drain pipe to measure the state information of the constant, and
A branching device for controlling the flow direction of the constant based on the state information of the constant derived from the turbidity sensing device and the measuring device,
The filter tank,
One side is formed to be opened by user manipulation, so that the filter is detachable from the filter tank,
The filtration filter,
a filter housing having a mesh structure, having a predetermined height to accommodate a plurality of filter members, and opening one side of the circumference;
A filter casing that is inserted and detached from the filter housing and forms a multi-layer mounting portion to accommodate a plurality of filter members in a multi-stage manner; and
It includes a filter member inserted and detached from the filter casing,
The filter casing,
A ring shape in which one side of the circumference is open is formed at the upper and lower ends of the mounting portion,
Turbidity sensing type TM / TC tap water microfiltration device, characterized in that both sides of the ring shape are formed to connect the mounting portion of the multilayer. According to claim 1,
The turbidity sensing type TM / TC tap water microfiltration device,
Further comprising a water supply manager terminal for receiving and displaying the state information of the constant derived from the measuring device,
The water supply manager terminal,
A turbidity-sensing TM/TC tap water microfiltration device, characterized in that for receiving a manager's control signal from an input device built in the water supply manager terminal and transmitting the input control signal to the branching device.
delete According to claim 1,
The filter member,
A turbidity-sensing TM/TC tap water microfiltration device, characterized in that it is formed by a combination of one or more of a sediment filter, an activated carbon filter, a free carbon filter, a UF filter, and a positive charge filter.