KR102615644B1 - System of Freezing Prevention for using Fluid Flow - Google Patents

Abstract

The present invention relates to a freeze prevention system utilizing fluid flow that can prevent freezing by measuring and comparing the ambient temperature and internal temperature of a water pipe. Specifically, it is connected to a water storage tank and a water storage tank where the water source is stored, and is connected to a water storage tank for each household. It is formed on the water pipe that supplies water, and is equipped with a temperature measuring device that measures the temperature of the water source, communicates with the temperature measuring device, and has a control device that moves the water source according to the internal temperature of the water pipe.

Description

System of Freezing Prevention for using Fluid Flow}

The present invention relates to a freeze prevention system utilizing fluid flow that can prevent freezing by measuring and comparing the ambient temperature and internal temperature of a water pipe.

Patent Document 001 includes a body with fasteners formed on both sides; The intake port at one end is connected to a space inside the body in communication with the water pipe, and the discharge port at the other end is a return pipe inserted into the water pipe fastened to the fastener; A technology including a pump that sucks water from the inlet of the return pipe and flows the water to the outlet is proposed.

Patent Document 002 includes a storage tank in which water supplied from the outside is stored; A water supply pipe with one end installed inside the storage tank and the other end connected to a supply source to provide a supply path for supplying water inside the storage tank; a first valve installed on one side of the other end of the water supply pipe and opening or blocking the water supply pipe; an inflow means installed on one side of the water supply pipe and allowing water inside the storage tank to flow into the water supply pipe; a meter installed between the inlet means and the first valve on one side of the water supply pipe to measure the amount of water supplied to the supply site through the water supply pipe; a re-inflow pipe, one end of which is connected between the meter and the first valve on one side of the water supply pipe, and the other end of which is installed inside the storage tank; a second valve installed on one side of the re-inflow pipe and opening or blocking the re-inlet pipe; When the flow path of the water supply pipe is opened by opening the first valve, the flow path of the re-inlet pipe is blocked by closing the second valve, driving the inflow means and operating the meter at the same time, and the first valve When the flow path of the water supply pipe is blocked by closing the second valve, the flow path of the re-inlet pipe is opened, and the inlet means is driven, and at the same time, a control unit that stops the operation of the meter is presented. I'm doing it.

Patent Document 003 is a freeze prevention valve that is connected to a piping port of a fluid pipe through which fluid flows and discharges fluid to the outside when the temperature is below a certain temperature. It has at least one outlet and is provided with a first receiving chamber and a second receiving chamber inside. A valve body connected to the piping port; a temperature sensing unit provided with a bellows tube whose length expands and contracts according to the volume change of the phase change material and disposed in the second receiving chamber; and a plunger portion that moves according to expansion and contraction of the bellows pipe so that fluid flowing into the first receiving chamber can be discharged to the outside through the outlet.

Patent Document 004 states that a body is formed to surround and fasten the outer circumference of a pipe, a fastening part is formed on one side of the body and penetrates to communicate with the inside and the outside while protruding to the outside, and a threaded part is formed on the inside of the fastening part. , a clamp fastened so that the fastening part is located in the perforation part of the pipe; A fastener having a plurality of hot wire penetration holes penetrating upward and downward on the inside, an upper fastening part formed around the outer circumference of the upper side, and a lower fastening part formed on the lower side for fastening to the fastening part of the clamp; A packing that is seated on the top of the fastener and has a plurality of hot wire through-holes formed at the same position as the fastener; A cap that is fastened to the upper fastening part of the fastener to seal and close the upper side of the fastener, and forms a space between the top and the inside of the fastener; A technology including a plurality of hot wires inserted from the inside of the pipe through the perforation, fastening part, fastener, and packing and connected to each other in the space of the cap is proposed.

KR 10-2012-0086869 A (August 6, 2012) KR 10-1528163 B1 (June 5, 2015) KR 10-2013-0131687 A (December 4, 2013) KR 10-2017-0041453 A (April 17, 2017)

The present invention relates to a freeze prevention system utilizing fluid flow that can prevent freezing by measuring and comparing the ambient temperature and internal temperature of a water pipe.

