KR101559871B1 - System for supplying beverage - Google Patents

Abstract

The present invention relates to a drinking water management system. The disclosed drinking water management system comprises: a supply line extended from a water pipe to an inside of a house to supply tap water; a drinking water supply device comprising a cooling unit installed in the supply line to cool the tap water, a temperature sensing line connected to the cooling unit to be supplied with the tap water cooled through the cooling unit having a temperature sensor sensing a temperature of the cooled tap water, a water outlet line connected to the temperature sensing line having a cold water outlet valve controlling a discharge of the tap water through a cold water cock installed in a water pipe edge, and a drain line installed in the water outlet line having a drain valve draining a predetermined amount of tap water shortly before the tap water is discharged through the cold water cock; a water quality measuring unit installed in the drinking water supply device to measure the water quality of the tap water; and a notifying unit communicating with the water quality measuring unit, and notifying a user of a measurement result of the water quality measurement unit.

Description

SYSTEM FOR SUPPLYING BEVERAGE

The present invention relates to a drinking water management system, and more particularly, to a drinking water management system that removes odors attributable to chlorine contained in tap water and allows a user to know the quality of tap water in real time, thereby eliminating distrust of tap water, To a drinking water management system capable of improving the ratio.

Generally, the tap water supplied through the tap water can be used in that state. However, when the piping supplied with tap water is old, there is a possibility that the tap water is changed by foreign substances such as rust, various minerals, organic matter, Drinking rate for tap water is 5%, which is very low compared to other advanced countries.

In Korea, drinking water is about 5% due to the social atmosphere, which is reluctant to drink tap water, while 70% of the UK, USA and Japan, which are developed countries, , 56% and 46%, respectively.

Therefore, the local governments are replacing aged water pipes so that citizens can drink tap water with peace of mind, while implementing a system to improve the negative perception of tap water. For example, in January, 2015, the city of Miryang City will conduct a "water safety check system for domestic water" to improve awareness of tap water and increase drinking rate.

This system is for citizens who are interested in tap water quality, and if they apply for the water quality inspection by internet or telephone, the official will visit each family for free tap water quality test and inform the result. At this time, the water quality test items are firstly inspected for five items such as turbidity, and when the water quality standards are exceeded, the second inspection for 11 items such as general bacteria is performed. If there is an abnormality in the test result, diagnose the cause and prepare an improvement plan.

As a result, the residents themselves are expected to contribute to the improvement of the tap water drinking rate by confirming the water quality of their own tap water and increasing the reliability of the tap water according to the result.

However, the publicity for dissolving distrust of various tap water as described above continues in various forms, but still shows a low drinking rate. This is most likely due to the odor of chlorine (Cl) contained in tap water.

That is, chlorine is contained in the tap water to prevent the microbes from propagating in the water pipe to which the tap water is supplied. This chlorine is present until it reaches the faucet. Since the chlorine causes a characteristic odor, it is used for washing and cleaning without consuming alcohol because of smell in tap water.

In this way, when tap water is used only for washing and cleaning purposes, a separate water purification apparatus for drinking water is required. This will be described with reference to Fig.

1 is a piping diagram illustrating conventional tap water supply. In the prior art, a water pipe 10 is extended from each raw water (tap water pipe outdoors) to each household for supplying tap water to each household, and a water purification device 20 And purified tap water is supplied through the cock 30.

The water purification apparatus 20 may be a reverse osmosis purification apparatus for purifying water by passing through, for example, a pretreated activated carbon filter, a membrane filter, and a post-treatment activated carbon filter.

However, the above-mentioned reverse osmosis water purification plant needs to be separately installed in each household, so that a considerable installation cost is incurred. In addition, when the filter is not replaced for a long period of time, harmful components accumulated in the filter are discharged, Resulting in loss.

In addition, when the water purification apparatus 20 is installed as described above, the chlorine component contained in the tap water is removed from the water purification apparatus 20 to expose the bacteria to pollution, and the beneficial minerals are removed, There is no problem.

On the other hand, to improve the drinking of tap water, distrust of tap water should be eliminated. The distrust of tap water is caused by the smell caused by the chlorine contained in the tap water as described above. As a result of the blind test, the chlorine odorless tap water and the fluorine water removed by the general water purifier were tested. As a result, It was possible to obtain the result that the water taste could not be distinguished.

