KR102395944B1 - Waterworks System for Supplying High-Level - Google Patents

Abstract

The present invention relates to a water supply system for supplying a high water level, capable of adjusting a water pressure in order to smoothly supply a water source to a highland. The water supply system for supplying the high water level of the present invention comprises: a water storage structure formed in a lowland and storing the water source; a supply unit extending from the water storage structure and supplying the water source to the lowland and the highland; a pressurization unit formed in the supply unit of the highland and increasing a pressure of a water source; and a control unit formed in the pressurization unit and controlling the pressure of the water source.

Description

Waterworks System for Supplying High-Level

The present invention relates to a water supply system for high water level supply that can control water pressure in order to smoothly supply a water source to a highland.

Patent Invention 001 is a pipe-to-pipe connection so that the water source collected in the water storage structure 100 in the high area moves to the water pipe in the low area, and a pass-through valve is installed at regular altitude intervals to block the flow of the water source supply pipe and It is installed in each section of the supply pipe to lower the water pressure of the water source flowing down the supply pipe, and as the pass-through valve is closed, the water source is circulated to the inlet pipe and stored. It proposes a technology including a plurality of pressure control tank 120 passages each having an inlet valve and an outlet valve in the inlet pipe and the outlet pipe so as to flow down.

Patent Invention 002 discloses that a first submersible motor pump is mounted inside a first pressurized tube, a second submersible motor pump is mounted inside a second pressurized tube, and the first pressurized tube and the second pressurized tube are vertically parallel to each other. A strainer that is disposed in a standing state, the upper end of the first pressure tube and the upper end of the second pressure tube are mounted on the bottom surface of the housing, and is mounted on the suction tube for supplying water to the first pressure tube or the second pressure tube, and The water meter, the air vent and water level sensor 110 of the first pressure tube, the air vent and water level sensor 110 of the second pressure tube, and the water discharged from the first pressure tube or the second pressure tube Accessories such as a check valve, a pressure gauge and an on/off valve 314 mounted on the discharge pipe for supply to the water supply pipe are disposed inside the enclosure, and the pressure tank connected to the discharge pipe is built in a separate housing 331, so that the enclosure A technique for minimizing the size of

Patent Invention 003 includes a body coupled between a first water pipe extending from a water purification plant and a second water pipe leading to a consumer, and a submersible pump installed in the body, the body having a first coupling flange at one end and the other end is provided with a second coupling flange, the main housing 331 having an accommodating space in which the submersible pump can be built, and one end having an inner diameter smaller than the flow path of the portion where the second coupling flange is formed, the main housing 331 ), a third coupling flange is formed so as to be coupled with the second coupling flange, and the other end has a relay housing 331 having a fourth coupling flange formed thereon, and the submersible pump is in the longitudinal direction of the main housing 331. to pump the water flowing in through the suction port extending spaced apart from the inner surface of the main housing 331 along the The submersible pump is detachably coupled to the third coupling flange of the relay housing 331 through a bracket provided at the end at which the outlet is formed, and elastically supports the submersible pump to be spaced apart from the bottom of the main housing 331 . and a technology including an elastic support installed between the main housing 331 is presented.

Patent Invention 004 is a suction pipe having one end connected to a general water supply pipe, and three passages each having a valve protruding therein; a discharge pipe in which one end is connected to the water supply pipe symmetrically with the suction pipe and two passages and a simple passage having a valve therein protrude; first and second sleeves having both ends connected to each valve of the suction pipe and the discharge pipe, and having a submersible pump driven by a driving motor therein; A technology including a third water pipe in which both ends are connected to the remaining valves of the suction pipe and the remaining passages of the discharge pipe is presented.

US 10-2011-0060228 A (June 08, 2011) US 10-1830622 B1 (February 13, 2018) US 10-0889641 B1 (March 12, 2009) US 10-2014-0126946 A (November 03, 2014)

The present invention relates to a water supply system for high water level supply that can control water pressure in order to smoothly supply a water source to a highland.