It is intended to solve the problems of prior inventions, and the present invention relates to a freezing prevention system utilizing fluid flow, including a water storage tank (100) in which a water source is stored; A water pipe (200) connected to the water storage tank (100) and supplying a water source to households; A temperature measuring device 300 formed in the water pipe 200 and measuring the temperature of the water source; It is configured to include a control device 400 that communicates with the temperature measuring device 300 and moves the water source according to the internal temperature of the water pipe 200.

The present invention relates to a freeze prevention system utilizing fluid flow, and includes the water storage tank 100 presented above; water pipe (200); Temperature measuring device 300; The invention consists of a control device (400); a water level measurement sensor (110) formed in the water tank (100) and measuring the water level of a water source stored therein; A supply pump 120 is formed in the water storage tank 100 and supplies water source to the water pipe 200 by pressure.

The present invention relates to a freeze prevention system utilizing fluid flow, and includes the water storage tank 100 presented above; water pipe (200); Temperature measuring device 300; The invention consists of a control device (400); a flow pipe (210) formed in the water pipe (200) through which water source flows from the water storage tank (100) to households; A supply pipe 220 extending from the flow pipe 210 to the household in one direction and supplying a water source; A discharge pipe 230 extending in the other direction from the flow pipe 210 and discharging the water source is added.

The present invention relates to a freeze prevention system utilizing fluid flow, and includes the water storage tank 100 presented above; water pipe (200); Temperature measuring device 300; The invention consists of a control device 400; a blocking valve 231 formed in the discharge pipe 230 and controlling the discharge of water source; A flow sensor 232 that is linked to the blocking valve 231 and measures the flow rate of the discharged water source; A flow control device 233 that operates in conjunction with the flow sensor 232 and controls the flow rate is added.

The present invention relates to a freeze prevention system utilizing fluid flow, and includes the water storage tank 100 presented above; water pipe (200); Temperature measuring device 300; A circulation device 240 is added to the invention consisting of the control device 400, which is formed at the end of the discharge pipe 230 and circulates the water source to the water storage tank 100.

The present invention relates to a freeze prevention system utilizing fluid flow, and includes the water storage tank 100 presented above; water pipe (200); Temperature measuring device 300; The invention consists of a control device 400; a temperature sensor 310 formed in the temperature measuring device 300 and measuring the temperature of the water pipe 200; A transmitting device 320 is formed on the temperature sensor 310 and transmits the temperature of the water pipe 200 to the control device 400.

The present invention relates to a freeze prevention system utilizing fluid flow, and includes the water storage tank 100 presented above; water pipe (200); Temperature measuring device 300; The invention consists of a control device 400; a communication server 410 formed in the control device 400 and receiving the temperature of the water pipe 200 from the temperature measuring device 300; a determination server 420 formed in the communication server 410 and determining whether the water pipe 200 is frozen; A water source control server 430 is formed in the decision server 420 and supplies the water source stored in the water tank 100 to the water pipe 200.

The present invention relates to a freeze prevention system utilizing fluid flow, and includes the water storage tank 100 presented above; water pipe (200); Temperature measuring device 300; In the invention consisting of a control device 400, the water source control server 430 determines the flow rate of the water source stored in the water storage tank 100 according to the flow rate of the water source discharged from the water pipe 200. Add.

The present invention can predict freezing by measuring the temperature of a water pipe where the water source stagnates.

In the present invention, a plurality of temperature measuring devices are installed on the outside of a water pipe to predict the temperature of the entire water pipe.

The present invention can prevent freezing and bursting due to flow in a water pipe by maintaining a constant temperature of the water source stored in the water reservoir.

The present invention measures the flow rate of water source that stagnates in a water pipe and is discharged, thereby controlling the flow rate of water source supplied from a water storage tank.

The present invention can predict errors and damage of temperature sensors by comparing a plurality of temperature measuring devices.

1 is a conceptual diagram showing a freeze prevention system utilizing fluid flow of the present invention.
Figure 2 is a conceptual diagram showing a water storage tank of the present invention.
3 to 4 are conceptual diagrams showing a water pipe of the present invention.
Figure 5 is a conceptual diagram showing the circulation device of the present invention.
Figure 6 is an exemplary diagram showing a water pipe on which the temperature measuring device of the present invention is installed.

