KR20150001431A - Water supply system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water supply system of a combined domestic and public water tank,
A water tank 100 for storing water by receiving a water supply is provided and water stored in the water storage tank 100 is supplied to each household by a booster pump 300 so that a part of the water supplied from the water supply tank Is supplied directly to the booster pump (300) and supplied to each household together with the water supplied from the water storage tank (100)
A part of the water supplied through the water pipe is directly supplied to the booster pump by supplying the booster pump with the pressure through the water pipe so that the load applied when the booster pump supplies the water to each household can be reduced, Even if water is not supplied through the water tank, water supplied from the water pipe can be supplied to each household. As a result, electricity can be saved and stable water can be supplied to each household The present invention relates to a water supply system for a direct-water and a water tank combined apartment house.

Description

Water supply system for combined use of direct water tank and water tank

The present invention relates to a water supply system, and more particularly, to a water supply system that can supply water supplied from a water supply system when supplying water stored in a water storage tank to each household in a multi- ≪ / RTI >

Generally, it is difficult to supply water to apartment houses by connecting households with a large number of households and a high floor level to each household. If water is directly connected to each household, water pressure and water quantity are not enough. Therefore, a water supply system has been proposed to supply enough water to each household, so the water is stored in the water tank and supplied to each household. Here, the water supply system includes a method of installing the water tank on the roof and a method of installing it on the ground.

When the water tank is installed on the roof, the water supplied from the water pipe is raised to the water tank on the roof of the high-rise building, and then the water is lowered again to be used in each household of the apartment. However, this type of water supply system requires unnecessary energy consumption because the water used in the lower layer has to be sent up to the roof and then sent back to the roof, and the supply amount of the water is not constant due to the difference in the water supply pressure in the upper and lower layers .

Since the method of installing the water tank on the roof is problematic as described above, it is proposed to install the water tank under the water supply system and supply the water supplied from the water storage tank to each household by using the booster pump. Such a water supply system is disclosed in a Utility Model Registration No. 20-0251209 entitled " High-Rise Apartment Pressurized Water Supply System Using Conventional Pump and Piping ". As shown in FIG. 1, water is supplied to the water storage tank 100 from a water supply tank. The water is stored in the water storage tank intensively for a small amount of time in each household, so that a sufficient amount of water is prepared. It is the way water is supplied to each generation.

However, in the conventional water supply system as described above, water supplied through the water supply system is supplied to each household through the water storage tank 100, so that a considerable amount of energy is supplied to each household from the water storage tank 100 . In general, the water stored in the water tank is sent to the respective households through the booster pump 300, which consumes much power necessary for operating the booster pump 300. The booster pump (300) is installed on the 15th floor of the 500th generation and has a capacity of about 11kW, which consumes much power.

In addition, when the water supply system needs to clean the water tank or repair the water tank, it is impossible to supply water to each household at all. This is because only the water stored in the water tank can be supplied to each household, and if the water tank stops functioning, there is no way to supply water to each household.

The present invention is to solve the problems of the conventional water supply system as described above, and it is an object of the present invention to provide a water supply system capable of reducing a power consumption and saving water supply even when a water storage tank can not be used, And the like.

The present invention achieves the above-mentioned object by proposing a water supply system that can simultaneously or selectively supply the water supplied from the water supply line and the water supplied from the water storage tank to each household.

According to the present invention, by supplying a part of the water supplied through the water pipe directly to the booster pump, the pressure through the water pipe is supplied to the booster pump, so that the load applied when the booster pump sends water to each household can be reduced In addition, even if the water tank is not supplied through the water tank, for example, when the water tank is repaired or cleaned, water supplied through the water pipe can be supplied to each household. As a result, electricity can be saved, The effect can be obtained.

FIG. 1 is an exemplary view schematically showing a conventional water supply system,
FIG. 2 is an exemplary diagram schematically showing a water supply system according to the present invention; FIG.

The present invention provides a water supply system capable of reducing the power consumption to help save power and to provide a stable water supply environment even when the water tank is not used even if water supply is not interrupted, Wherein a part of the water supplied from the water supply unit is directly supplied to the booster pump and is sent to each household together with the water supplied from the water storage tank Water supply system.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. FIG. 2 is an exemplary view schematically showing a water supply system according to the present invention.

As shown in the drawing, the water supply system according to the present invention includes a water storage tank 100 connected to a water supply pipe to store and supply water, a booster pump 300 connected to the water storage tank 100 for supplying water to each household, ).

The water storage tank 100 is installed in the basement and serves to supply and store the water through the water supply. In each household, water is supplied and stored mainly in the middle of the night when the water is not used, and the water level sensor is installed to maintain the water level at a constant level. The amount of water to be stored is calculated in advance and formed into an appropriate size, which is not different from what is known.

A plurality of booster pumps 300 are provided. In the present invention, three units of 11kW capacity are installed on the basis of 15th floor and 500th generation, but the present invention is not limited thereto. The number of households that need water supply and the capacity of the booster pump 300 are comprehensively considered so that the installation number is controlled.