In order to solve the problems of the prior inventions, the present invention relates to a water supply system for supplying a high water level, and in a water supply system for supplying water at a high water level, a water storage structure 100 formed in a low area and storing a water source; a supply unit 200 extending from the water storage structure 100 and supplying a water source to lowlands and highlands; It is formed in the supply unit 200 of the high ground, the pressurizing unit 300 to increase the pressure of the water source; It is formed in the pressing unit 300, the control unit 400 for controlling the pressure of the water supply source; consists of a configuration including.

The present invention relates to a water supply system for high water level supply and is an invention, the water storage structure 100 presented above; supply unit 200; Pressing unit 300; A control unit 400; is formed in the supply unit 200 in the invention consisting of, and a low water level supply pipe 210 for supplying a water source to the lowland; A high water level supply pipe 220 formed in the low water level supply pipe 210 and supplying a water source to a high ground; is added.

The present invention relates to a water supply system for high water level supply and is an invention, the water storage structure 100 presented above; supply unit 200; Pressing unit 300; In the invention consisting of a control unit 400; a distribution pipe 230 formed in the high water level supply pipe 220 and distributed to the building 500 in a high place; is added.

The present invention relates to a water supply system for high water level supply and is an invention, the water storage structure 100 presented above; supply unit 200; Pressing unit 300; The control unit 400; is formed in the pressurizing unit 300 in the invention consisting of, and a high water level pressure device 310 formed in the high water level supply pipe 220; It is formed in the distribution pipe 230, and a distribution pressurizing device 320 for controlling the pressure of the water source; is added.

The present invention relates to a water supply system for high water level supply and is an invention, the water storage structure 100 presented above; supply unit 200; Pressing unit 300; a control unit 400; a pressure pipe 311 formed in the high water level pressure device 310 and extending from the high level supply pipe 220 to bypass the water source; It is formed in the pressure pipe 311, the pressure pump 312 to increase the pressure of the water source; is added.

The present invention relates to a water supply system for high water level supply and is an invention, the water storage structure 100 presented above; supply unit 200; Pressing unit 300; Control unit 400; is formed in the pressure pipe 311 and the high water level supply pipe 220 to the invention consisting of, and an opening/closing valve 314 for controlling the movement direction of the water source as it opens and closes; is added.

The present invention relates to a water supply system for high water level supply and is an invention, the water storage structure 100 presented above; supply unit 200; Pressing unit 300; A distribution pressure adjusting device 330 formed in the distribution pressure device 320 and installed in the distribution pipe 230 to control the pressure is added to the invention comprising the control unit 400 .

The present invention relates to a water supply system for high water level supply and is an invention, the water storage structure 100 presented above; supply unit 200; Pressing unit 300; A control unit 400; is formed in the control unit 400 in the invention consisting of, a pressure control unit 410 for controlling the pressure of the pressing unit 300; A communication unit 420 formed in the pressure control unit 410 and communicating with the control server 430; is added.

According to the present invention, as a plurality of pressure pumps are formed in a pipe formed at a high water level, it is possible to supply a water source to a high ground.

According to the present invention, as the pressure pipe is formed on the side of the high water level supply pipe, it is possible to control the pressure by bypassing the water source.

The present invention is to control the pressure of the distribution pipe for distributing the water source supplied at high water level to buildings and villages.

According to the present invention, a submersible pump is formed inside the distribution pipe to adjust the pressure of the water source according to the amount of water used.

1 is an exemplary view showing a water supply system for high-level supply of the present invention.
Figure 2 is a conceptual diagram of the water supply system for high-level supply shown in Figure 1.
Figure 3 is an exemplary view of the high water pressure device of the present invention.
4 is an exemplary view showing a flow path through which the water source moves in the high water level pressure device 310 shown in FIG. 3 .
5 is a cross-sectional view of the water leak detection device of the present invention.
6 is a cross-sectional view of the distribution pressing device of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to explain in detail enough that a person of ordinary skill in the art can easily carry out the present invention.