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to enable those skilled in the art to easily practice the present invention.

Numbers cited in the examples below are not limited to the objects of citation and can be applied to all examples. An object that has the same purpose and effect as the configuration presented in the examples is an equivalent replacement object. The high-level concept presented in the examples includes low-level concept objects that are not described.

(Example 1-1) The present invention provides a freeze prevention system utilizing fluid flow, comprising: a water storage tank (100) in which a water source is stored; A water pipe (200) connected to the water storage tank (100) and supplying a water source to households; A temperature measuring device 300 formed in the water pipe 200 and measuring the temperature of the water source; It includes a control device 400 that communicates with the temperature measuring device 300 and moves the water source according to the internal temperature of the water pipe 200.

(Example 1-2) In Example 1-1, the freeze prevention system utilizing fluid flow of the present invention includes the water storage tank 100 being formed in the basement of a building.

(Example 1-3) In Example 1-2, the anti-freeze system utilizing the fluid flow of the present invention is that the water pipe 200 is formed as a pipe through which a selected one of fire water and a water source moves; Includes.

(Example 1-4) In Example 1-1, the freeze prevention system utilizing the fluid flow of the present invention includes: the temperature measuring device 300 is formed at a location in contact with external air flowing into the building; Includes.

The present invention relates to a freeze prevention system utilizing fluid flow, and specifically, to prevent water sources stagnating in pipes from being damaged as they freeze at low temperatures. The anti-freezing system utilizing this fluid flow circulates water in the water tank 100 where the water source is stored to prevent damage to the pipe due to freezing of the water source stagnant inside the water pipe 200. At this time, the water in the water storage tank 100 does not have external air flowing in, and a certain temperature can be maintained as an insulating layer is formed, so the water source in the water storage tank 100 is moved to the water pipe 200 before freezing of the water source occurs. In addition, the water pipe 200 supplies the water source inside the water tank 100 or moves gas whose temperature has risen to prevent freezing, and keeps the temperature of the water pipe 200 constant by the fluid flow in the water pipe 200. It is to maintain. In general, in order to prevent freezing of the water pipe 200, it is formed to surround a heating wire or an insulating material on the outside of the water pipe 200 to prevent freezing of the water source stagnant in the water pipe 200. However, wrapping a heating wire or wrapping an insulating material around the water pipe 200 cannot be installed throughout the water pipe 200, and a separate current must be supplied, making maintenance and management difficult.

In this way, referring to FIG. 1, the present invention prevents freezing of the water pipe 200 without using a heat wire, and prevents freezing and bursting of the water pipe 200 in the water storage tank 100 where the water source formed in the basement of various buildings such as apartments, officetels, and office buildings is stored. A water source is supplied within the household. At this time, the water source is formed by a water storage tank 100 and a water pipe 200 that connects a plurality of households, and a temperature measuring device 300 is formed in the water pipe 200 to set the external temperature of the water pipe 200. The water source is formed below the temperature and stored in the water storage tank 100 before freezing occurs. And the temperature measuring device 300 is formed at a position in contact with the outside air flowing into the building where the temperature is lowest among the water pipes 200. Here, the water pipe 200 may be formed of various pipes through which water is supplied to households or fire-fighting water is supplied.

Therefore, the freezing prevention system utilizing the fluid flow of the present invention allows the water source stored at a constant temperature in the water storage tank 100 to flow into the water pipe 200 when the temperature of the water pipe 200 is low. ) has the feature of preventing freezing.

(Example 2-1) The present invention relates to a freeze prevention system utilizing fluid flow. In Example 1-1, a water level formed in the water tank 100 and measuring the water level of the water source stored therein Measuring sensor (110); It is formed in the water storage tank 100 and includes a supply pump 120 that supplies water source to the water pipe 200 by pressure.

(Example 2-2) In Example 2-1, the anti-freeze system utilizing the fluid flow of the present invention includes a temperature control device 130 formed in the water storage tank 100 and controlling the temperature of the water source. Includes.

(Example 2-3) In Example 2-2, the anti-freeze system utilizing the fluid flow of the present invention includes that the water supply pump supplies water source to at least one water storage tank 100.