Therefore, in order to improve the drinking of tap water, it is necessary to reliably believe that the quality of tap water is superior to the user, along with the elimination of chlorine odor. However, it can be seen that tap water quality is excellent only in the result of periodical tap water test led by government offices.

However, since only users who are interested in drinking tap water are searching for the results of tap water, most users can not know when and how the tap water was inspected and the quality of the tap water. There is a problem that the drinking rate of tap water is low.

KR 10-2014-0092681 A (2014.07.24)

It is an object of the present invention to provide a drinking water management system capable of reducing the unpleasant feeling of a drinker by removing the smell caused by chlorine contained in tap water, thereby increasing the drinking rate of tap water.

It is also an object of the present invention to provide a drinking water management system capable of removing chlorine odors contained in tap water without installing a separate water purification device and drinking water rich in minerals that is beneficial to health.

Another object of the present invention is to provide a drinking water management system capable of eliminating distrust of tap water by positively informing users of the quality of tap water.

According to an aspect of the present invention, there is provided a refrigerator comprising: a supply line extending from the water pipe to indoors and supplied with tap water; a cooling unit installed on the supply line for cooling tap water; A temperature sensing line provided with tap water cooled through the cooling unit and sensing a temperature of the tap water cooled by the tap water supply unit and a cold water coke connected to the temperature sensing line, A drinking water supply device having an outflow line provided with an outflow valve and a drain line provided in the outflow line and provided with a drain valve for draining a predetermined amount of tap water immediately before the tap water is discharged through the cold water coke; A water quality measuring unit for measuring a quality of tap water to be measured and a water quality measuring unit The measurement result is achieved by means of drinking water control system characterized in that it comprises the notification informing the user parts.

The drain valve is electrically connected to the cold water outlet valve so that the drain valve is opened just before the cold water outlet valve is opened and tap water is discharged through the cold water coke so that tap water of the outflow line is discharged to the drain line Do.

The temperature sensing line may further include a bypass line for bypassing tap water to the cooling unit when the temperature of the tap water sensed by the temperature sensor rises.

The bypass line may include a circulation pump for forcibly supplying tap water to the temperature sensing line to the cooling unit and a temperature sensing line provided at a boundary between the temperature sensing line and the outflow line to open the temperature sensing line according to the operation of the circulation pump A circulation valve, and a check valve for blocking backflow of tap water supplied to the cooling unit through the circulation pump.

The bypass line may further include a circulation timer electrically connected to the circulation pump and the circulation valve to open the circulation valve at predetermined intervals and to operate the circulation pump to supply tap water to the cooling section, .

The cooling unit may include a cooling tank surrounding the supply line and filled with a heat transfer medium, and a stirring blade for stirring the heat transfer medium filled in the cooling tank. The stirring unit may be connected to the stirring blade to rotate the stirring blade, And a high-temperature and high-pressure heat transfer medium connected to the compressor and the flow path, the high-temperature and high-pressure heat transfer medium being connected to the compressor through a heat exchanger And an expansion valve installed in a flow path connecting the condenser and the cooling tank to supply a pressure of the high-pressure heat transfer medium discharged from the condenser to the cooling tank.

Preferably, the cooling unit includes a thermoelectric element that surrounds the supply line and receives electrical energy to lower the temperature of the supply line, and a cooling tank that shields the heat transfer by shielding the periphery of the supply line provided with the thermoelectric element Do.

The cooling unit is preferably built-in in each household.

The drain line may include a drain valve installed in the outflow line and a water storage tank storing tap water drained into the drain line in response to opening of the drain valve.

The drain line may include a drain timer connected to the drain valve to drain the tap water from the drain line to the drain tank at predetermined time intervals.

Preferably, the water quality measuring unit is installed in at least one of the supply line, the cooling unit, the temperature sensing line, and the outflow line to measure the quality of tap water.

In addition, it is preferable that the water quality measuring part measures the turbidity, residual chlorine, and hydrogen ion concentration of the tap water.

Preferably, the notification unit includes at least one of a wall pad, a portable terminal, an outdoor electric signboard, and a display device installed adjacent to a cold water coke installed in each household for discharging tap water.

The supply line may further include an emergency shutoff unit for shutting off tap water supplied to the drinking water supply unit when the tap water measured by the water quality measurement unit is lower than the reference water quality.