The numbers cited in the examples below are not limited only to the objects of reference, and may be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the embodiment corresponds to an equivalent replacement object. The higher-level concept presented in the examples includes sub-concept objects that are not described.

(Embodiment 1-1) The present invention provides a water supply system for high water level supply, comprising: a water storage structure 100 formed in a low-lying area and storing a water source; a supply unit 200 extending from the water storage structure 100 and supplying a water source to lowlands and highlands; It is formed in the supply unit 200 of the high ground, the pressurizing unit 300 to increase the pressure of the water source; It is formed in the pressing unit 300, the control unit 400 for controlling the pressure of the water supply source; includes.

(Example 1-2) The water supply system for high water level supply of the present invention according to Example 1-1, is formed in the water storage structure 100, and includes a water level sensor 110 for detecting the water level of the stored water source. do.

(Example 1-3) The water supply system for high level supply of the present invention according to Example 1-1, is formed in the water storage structure 100, and includes a pressure control tank 120 for controlling the supply pressure of the water source. do.

(Example 1-4) The water supply system for high water level supply of the present invention according to Example 1-1, wherein the pressurizing unit 300 is installed every 100 m in altitude; includes.

The present invention relates to a water supply system for a high water level supply. Specifically, the water supply system for high water level supply is for supplying water sources to mountainous areas of high elevations. Referring to FIG. 1 , the water supply system for high water level supply prevents the water pressure from being lowered due to the difference in altitude when supplying the water source to a building 500 installed in a mountainous area or a high ground in the city. The water storage structure 100 in which the water source to be stored is formed. The water storage structure 100 stores a water source in order to supply a water source to each building 500 . In addition, the water level sensor 110 for detecting the water level of the water source is formed in the water storage structure 100 , and a predetermined amount of the water source is stored at all times by the water level sensor 110 . In addition, the water storage structure 100 is provided with a pressure control tank 120 to control the pressure of the water source supplied to the lowlands and highlands. This is because when the pressure of the water source supplied to the lowland is too high, the supply unit 200 for supplying the water source may be damaged. Therefore, if the supply amount of the water source in the lowland increases, the pressure increases, and if the supply decreases, the pressure is lowered. And even if the supply amount of the water source supplied from the water storage structure 100 is reduced, the pressure may be constantly maintained by the pressurizing unit 300 that increases the pressure of the water source to the high ground. And the pressurizing part 300 is installed every 100m in altitude, so that the supply pressure of the water source supplied to the highlands is kept constant.

Therefore, the water supply system for high-level supply of the present invention has a feature that can control the pressure of the water source supplied to the highlands.

(Embodiment 2-1) The present invention relates to a water supply system for high-level supply, and in Embodiment 1-1, a low-water level supply pipe 210 formed in the supply unit 200 and supplying a water source to a low-lying area; It is formed in the low water level supply pipe 210, and includes a high water level supply pipe 220 for supplying a water source to the highlands.

(Example 2-2) The water supply system for high water level supply of the present invention according to Example 2-1, the distribution pipe 230 formed in the high water level supply pipe 220 and distributed to the building 500 in the high ground; include

(Example 2-3) In Example 2-2, the water supply system for high water level supply of the present invention is formed in the supply unit 200 and is formed between a plurality of pipes to measure the water pressure. The pressure measuring device 240 includes ;

(Embodiment 2-4) The water supply system for high water level supply of the present invention according to Embodiment 2-1, is formed in the supply unit 200, and includes a water leak detection device 250 for detecting water leakage.