The present invention relates to a water storage tank 100. Specifically, the water storage tank 100 is formed in the basement of a building and is formed in a place where the inflow of external air is blocked to store a water source at a constant temperature. Referring to FIG. 2, this water storage tank 100 supplies a water source as it is located underground, such as in an underground parking lot of a building, and the water source flows in from a water treatment plant. At this time, as the water tank 100 is formed in the basement of the building, the temperature of the water source is higher than that of the water source in the pipe in contact with the outside air, and the water source stored in the water tank 100 flows into the pipe expected to freeze and stagnates, lowering the temperature. Circulate water sources. In addition, the water storage tank 100 is equipped with a temperature control device 130, which supplies heat by electric current and simultaneously uses geothermal heat to increase the temperature of the water source. And since the water storage tank 100 is formed to be surrounded by an insulating panel, the temperature of the water source is maintained constant.

In this way, the water source stored in the water storage tank 100 is supplied to a plurality of households by the supply pump 120, and the supply pump 120 supplies the water source stored in the plurality of water storage tanks 100.

(Example 3-1) The present invention relates to a freeze prevention system utilizing fluid flow. In Example 2-1, it is formed in the water pipe 200, and the water source is provided to households from the water storage tank 100. Flow pipe 210; A supply pipe 220 extending from the flow pipe 210 to the household in one direction and supplying a water source; It includes a discharge pipe 230 that extends in the other direction from the flow pipe 210 and discharges a water source.

(Example 3-2) In Example 3-1, the anti-freeze system utilizing the fluid flow of the present invention includes a distribution valve 211 formed in the flow pipe 210 and controlling the supply direction of the water source; Includes.

(Example 3-3) In Example 3-1, the freeze prevention system utilizing fluid flow of the present invention includes the supply pipe 220 extending to a plurality of households.

(Example 3-4) In Example 3-1, the anti-freeze system utilizing the fluid flow of the present invention includes the discharge pipe 230 being connected to the outside to discharge low-temperature water source.

The present invention relates to a water pipe 200, and specifically, in the water pipe 200, water is supplied from a water storage tank 100 to households, and fluid flow occurs. This water pipe 200 extends from the water storage tank 100, and a flow pipe 210 that is at risk of freezing due to external air is formed. The flow pipe 210 is formed underground, like the water storage tank 100, and there is a risk of freezing if the temperature is low. In addition, the flow pipe 210 can prevent the water source stagnant in the flow pipe 210 from freezing and rupturing as the water source maintained at a constant temperature in the water storage tank 100 flows when the water source is frozen due to external air. Referring to FIG. 3, at one end of the flow pipe 210, a supply pipe 220 is formed in one direction and extends to each household, and the supply pipe 220 extends to a plurality of households. At this time, a distribution valve 211 is formed in the flow pipe 210 to supply water to the supply pipe 220 and the discharge pipe 230, respectively. And the discharge pipe 230 extends from the flow pipe 210 in the other direction from the supply pipe 220, and as it is connected to the outside, the low-temperature water source is discharged to the outside according to the flow by the water source stored in the water storage tank 100.

Therefore, the water pipe 200 of the present invention has the feature of preventing freezing of the pipe by supplying the water source of the water storage tank 100 to allow fluid to flow so that the water source temperature inside the flow pipe 210 is low and does not freeze.

(Example 4-1) The present invention relates to a freeze prevention system utilizing fluid flow. In Example 3-1, a blocking valve 231 is formed in the discharge pipe 230 and controls the discharge of the water source. ; A flow sensor 232 that is linked to the blocking valve 231 and measures the flow rate of the discharged water source; It includes a flow rate control device 233 that operates in conjunction with the flow sensor 232 and controls the flow rate.

(Example 4-2) In Example 4-1, the freeze prevention system utilizing the fluid flow of the present invention is formed in the flow sensor 232, and the flow rate of the discharged water source is controlled by the control device 400. It includes a transmission unit that transmits.