The emergency shutoff unit includes a shutoff valve installed in a supply line between the water quality measuring unit and the drinking water supply unit to shut off tap water from flowing into the drinking water supply unit and a shutoff valve installed in a supply line between the shutoff valve and the water quality measuring unit, And a bypass drain valve installed in the emergency drain line and bypassing the tap water passing through the water quality measuring unit to the emergency drain line when the shutoff valve is closed.

Preferably, the emergency drainage line is connected to a bypass water storage tank for storing tap water bypassed by opening the bypass drain valve.

According to the drinking water management system of the present invention, when the user directly drinks tap water, the chlorine is discharged through the cold water coke in a state of being controlled at a temperature of 4 ° C. at which the chlorine odor is removed. Can be solved.

In addition, the user can confirm the water quality of tap water in real time through various media, thereby improving the reliability of tap water, thereby improving the drinking rate of tap water.

According to the present invention, a cooling unit is provided in a supply line to which tap water is supplied to control the temperature of tap water to 4 ° C, to detect the temperature of tap water in real time through a temperature sensing line, The tap water of the outflow line is drained to the drain line and the tap water whose temperature is kept at 4 캜 is discharged through the cold water coke to inhibit the vaporization of residual dissolved chlorine dissolved in the water, It is possible to eliminate the odor caused by the user, and thus the user can improve the drinking rate of the tap water by reducing the feeling of refusal to drink the tap water.

1 is a piping diagram illustrating conventional tap water supply.
2 is a schematic view showing a drinking water management system according to the present invention.
3 is a piping diagram showing a piping of the drinking water supply device in the drinking water management system according to the present invention.
4 is a perspective view showing an embodiment of a drinking water supply apparatus according to the present invention.
5 is an enlarged view showing part A of Fig.
6 is an enlarged view showing part B of Fig.
7 is an exploded perspective view showing a cooling bath in the drinking water supply device according to the present invention.
8 is a schematic view showing another embodiment of the drinking water management system according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

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

2 is a schematic view showing a drinking water management system according to the present invention. The drinking water management system according to the present invention is installed on a supply line 100 and a supply line 100 which are extended indoors from a water supply pipe to supply tap water and control the temperature of tap water to 4 ° C , A drinking water supply device (1) for draining tap water remaining in the pipeline immediately before the tap water is discharged through the cold water coke (420) installed in each household, and a water quality measuring device And a notification unit (P) communicating with the water quality measurement unit (2) and the water quality measurement unit (2) to inform the user of the measurement result of the water quality measurement unit (2).

The supply line 100 is connected to the drinking water supply device 1, and the supply line 100 is connected to the drinking water supply device 1.

The drinking water supply device 1 controls the temperature of the tap water supplied through the supply line 100 from the water supply pipe to 4 캜 and when the user intends to drink tap water through the cold water cork 420, The tap water remaining in the piping connected to the cold water coke 420 is drained before the tap water is discharged through the cold water coke 420 controlled at 4 ° C to remove the odor due to the chlorine contained in the tap water do.

The drinking water management system of the present invention is installed in the drinking water supply device 1 and communicates with the water quality measurement part 2 and the water quality measurement part 2 to measure the tap water and to transmit the measurement results of the water quality measurement part 2 to the user By including the notification unit P in the notification, the user can grasp the water quality of the tap water in real time, thereby eliminating the distrust of the tap water.

The water quality measuring unit 2 is installed in at least one of a supply line 100, a cooling unit 200, a temperature sensing line 300 and an outflow line 400 constituting the drinking water supply device 1, And the water quality measuring unit 2 can communicate with the notification unit P through the communication module 3 to confirm the water quality of the tap water in real time to the user so that the drinking rate of the tap water can be improved.

As described above, the water quality measuring part 2 provided in the drinking water supply device 1 may be various measuring devices for measuring turbidity, residual chlorine, and hydrogen ion concentration for tap water, for example. That is, in order to measure the turbidity with respect to tap water, the present invention is characterized in that a bypass pipe 2b for bypassing part of the tap water is installed in the supply line 100 as shown in FIG. 2, The turbidity of the tap water may be measured by forming an observation window 2a that can be monitored by the observation window 2a.