(Example 2-5) The water supply system for high water level supply of the present invention according to Example 2-4, wherein the leak detection device 250 includes a coupling unit 251 for coupling a plurality of pipes facing each other; It includes a;

The present invention relates to the supply unit 200, and specifically, the supply unit 200 is formed by connecting a plurality of pipes, and supplies a water source to the lowlands and highlands. Referring to FIG. 2 , the supply unit 200 includes a low water level supply pipe 210 for supplying a water source to a lowland area and a high water level supply pipe 220 for supplying a water source by distributing it from the low water level supply pipe 210 to a highland area. At this time, the supply unit 200 is formed by connecting a plurality of pipes, and a pressure measuring device 240 and a water leak detecting device 250 are formed at a joint to which the pipes are connected. Referring to FIG. 5, the leak detection device 250 detects water leakage in the water supply pipe by measuring the water pressure and flow rate of water flowing into the water supply pipe. ) is formed in the airtight portion 252 to prevent leakage is formed. A pressure measuring device 240 for measuring the pressure and the flow rate of the water source flowing into the pipe is formed in the fastening part 251 , and when the pressure change among the plurality of pressure measuring devices 240 is less than the standard, it is determined as leaking.

And the high water level supply pipe 220 is formed to extend from the low water level supply pipe 210 to the pressurizing part 300, and supplies a water source to the building 500 formed in the highlands. At this time, a distribution pipe 230 extending from the high water level supply pipe 220 is formed in order to supply a water source to the village where the building 500 is formed. The distribution pipe 230 supplies a water source with a certain amount of pressure because the elevation difference in the high water level supply pipe 220 is not significant.

(Example 3-1) The present invention relates to a water supply system for high water level supply, and in Example 2-1 or 2-2, it is formed in the pressurizing part 300 and the high water level supply pipe 220 High water pressure device 310 formed in; It is formed in the distribution pipe 230, and a distribution pressurizing device 320 for adjusting the pressure of the water source; includes.

(Embodiment 3-2) The water supply system for high water level supply of the present invention according to Embodiment 3-1, wherein the high water level pressurizing device 310 is installed at every 100 m altitude; includes.

The present invention relates to the pressurizing unit 300 , and specifically, the pressurizing unit 300 is formed in the high water level supply pipe 220 to increase the pressure in order to supply the water source to the high ground. Referring to FIGS. 1 and 2 , the pressurizing part 300 is formed in the high water level supply pipe 220, and when the water source is supplied from the lowlands to the highlands, the pressure is insufficient to prevent the water pressure in the highlands from weakening. it will raise The pressurizing unit 300 is provided with a plurality of high water level joining devices formed in the high water level supply pipe 220, and the high water level pressing device 310 is installed every 100 m in altitude, so that the pressure can be smoothly adjusted to the high ground to supply a water source.

In addition, the pressurizing unit 300 has a distribution pressure device 320 is formed in order to adjust the pressure of the water source supplied through the distribution pipe 230 formed extending from the high water level supply pipe 220, the distribution pressure device 320 is to adjust the pressure of the water source so that the water pressure is constant in each building 500 .

(Embodiment 4-1) The present invention relates to a water supply system for high-level supply, and in Embodiment 3-1, it is formed in the high-level pressurizing device 310 and extends at least one or more from the high-level supply pipe 220 a pressure pipe 311 to which the water source bypasses; It is formed in the pressure pipe 311, the pressure pump 312 to increase the pressure of the water source; includes.

(Example 4-2) The water supply system for high-level supply of the present invention includes a pressure sensor 313 for measuring the pressure of the high-level supply pipe 220 according to Example 4-1.

(Example 4-3) In the water supply system for high water level supply of the present invention, in Example 4-1, the high level water supply pipe 220 and the pressure pipe 311 are formed at a contact position, and the water source moves as it opens and closes It includes; an opening/closing valve 314 for controlling the direction.