(Example 4-3) In Example 4-2, the freeze prevention system utilizing the fluid flow of the present invention is formed separately from the flow control device 233, and includes a temperature control system that adjusts the opening degree according to the external temperature. Includes valve 234;

The present invention relates to the discharge pipe 230, and specifically, the discharge pipe 230 extends from the flow pipe to discharge low-temperature water source to the outside. Referring to FIG. 4, this discharge pipe 230 is formed by extending outward from the flow pipe, and is discharged before freezing due to the low temperature of the water source formed by stagnation in the flow pipe. At this time, a blocking valve 231 is formed in the discharge pipe 230 to prevent water sources that are not low in temperature from being discharged, and the blocking valve 231 is controlled by the control device 400. In addition, as the flow sensor 232 is formed in the discharge pipe 230, the flow rate of the discharged water source can be measured and maintained to match the flow rate of the water source stored in the water storage tank 100 to prevent freezing of the water pipe 200. In addition, a flow rate control device 233 is formed that works in conjunction with the flow sensor 232 and adjusts the flow rate of the discharged water source to 0.5 to 2 LPM. The flow rate control device 233 is formed as an orifice and can control the flow rate inside the discharge pipe 230. In addition, a temperature control valve 234 is formed at a position spaced apart from the flow control device 233. The temperature control valve 234 is formed as a 2-way valve, so when the temperature of the outside air is below 3 to 5°C. The opening degree of the temperature control valve 234 can be adjusted.

(Example 5-1) The present invention relates to a freeze prevention system utilizing fluid flow. In Example 4-1, it is formed at the end of the discharge pipe 230 and circulates a water source to the water storage tank 100. It includes a circulation device 240.

(Example 5-2) In Example 5-1, the freeze prevention system utilizing the fluid flow of the present invention is formed in the circulation device 240, and is connected to the water storage tank 100 at the end of the discharge pipe 230. An extension part 241 extending to; It is formed in the extension pipe and includes a filtering unit 242 that filters the discharged water source.

(Example 5-3) In Example 5-2, the anti-freeze system utilizing the fluid flow of the present invention includes a heating wire formed in the extension portion 241 and increasing the temperature of the water source; It includes an insulating material formed on the outside of the heating wire and maintaining the elevated temperature of the water source.

(Example 5-4) In Example 5-2, the freeze prevention system utilizing the fluid flow of the present invention is located at a location where the extension portion 241 is not in contact with the outside air to prevent the temperature of the water source from lowering. What is formed in; includes.

The present invention relates to a circulation device 240, and specifically, the circulation device 240 circulates the water source discharged from the discharge pipe 230 to the water storage tank 100. Referring to FIG. 5, this circulation device 240 is connected to the discharge pipe 230 and has an extension portion 241 extending to the water storage tank 100. The extension part 241 is formed of a pipe, and can prevent the temperature of the water source from lowering as it is formed in a location such as underground that is not in contact with the outside air. In addition, an insulating material is formed on the outside of the extension part 241 to raise the temperature of the low-temperature water source discharged through the discharge pipe 230, and a heat wire is formed inside the insulating material to prevent the circulation device 240 from freezing and bursting by the water source. prevent it from happening. And a filtering unit 242 is formed at a location where the discharge pipe 230 and the extension part 241 come into contact, and the water source passing through the filtering unit 242 is supplied to the water storage tank 100. At this time, the filtering unit 242 is formed to be identical to the water source stored in the water storage tank 100 by filtering various foreign substances that can be mixed through the water pipe 200 through a plurality of filtration filters.

(Example 6-1) The present invention relates to a freeze prevention system utilizing fluid flow. In Example 5-1, it is formed in the temperature measuring device 300, and the temperature of the water pipe 200 is measured. Measuring temperature sensor 310; A transmitting device 320 is formed on the temperature sensor 310 and transmits the temperature of the water pipe 200 to the control device 400.

(Example 6-2) In Example 6-1, the freeze prevention system utilizing the fluid flow of the present invention includes a plurality of temperature measuring devices 300 formed on the outside of the water pipe 200; Includes.

(Example 6-3) In Example 6-1, the freeze prevention system utilizing the fluid flow of the present invention is formed in the temperature measuring device 300 and includes a housing 330 surrounding the water pipe 200. Includes ;

(Example 6-4) In Example 6-1, the freeze prevention system utilizing the fluid flow of the present invention is formed in the transmission device 320 and determines failure or damage of the temperature sensor 310. Includes a judgment device.