The water quality measuring unit 2 and the notification unit P are connected by the communication module 3 to notify the user of the measurement result of the tap water measured by the water quality measuring unit 2 in real time. A wired communication method that is directly connected through a cable, a wireless communication method that is connected through wireless communication, and the like.

The notification unit P includes an outdoor electric signboard P1, a portable terminal P2, a display device P3 installed adjacent to the cold water cork 420 installed in each household to discharge tap water, (P4).

On the other hand, the drinking water supply device 1 controls the tap water supplied through the supply line 100 to a predetermined temperature to remove the odor caused by the chlorine contained in the tap water, and immediately before the tap water is discharged through the cold water cork 420 The water stored in the cold water cork 420 is drained to allow the user to drink tap water controlled at a predetermined temperature. This will be described with reference to FIG.

3 is a piping diagram showing a piping of the drinking water supply device in the drinking water management system according to the present invention.

The drinking water supply device 1 according to the present invention comprises a supply line 100 extending from the water supply pipe to the inside to supply tap water, a cooling unit installed on the supply line 100 to cool tap water, A temperature sensing line 300 for sensing the temperature of the tap water that has passed through the cooling unit 200, an outflow line 300 for controlling the tap water that has passed through the temperature sensing line 300 to be discharged to the cold water cork 420 And a drain line 500 for draining tap water from the outflow line 400 immediately before the tap water is discharged through the cold water cork 420 of the outflow line 400.

The supply line 100 is composed of a pipe for supplying tap water extended indoors from a water pipe constructed outdoors. In this case, the indoor unit refers to each household of a separate house or single-family house in which a plurality of independent households such as an apartment can live, and the supply line 100 refers to a pipe for supplying tap water extending from each water- .

The supply line 100 is provided with a main valve 110 for interrupting the supply of tap water supplied to the respective generations from the water supply pipe to supply tap water supplied to each generation according to the operation of the main valve 110, .

A cooling unit 200 for controlling tap water to a predetermined temperature is installed on the supply line 100 extending to each generation. The cooling unit 200 controls the temperature of the tap water supplied through the supply line 100 to remove the odor attributable to the chlorine component contained in the tap water so as to be able to drink without irritation.

At this time, the temperature of the tap water to be controlled by the cooling unit 200 is preferably 4 占 폚 (error range 占 占 폚) so that odor due to chlorine contained in tap water can be removed. That is, the cooling unit 200 transfers heat to the supply line 100 so that the temperature of the tap water supplied through the supply line 100 becomes 4 ° C.

For example, when the temperature of the tap water supplied through the water supply pipe is 10 ° C, the tap water in the supply line 100 is cooled to a temperature of 4 ° C while passing through the cooling unit 200 and supplied to the temperature sensing line 300 .

In this way, the cooling unit 200, which controls the temperature of the tap water supplied to the supply line 100 to 4 ° C, can be composed of various types of cooling devices. For example, a method of cooling tap water in the supply line 100 using the heat of vaporization of the heat transfer medium, an electric cooling method using a thermoelectric element, or the like can be used.

The temperature sensing line 300 is connected to the cooling unit and senses the temperature of the tap water when the cooled tap water is supplied through the cooling unit 200. The temperature sensing line 300 is provided with a temperature sensor 310 And the temperature sensor 310 is electrically connected to the cooling unit 200 to operate the cooling unit 200 when the temperature of tap water sensed by the temperature sensor 310 of the temperature sensing line 300 is 4 ° C or more, Thereby cooling the tap water in line 100.

The temperature sensor 310 may be a contact type temperature sensor installed in a pipe of the temperature sensing line 300 to measure temperature by contacting with tap water flowing along the temperature sensing line 300, A non-contact type temperature sensor for measuring the temperature of the non-contact type temperature sensor.

The tap water whose temperature is measured in the temperature sensing line 300 is discharged through the outflow line 400 so that the user can drink it. The outflow line 400 is connected to the temperature sensing line 300 and the cold water cork 420 is installed at the end of the pipe and the tap water whose temperature is controlled to 4 ° C is discharged through the cold water cork 420, Is controlled by the cold water outlet valve 410 so that the discharge of tap water is controlled.

The drain line 500 is installed in the outflow line 400 and drains a predetermined amount of tap water immediately before the tap water is discharged through the cold water cork 420. A drain valve 510 is installed in the drain line 500. The drain valve 510 is electrically connected to the cold water outlet valve 410 installed in the outflow line 400 to open the cold water outlet valve 410, The drain valve 510 is opened just before being discharged through the cold water cork 420 and the tap water of the water outlet line 400 is discharged to the drain line 500.