The present invention relates to a high water level pressure device 310 , and specifically, the high level pressure device 310 is formed in the high level supply pipe 220 to increase the pressure of the water source supplied to the high ground. Referring to FIGS. 3 to 4 , the high water level pressure device 310 is formed inside the pressurizing unit 300 formed as a chamber and controls the pressure of the water source moving inside the high water level supply pipe 220 by power. At this time, the high water level pressure device 310 has at least one pressure pipe 311 extending from the side of the high level supply pipe 220 to form a pressure pipe 311 according to the installation height of the high water level supply pipe 220 . this is decided And a pressure pump 312 is formed in the pressure pipe 311 , and increases the pressure of the water source supplied by bypassing the pressure line 311 to adjust the pressure of the water source inside the high water level supply pipe 220 . In addition, a pressure sensor 313 is formed in the high water level pressure device 310 to increase the pressure through the pressure pump 312 by opening a plurality of pressure pipes 311 when the pressure of the water source is low.

And the opening/closing valve 314 is formed at a position where the high water level supply pipe 220 and the pressure pipe 311 contact each other, and as the opening/closing valve 314 opens and closes, the water source can be diverted to the pressurization pipe 311 . In detail, when the water pressure of the water source inside the high water level supply pipe 220 is low, the opening/closing valve 314 is opened to increase the water pressure of the water source through one variable pipe. If it is determined that it is low, another opening/closing valve 314 is opened to divert the water source through a plurality of variable pipes.

Therefore, the high water level pressurizing device 310 of the present invention has a feature that can control the pressure by power by bypassing the water source moving to the high water level supply pipe 220 .

(Example 5-1) The present invention relates to a water supply system for high water level supply, and in Example 4-1, it is formed in the distribution pressurization device 320 and is installed in the distribution pipe 230 to increase the pressure. It includes a; distribution pressure regulating device 330 to adjust.

(Example 5-2) In Example 5-1, the water supply system for high water level supply of the present invention is formed in the distribution pressure regulating device 330, and the housing 331 is formed inside the distribution pipe 230. ); It is formed at the end of the housing 331, and as it rotates, a distribution pump 332 for adjusting the pressure of the water supply source; includes.

(Example 5-3) In Example 5-1, the water supply system for high level supply of the present invention includes: a distribution passage 333 formed in the housing 331 and formed in various widths to control the flow rate of the water source; includes

(Example 5-4) The water supply system for high water level supply of the present invention according to Example 5-1, is formed in the distribution pump 332, and includes a blade rotating by power.

The present invention relates to a distribution pressurization device 320, and specifically, the distribution pressure device 320 is installed in the distribution pipe 230 to control the pressure. 6, the distribution pressurization device 320 is formed in the distribution pipe 230 distributed to the building 500 formed in the highlands from the high water level supply pipe 220 and the village, respectively, to control the pressure of the water source. This is because the amount of water source is different for each building 500 and village formed in the highlands. In order to control this, the water source supplied from the high water level supply pipe 220 is formed in the distribution pipe 230 through the distribution pressure adjusting device 330 . pressure is regulated. At this time, the distribution pressure regulating device 330 is formed of a submersible pump, and is coupled to the housing 331 fixed to the inside of the distribution pipe 230 and the end of the housing 331 to control the pressure of the water source. ) is formed. The housing 331 has a distribution flow path 333 for controlling the flow rate so that the water source delivered from the high water level supply pipe 220 smoothly flows into the building 500 and the village without power. The distribution passage 333 is formed in various widths, and the width of the distribution passage 333 may be adjusted by power. And the distribution pump 332 is formed with a blade rotating by power at the end of the housing 331, as the blade rotates, the pressure of the water source passing through the distribution pressurizing device 320 is increased to increase the flow rate.

Accordingly, the distribution pressure device 320 of the present invention is formed in the distribution pipe 230 extending from the high water level supply pipe 220 to control the pressure of the water source supplied to the building 500 and the village.

(Example 6-1) The present invention relates to a water supply system for high-level supply, and in Example 5-1, a pressure control unit ( 410); It is formed in the pressure control unit 410, and a communication unit 420 that communicates with the control server 430; includes.