The present invention relates to a temperature measuring device 300, and specifically, at least one temperature measuring device 300 is formed on the outside of the water pipe 200 to measure the outside temperature of the water pipe 200, thereby freezing the water source. is to predict. Referring to FIG. 6, at least one such temperature measuring device 300 is formed on the outside of the water pipe 200, and the temperature inside the water pipe 200 is measured according to the outside temperature measured by each temperature measuring device 300. Measure the water source temperature. At this time, the temperature measuring device 300 is formed with an enclosure 330 surrounding the water pipe 200, and the enclosure 330 is formed so that both sides are separated, so that it is fixed to the enclosure 330 by surrounding the water pipe 200. The hardware is formed and secured. And a temperature sensor 310 is formed in the enclosure 330, and the temperature sensor 310 measures the temperature outside the water pipe 200. At this time, the temperature measuring device 300, where the temperature sensor 310 is formed, is installed at a location in the water pipe 200 that is in contact with the outside air, and is installed in a location with a high risk of freezing and bursting in the water pipe 200. And the transmitting device 320 is formed in the enclosure 330 and transmits the temperature measured by the temperature sensor 310 to the control device 400.

In addition, the transmitting device 320 is formed with a determining device to determine failure or damage of the temperature sensor 310, and the determining device determines the temperature difference as it communicates with the adjacent transmitting device 320.

(Example 7-1) The present invention relates to a freeze prevention system utilizing fluid flow. In Example 6-1, it is formed in the control device 400, and the constant is set in the temperature measuring device 300. A communication server 410 that receives the temperature of the pipe 200; a determination server 420 formed in the communication server 410 and determining whether the water pipe 200 is frozen; It includes a water source control server 430, which is formed in the decision server 420 and supplies the water source stored in the water tank 100 to the water pipe 200.

(Example 7-2) In Example 7-1, the freeze prevention system utilizing the fluid flow of the present invention is, wherein the water source control server 430 controls the flow rate of the water source discharged from stagnation in the water pipe 200. It includes; determining the flow rate of the water source stored in the water storage tank 100.

(Example 7-3) In Example 7-1, the freeze prevention system utilizing the fluid flow of the present invention includes the communication server 410 communicating through a selected one of Bluetooth, Wi-Fi, frequency, and wireless LAN; Includes.

(Example 7-4) In Example 7-1, the freeze prevention system utilizing the fluid flow of the present invention is formed in the control device 400 and compares the temperatures of the plurality of temperature measuring devices 300. It includes a comparison server 440 that does.

(Example 7-5) In Example 7-1, the freeze prevention system utilizing the fluid flow of the present invention is formed in the control device 400 and includes a display server that displays the temperature of the water pipe 200. Includes (450);

The present invention relates to a control device 400, and specifically, the control device 400 predicts freezing according to the temperature measured by the temperature measuring device 300 and circulates the water source stored in the water storage tank 100. Referring to FIG. 6, this control device 400 is formed externally, and predicts freezing of the water pipe 200 through communication to supply the water source for the water storage tank 100. At this time, the control device 400 communicates with at least one temperature measuring device 300 to supply the water source of the water storage tank 100 according to the temperature of the water pipe 200, and is a communication server that communicates with the temperature measuring device 300. 410 is formed, and the communication server 410 exchanges information with the temperature measuring device 300 through various types of wireless communication such as Bluetooth, Wi-Fi, frequency, and wireless LAN. In addition, a decision server 420 is formed to determine freezing of the water pipe 200 according to the temperature of the water pipe 200 received from the communication server 410, and the judgment server 420 is installed on the water pipe 200. When the temperature received from the temperature measuring device 300 is 3 to 5°C or lower, it is determined that the water pipe 200 may be frozen, and the water source control server 430 supplies the water source stored in the purified water tank to the water pipe 200. At this time, the water source control server 430 communicates with the flow sensor 232 and the flow rate control device 233 formed in the discharge pipe 230 to determine the flow rate of the water source stored in the water storage tank 100 and the flow rate discharged from the discharge pipe 230. Control to match.