As described above, the cooling unit 200 is installed in the supply line 100 to supply the tap water so that the temperature of the tap water is controlled at 4 ° C, the temperature of tap water is sensed in real time through the temperature sensing line 300, When the tap water in the outflow line 400 is drained to the drain line 500 immediately before the tap water is discharged through the cock 420 and the tap water whose temperature is maintained at 4 ° C is discharged through the cold water cork 420, It is possible to remove the odor caused by chlorine, and thus it is possible to improve the drinking rate of the tap water by reducing the feeling of rejecting the user to drink the tap water.

 In the meantime, according to the present invention, since the bypass line 600 is installed in the temperature sensing line 300, the tap water that has stayed in the temperature sensing line 300 after passing through the cooling unit 200 without using tap water, And the temperature of the tap water is maintained at 4 캜.

That is, when the temperature of the tap water sensed by the temperature sensor 310 rises, the temperature sensing line 300 is provided with a bypass line 600 for bypassing the tap water staying in the temperature sensing line 300 to the cooling unit 200 do.

The bypass line 600 includes a circulation pump 610 for forcibly supplying water to the temperature sensing line 300 to the cooling unit 200, a temperature sensing line 300 and an outflow line 400 at the boundary A circulation valve 620 for opening the temperature sensing line 300 according to the operation of the circulation pump 610, a check valve 630 for blocking the backflow of tap water supplied to the cooling unit 200 through the circulation pump 610, .

When the bypass line 600 is installed in the temperature sensing line 300, the tap water is not used for a long time and the tap water, which has passed through the cooling unit 200 and stays in the temperature sensing line 300 for a long time, By maintaining the temperature of the tap water at 4 캜, it is possible to prevent deterioration due to long-term stay of tap water.

The bypass line 600 is electrically connected to the circulation pump 610 and the circulation valve 620 so that a circulation timer (not shown) for controlling the operation of the circulation pump 610 and the opening and closing of the circulation valve 620 . The circulation timer causes the circulation pump 610 and the circulation valve 620 to operate at predetermined intervals to circulate the tap water staying in the temperature sensing line 300 to the cooling unit 200.

When the circulation timer for controlling the circulation pump 610 and the circulation valve 620 is connected to the bypass line 600 as described above, tap water stays in the temperature sensing line 300 for a long time, The circulation pump 610 and the circulation valve 620 are operated to forcibly supply tap water staying in the temperature sensing line 300 to the cooling unit 200 so that the temperature of tap water is maintained at 4 캜 .

The drinking water supply device 1 of the present invention, which is composed of the supply line 100, the cooling unit 200, the temperature sensing line 300, the water outlet line 400, and the drain line 500, Or may be installed in the case and modularized as shown in Fig. This will be described based on the drawings.

FIG. 4 is a perspective view showing an embodiment of the drinking water supply device according to the present invention, FIG. 5 is an enlarged view showing part A of FIG. 4, and FIG. 6 is an enlarged view showing part B of FIG.

The case 101 has a substantially quadrangular shape and includes a supply line 100, a cooling unit 200, a temperature sensing line 300, an outflow line 400, a drain line (not shown) 500 are installed. That is, the case 101 is provided with a cold water cock 420 of an outflow line 400 on the front surface thereof, so that the user can drink tap water which is maintained at a temperature of 4 ° C through the cold water cock 420.

A cooling unit 200, a temperature sensing line 300, an outflow line 400, and a drain line 500 are installed in the case 101 in a multi-layered tray. For example, as shown in FIG. 3, when the inside of the case 101 is composed of three trays, a cooling unit 200 having a relatively heavy weight is disposed in the lower tray 102 and the intermediate tray 103 A temperature sensing line 300, an outflow line 400, a drain line 500, and the like are disposed in the upper tray 104 adjacent to the cold water cork 420.

That is, when the cooling unit 200 is installed in the case 101 having the rectangular pillar shape as shown in FIG. 4, the center of gravity acts on the lower part of the case 101, ) From collapsing.