(Example 6-2) In the water supply system for high water level supply of the present invention, in Example 6-1, the pressure control unit 410 is formed in the high level pressure device 310 and the distribution pressure device 320 includes ;

(Example 6-3) In the water supply system for high water level supply of the present invention, in Example 6-1, the pressure control unit 410 controls the pressure of the water source according to the usage of the water source in the highland building 500 and the village. include;

The present invention relates to the control unit 400, specifically to control the pressure of the pressurizing unit 300 according to the amount of water source used in the highlands. Referring to FIG. 2 , the control unit 400 measures the amount of water source used by residents living at high water levels and distributes the distribution formed from the high level pressure device 310 and the high level pressure device 310 formed in the high level supply unit 200 . A pressure control unit 410 for controlling the pressure by controlling the pressure device 320 is formed. At this time, the pressure control unit 410 is formed in the high water level pressure device 310 and the distribution pressure device 320 and controls the pressure according to the amount of water source used in each town and a plurality of buildings 500 formed in the highlands. For example, when the water source usage is low in the uppermost village among the buildings 500 and villages in various locations and the water source usage is high in the lower village, the high water level pressurizing device 310 in the highland of the plurality of high water level pressurizing devices 310 is Without increasing the pressure, only the pressure of the high water level pressurizing device 310 at a location where the amount of water source is high is increased.

In addition, as the communication unit 420 is formed, the plurality of pressure control units 410 communicate with the control server 430 such as water treatment plants and water works to receive the amount of water used and control the pressure of the water sources at each location. .

100: water storage structure 110: water level sensor
120: pressure control tank 200: supply
210: low water level supply pipe 220: high water level supply pipe
230: distribution pipe 240: pressure measuring device
250: leak detection device 251: fastening part
252: airtight part 300: pressurized part
310: high water pressure device 311: pressure pipe
312: pressure pump 313: pressure sensor
314: on-off valve 320: distribution pressurization device
330: distribution pressure regulator 331: housing
332: distribution pump 333: distribution flow path
400: control unit 410: pressure control unit
420: communication unit 430: control server
500: building

Claims (8)

In the water supply system for supplying tap water at high water level,
The water storage structure 100 is formed in the lowland, the water source is stored;
a supply unit 200 extending from the water storage structure 100 and supplying a water source to lowlands and highlands;
It is formed in the supply unit 200 of the high ground, the pressurizing unit 300 to increase the pressure of the water source;
a control unit 400 formed in the pressurizing unit 300 and controlling the pressure of the water source;
a low water level supply pipe 210 formed in the supply unit 200 and supplying a water source to a lowland;
a high water level supply pipe 220 formed in the low water level supply pipe 210 and supplying a water source to a high ground;
a distribution pipe 230 formed in the high water level supply pipe 220 and distributed to the high-rise building 500;
a pressure measuring device 240 formed in the supply unit 200 and formed between a plurality of pipes to measure water pressure;
a water leak detection device 250 formed in the supply unit 200 and detecting water leakage;
The leak detection device 250 includes a coupling unit 251 for coupling a plurality of pipes facing each other;
It is formed inside the fastening part 251, the airtight part 252 in close contact with the pipe; is provided,
a high level pressure device 310 formed in the pressure unit 300 and formed in the high level supply pipe 220;
a distribution pressurizing device 320 formed in the distribution pipe 230 and regulating the pressure of the water source;
a pressure pipe 311 formed in the high water level pressure device 310 and extending from the high level supply pipe 220 to bypass the water source;
a pressure pump 312 formed in the pressure pipe 311 and increasing the pressure of the water source;
It is formed in the pressure pipe 311 and the high water level supply pipe 220, and as it opens and closes
an on/off valve 314 for controlling the movement direction of the water source;
A water supply system for high-level supply comprising a.
delete delete delete delete delete The method according to claim 1,
A water supply system for high water level supply including a; is formed in the distribution pressurization device (320), and is installed in the distribution pipe (230) to control the pressure distribution pressure control device (330).
The method according to claim 1,
a pressure control unit 410 formed in the control unit 400 and configured to control the pressure of the press unit 300;
Formed in the pressure control unit 410, the communication unit 420 for communicating with the control server 430; Water supply system for high water level including a.

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