And the control device 400 is formed with a comparison server 440 that compares the temperature measured by a plurality of temperature measurement devices 300 installed in the water pipe 200, and the comparison server 440 is a temperature measurement device that is close to each other. If the temperature of 300 is compared and a difference occurs within the set error range, it is determined that the temperature measuring device 300 is damaged or malfunctioned. And the comparison server 440 forms a temperature device close to the water pipe 200 and compares the temperature difference between the temperature of the temperature measuring device 300 installed in the water pipe 200 and the temperature measuring device 300. ) can be judged to be abnormal.

This control device 400 is formed with a display server 450 that predicts the temperature of the water pipe 200 by displaying the temperature of the temperature measuring device 300, and the display server 450 is the temperature measuring device 300. , water pipe 200, water storage tank 100, etc. are displayed so that the manager can monitor flow rate, temperature, etc. in real time.

100: water tank 110: water level measurement sensor
120: Supply pump 130: Temperature control device
200: Water pipe 210: Flow pipe
211: distribution valve 220: supply pipe
230: Discharge pipe 231: Blocking valve
232: flow sensor 233: flow control device
234: temperature control valve 240: circulation device
241: extension part 242: filtration part
300: Temperature measuring device 310: Temperature sensor
320: Transmitting device 330: Enclosure
400: Control device 410: Communication server
420: Judgment server 430: Water source control server
440: Comparison server 450: Expression server

Claims (8)

A water tank (100) in which water sources are stored;
A water pipe (200) connected to the water storage tank (100) and supplying a water source to households;
A temperature measuring device 300 formed in the water pipe 200 and measuring the temperature of the water source;
A control device 400 that communicates with the temperature measuring device 300 and moves the water source according to the internal temperature of the water pipe 200,
A flow pipe 210 formed in the water pipe 200 and through which water source flows from the water storage tank 100 to households;
A supply pipe 220 extending from the flow pipe 210 to the household in one direction and supplying a water source;
It includes a discharge pipe 230 extending in the other direction from the flow pipe 210 and discharging the water source,
A blocking valve 231 formed in the discharge pipe 230 and controlling the discharge of water source;
A flow sensor 232 that is linked to the blocking valve 231 and measures the flow rate of the discharged water source;
It includes a flow control device 233 that is linked to the flow sensor 232 and adjusts the flow rate to 0.5 to 2 LPM,
The discharge pipe 230 extends from the flow pipe 210 in a direction other than the supply pipe 220, and is connected to the outside to discharge the low-temperature water source stored in the water storage tank 100 to the outside,
It is spaced apart from the flow control device 233 and is formed as a 2-way valve, and includes a temperature control valve 234 that adjusts the opening degree when the temperature of the outside air is below 3 to 5°C,
A communication server 410 formed in the control device 400 and receiving the temperature of the water pipe 200 from the temperature measuring device 300;
a determination server 420 formed in the communication server 410 and determining whether the water pipe 200 is frozen;
It includes a water source control server 430 formed in the decision server 420 and supplying the water source stored in the water tank 100 to the water pipe 200,
A comparison server 440 formed in the control device 400 and comparing the temperatures of the plurality of temperature measuring devices 300. A freeze prevention system utilizing a fluid flow including a comparison server 440.
In claim 1,
A water level measurement sensor 110 formed in the water storage tank 100 and measuring the water level of the water source stored therein;
A supply pump (120) formed in the water storage tank (100) and supplying water source to the water pipe (200) by pressure. A freeze prevention system utilizing a fluid flow including a.
delete delete In claim 1,
A circulation device 240 formed at the end of the discharge pipe 230 and circulating water source to the water storage tank 100. A freeze prevention system utilizing a fluid flow including a.
In claim 1,
A temperature sensor 310 formed in the temperature measuring device 300 and measuring the temperature of the water pipe 200;
A transmission device 320 formed on the temperature sensor 310 and transmitting the temperature of the water pipe 200 to the control device 400. A freeze prevention system utilizing a fluid flow including a.
delete In claim 1,
The water source control server 430 determines the flow rate of the water source stored in the water storage tank 100 according to the flow rate of the water source discharged from stagnant water in the water pipe 200. A freeze prevention system utilizing fluid flow including a. .