The cooling unit 200 controls the temperature of tap water supplied through the supply line 100 to 4 ° C. The cooling unit 200 includes a cooling tank 210, a stirring motor 220, a compressor 230, a condenser (not shown) And an expansion valve (not shown) to control the temperature of the tap water supplied through the supply line 100 using the heat of vaporization of the heat transfer medium.

In other words, the cooling tank 210 surrounds the supply line 100 and is filled with the heat transfer medium to lower the temperature of the tap water through the heat transfer medium. The cooling tank 210 is installed in the intermediate tray 103 installed inside the case. The cooling tank 210 has a chamber shape as shown in FIGS. 5 and 7, and a heat transfer medium An upper cover 212 is installed at an upper portion of the housing 211 and a lower cover 213 is installed at a lower portion thereof.

A cooling tank 214 is installed in the housing 211 to insulate the inside of the housing 211. A supply line is disposed inside the cooling tank 214 and a heat transfer medium is charged in the cooling tank 214. [ And comes into contact with the supply line 100. At this time, a part of the supply line 100 is wound in the form of a coil or bent in a zigzag shape so that the contact area of the supply line and the heat transfer medium disposed in the cooling tank 214 can be increased.

A supporter 215 for supporting the stirring motor 220 is installed between the housing 211 and the upper cover 212. The stirring motor 220 installed in the supporter 215 is provided with a stirring blade And the stirring vane 222 is rotated according to the operation of the stirring motor 220 to stir the heat transfer medium filled in the cooling tank 214.

The cooling tank 210, which is filled with the heat transfer medium and cools the tap water in the supply line 100 as described above, is connected to the compressor 230 through a flow path so that the heat transfer medium discharged from the cooling tank 210 is supplied to the high- . The compressor 230 is disposed in a lower tray 102 installed in a lower portion of the case.

A condenser (not shown) connected to the compressor 230 through a flow path is installed on the rear surface of the lower tray 102 adjacent to the compressor 230 to heat and heat the high-temperature, high-pressure heat transfer medium discharged from the compressor 230, . An expansion valve (not shown) is installed in the flow path connecting the condenser and the cooling tank 210 to lower the pressure of the high-pressure heat transfer medium discharged from the condenser to the cooling tank 210.

When the compressor 230 and the cooler 210 are installed in the lower part and the middle part of the case 101 as described above, the center of gravity acting on the case 101 is positioned at the lower part, and the case 101 is in a stable state So that it can be prevented from collapsing or wobbling.

5, a temperature sensing line 300 (see FIG. 5) provided with a temperature sensor 310 for sensing the temperature of tap water having passed through the cooling bath 210, as shown in FIG. 5, An outflow line 400 connected to the cold water cork 420 and provided with a cold water outlet valve 410 for controlling the discharge of tap water through the cold water coke 420, A drain line 500 provided with a drain valve 510 for draining a predetermined amount of tap water is installed.

The tap water supplied from the water supply pipe to the supply line 100 is controlled to a temperature of 4 캜 while passing through the cooling unit 200 . The tap water controlled at a temperature of 4 캜 is supplied to the temperature sensing line 300 at the cooling unit 200 and senses the temperature of the tap water through the temperature sensor 310 installed at the temperature sensing line 300.

The tap water supplied to the temperature sensing line 300 is supplied to the temperature sensing line 300 through the drain valve 510 provided in the drain line 500 as the user operates the cold water outlet valve 410, Is drained through the drain line (500).

After the tap water is drained to the drain line 500, tap water whose temperature is controlled at 4 캜 by the cooling unit 200 is discharged through the cold water cork 420 of the outflow line 400, 4 ° C, the chlorine odor is removed from the tap water, and the user can drink the tap water without any sense of discomfort, so that the tap water consumption rate can be increased.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

For example, the cooling unit 200 is not limited to the above-described structure, and can be variously modified. That is, the cooling unit 200 covers the periphery of the supply line 100 and shields the periphery of the supply line 100 provided with the thermoelectric element and the thermoelectric element that receives the electric energy and lowers the temperature of the supply line 100, (Not shown).

The cooling unit 200 is installed in a boiler room of a common house such as an apartment or the like so that a plurality of households can simultaneously supply tap water cooled to 4 ° C, A cooling line 200, a temperature sensing line 300, and an outlet line 400 may be installed in the case, as shown in FIG. 4, (Built-in).

The drain line 500 is provided with a drain valve 510 installed on the water outlet line 400 and a water storage tank for storing tap water drained by the drain line 500 according to the opening of the drain valve 510, May be used for other purposes (cleaning / washing, gardening, etc.).

When the storage tank is connected to the drain line 500 as described above, the drain line 500 is electrically connected to the drain valve 510 so as to open the drain valve 510 at predetermined time intervals, A drain timer may be provided to drain the tap water to the reservoir tank.

On the other hand, in some cases, the supply line 100 is provided with an emergency shut-off unit, so that if there is an abnormality in the water quality of the tap water, it is quickly blocked to improve the stability. This will be described with reference to FIG.

8 is a schematic view showing another embodiment of the drinking water management system according to the present invention. The supply line 100 includes an emergency shutoff unit 700 for shutting off tap water supplied to the drinking water supply apparatus 1 when the tap water measured by the water quality measurement unit 2 is lower than the reference water quality Thereby preventing the supply of tap water having a water quality below the standard and improving the stability thereof, thereby eliminating the distrust of the tap water, thereby improving the drinking rate of the tap water.

The emergency shutoff unit 700 includes a shutoff valve 710, an emergency drain line 720, and a bypass drain valve 730. The shutoff valve 710 is installed in the supply line 100 between the water quality measurement part 2 and the drinking water supply device 1 so that the tap water is blocked from flowing into the drinking water supply device 1.

The shutoff valve 710 is electrically connected to the water quality measurement unit 2 to shut off the shutoff valve 710 according to the quality of the tap water measured by the water quality measurement unit 2, The drinking water supply device 710 is opened to supply tap water to the drinking water supply device 1, and when the water quality is below the reference level, the tap water is closed and the tap water is prevented from being supplied to the drinking water supply device 1.

The supply line 100 between the shutoff valve 710 and the water quality measurement unit 2 is provided with an emergency drain line 720 to close the shutoff valve 710 and pass through the drinking water supply device 1, Tap water which is not supplied to the device 1 flows to the emergency drain line 720.

Particularly, since the emergency drainage line 720 is provided between the shutoff valve 710 and the water quality measurement unit 2, the water quality measurement unit 2 can continuously measure the quality of tap water supplied through the water supply pipe .

The bypass water drain valve 730 is connected to the water quality measurement part 2 and is connected to the water quality measurement part 2, The bypass drain valve 730 is opened or closed depending on the water quality of the tap water. When the measured water quality is below the reference value, the bypass drain valve 730 is opened to bypass the tap water to the emergency drain line 720. If the water quality is above the reference level, Is bypassed by the bypass drain valve (730) and supplied to the drinking water supply device (1).

If the emergency shutoff unit 700 is provided in the supply line 100, if the water quality of the tap water supplied through the water supply pipe is abnormal, the water quality measurement unit 2 measures the water quality of the tap water supplied to the drinking water supply unit 1) to prevent tap water from being supplied, and when the water quality of the tap water is above the reference level, it is supplied to the drinking water supply device (1), thereby improving stability of the tap water supply so that the user can trust the tap water, Which increases the drinking rate of tap water.

The water quality measuring part 2 for controlling the operation of the shut-off valve 710 and the bypass water drain valve 730 of the emergency shut-off part 700 as described above is provided with the raw water supplied from the water supply pipe to the supply line 100 The supply valve MV may be opened or closed depending on the quality of the tap water.

This supply valve (MV) interrupts the flow of tap water supplied from the water supply pipe to the supply line (100). When the water quality of the tap water is abnormal, the supply valve (MV) 100) to prevent the supply of tap water from the source.

On the other hand, tap water which is not supplied to the drinking water supply device 1 but is bypassed by the emergency shut-off unit 700 as described above can be separately stored and utilized. That is, as shown in FIG. 8, the emergency drain line 720 is connected to the bypass water storage tank 740 to store tap water having a reference water quality or lower.

Thus, the tap water stored in the bypass water storage tank 740 can be used for various purposes such as being used as a garden water or as a heat exchange water for the heating boiler, thereby preventing water resources from being wasted.

P: Notification part 1: Drinking water supply device
2: Water quality measurement part 3: Communication module
100: supply line 101: case
102: Lower tray 103: Intermediate tray
104: upper tray 110: main valve
200: cooling unit 210: cooling tank
211: housing 212: upper cover
213: lower cover 214: cooling tank
215: supporter 220: stirring motor
222: stirring wing 230: compressor
300: temperature sensing line 310: temperature sensor
400: an outflow line 410: a cold water outflow valve
500: drain line 510: drain valve
600: bypass line 610: circulation pump
620: circulation valve 630: check valve
700: Emergency interruption part 710: Isolation valve
720: Emergency drain line 730: Bypass drain valve
740: Bypass tank

Claims (11)

A supply line extending indoors from the water supply pipe to supply tap water;
A temperature sensing line provided on the supply line and including a cooling unit for cooling the tap water and a temperature sensor connected to the cooling unit and supplied with tap water cooled through the cooling unit and sensing the temperature of the tap water, An outlet line connected to the line and having a cold water outlet valve for controlling the discharge of tap water through a cold water coke installed at the end of the pipe; and an outlet line installed at the outlet line for discharging a predetermined amount of tap water immediately before the tap water is discharged through the cold water coke A drain line provided with a drain valve;
A water quality measuring unit for measuring the quality of tap water supplied to the drinking water supply unit; And
And a notification unit communicating with the water quality measurement unit to inform the user of the measurement result of the water quality measurement unit,
The drain valve
The drain valve is opened immediately before the cold water outlet valve is opened and the tap water is discharged through the cold water coke so that the tap water of the outflow line is discharged to the drain line,
The temperature sensing line
And a bypass line for bypassing tap water remaining in the temperature sensing line to the cooling unit when the temperature of the tap water sensed by the temperature sensor rises,
The bypass line
A circulation pump for forcibly supplying tap water to the temperature sensing line to the cooling section;
A circulation valve installed at a boundary between the temperature sensing line and the outflow line and opening the temperature sensing line according to the operation of the circulation pump; And
And a check valve for blocking backflow of tap water supplied to the cooling unit through the circulation pump,
The bypass line
And a circulation timer electrically connected to the circulation pump and the circulation valve to open the circulation valve at predetermined intervals and to operate the circulation pump to supply tap water to the cooling section,
The drain line
A drain valve installed in the outflow line; And
And a water storage tank for storing tap water drained to the drain line in accordance with opening of the drain valve,
The cooling unit
A cooling tank surrounding the supply line and filled with a heat transfer medium;
A stirring motor provided with a stirring blade for stirring the heat transfer medium filled in the cooling bath and connected to the stirring blade by a shaft to rotate the stirring blade;
A compressor connected to the cooling bath through a channel and compressing the heat transfer medium discharged from the cooling bath into a high-temperature and high-pressure state;
A condenser connected to the compressor through a flow path for exchanging heat between the high-temperature, high-pressure heat transfer medium discharged from the compressor and the atmosphere; And
And an expansion valve installed in a flow path connecting the condenser and the cooling tank, for reducing the pressure of the high-pressure heat transfer medium discharged from the condenser and supplying the pressure to the cooling tank,
When the user intends to drink tap water through the cold water coke, the tap water which is stored in the pipe through the drain valve is discharged immediately before the tap water is discharged by the cold water coke, and the tap water controlled to a predetermined temperature is discharged through the cold water coke Drinking water management system.
delete delete delete delete delete The method according to claim 1,
Wherein the water quality measuring unit measures turbidity, residual chlorine, and hydrogen ion concentration of the tap water.
The method according to claim 1,
Wherein the notification unit comprises at least one of a month pad installed in each household, a portable terminal, an outdoor electric signboard, and a display device installed adjacent to a cold water coke installed in each household and discharged from tap water.
The method according to claim 1,
The supply line
And an emergency shutoff unit for shutting off tap water supplied to the drinking water supply unit when the tap water measured by the water quality measuring unit is lower than the reference water quality.
The method of claim 9,
The emergency shut-
A shutoff valve installed in a supply line between the water quality measuring unit and the drinking water supply unit to shut off tap water from flowing into the drinking water supply unit;
An emergency drain line installed in a supply line between the shutoff valve and the water quality measuring unit for draining tap water that has passed through the water quality measuring unit; And
And a bypass drain valve installed in the emergency drain line and bypassing the tap water passing through the water quality measuring unit to the emergency drain line when the shutoff valve is closed.
The method of claim 10,
The emergency drain line
And a bypass water storage tank for storing tap water bypassed when the bypass drain valve is opened.

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