In the water supply system according to the present invention, part of the water (direct water) supplied from the water supply pipe is directly supplied to the booster pump 300 through a separate pipe. Thus, the booster pump 300 is supplied with the water supplied from the water storage tank 100 and the water supplied from the water supply to the respective generations.

When a part of the water supplied from the water supply pipe is directly supplied as described above, the water pressure of the water supplied from the water supply pipe can be utilized by the booster pump 300. Accordingly, the load applied to the booster pump 300 is reduced. Thus, even when the booster pump 300 having a small capacity is used compared with the case where only the water supplied from the water storage tank 100 is discharged to each household, . For example, in case of supplying the water supplied from the water tank (100) to each household by the 15th floor and the 500th generation, it is necessary to supply three water bodies of approximately 11 kW capacity. When water supplied from the water supply system is supplied to each household, If two units and 11kW units are used, the same output can be obtained. It is possible to reduce electricity consumption naturally and thus to save power.

Here, in the present invention, any one of the water supplied from the water storage tank 100 and the water directly supplied from the water supply can be selectively blocked. And closing the pipe through the valve to block the flow of the water. According to this, even if the water storage tank 100 is damaged and need to be repaired or the water storage tank 100 needs to be cleaned, water supplied directly from the water supply can be supplied to each household. Even if the amount of water supplied directly from the water supply is not sufficient, it is possible to prevent the flow of the water supplied to each household from being completely cut off, thereby enabling stable water supply.

Hereinafter, a specific configuration for implementing the water supply system according to the present invention will be described in detail.

In the present invention, the boiler pump 300 is connected to the boiler pump 300, one end of which is connected to the water pipe 200, and the other end of which is connected to the booster pump 300 to directly supply part of the water supplied from the water pipe to the booster pump 300 . At this time, the water supplied from the water distributing pipe 220 and the water supplied from the water storage tank 100 are mixed in the suction merging pipe 320 and supplied to the booster pump 300, Is not directly connected to the booster pump 300 but is connected to the suction merging pipe 320.

The suction merge pipe 320 is formed to supply water to each booster pump 300 having a predetermined length. A water pipe connected to the underground water storage tank 100 is connected to one end of the water supply pipe and a water pipe 220 is connected to the other end of the water pipe. Accordingly, since the water pressure of the water supplied from the water supply can be used by the booster pump 300, it is possible to use the booster pump 300 having a lower capacity than the conventional one under the same conditions.

The suction and confluence pipe 320 is provided with a valve 322 at an appropriate position so that the flow of the water supplied to each booster pump 300 can be interrupted. As a result, the valve performs the function of interrupting or continuing the flow of the water and preventing the reverse flow. Particularly, the valve 322 is installed between the water storage tank 100 and the suction merging pipe 320 and between the water pipe 200 and the suction merging pipe 320 to selectively block the flow of the water .

The water discharged from the booster pump 300 is supplied to each household through a separate pipe. For this purpose, a discharge and condensation pipe 340 is provided. The water discharged from the booster pump 300 is mixed with the water discharged from the booster pump 300 through the discharge and confluence pipe 340 and mixed with the water supplied from the booster pump 300 The water can be supplied at a relatively constant pressure as the water can be dispensed.

Meanwhile, the water supply system according to the present invention may include a controller 400 for controlling the system. The operation of the booster pump 300 and the opening and closing of the valve 322 are controlled as a configuration for controlling the valve 322 and the booster pump 300. [ Here, the controller 400 includes an inverter to control the booster pump 300 and also the valve 322. In addition, it is preferable that the water supply system according to the present invention can be remotely monitored for smooth operation.

In the water supply system according to the present invention as described above, a part of the water supplied from the water supply system is directly supplied by the booster pump 300 and supplied together with the water supplied from the water storage tank 100, so that the capacity of the booster pump 300 It is possible to reduce the power consumption considerably and to supply the water supplied from the water supply to each household even when the water supply to the water storage tank 100 is cut off.

100: water tank, 200: water pipe,
220: constant-flow tube, 300: booster pump,
320: Suction joining pipe, 340: Suction joining pipe,
400: controller.

Claims (5)

A water tank 100 for storing water by receiving a water supply is provided and the water stored in the water storage tank 100 is supplied to each household by a booster pump 300,
And a part of the water supplied from the water supply unit is directly supplied to the booster pump (300) and is sent to each household along with water supplied from the water storage tank (100). The method according to claim 1,
A water supply system of a direct water and a water tank combined water supply system wherein any one of the water supplied from the water storage tank (100) and the water supplied directly from the water supply is selectively blocked. A plurality of booster pumps 300 connected to the water pipe 200 to supply and store the water to be supplied to the respective generations in response to the water supplied to the water tank 100, (300) for supplying the water supplied from the booster pump (100) to the booster pump (300), and a discharge confluent pipe (340) for supplying the water supplied from the booster pump (300) ),
The suction and confluence pipe 320 is connected to the water pipe 200, and the water is directly supplied to the booster pump 300 after the water is distributed. The method of claim 3,
A valve 322 is provided between the water storage tank 100 and the suction merging pipe 320 and between the water pipe 200 and the suction merging pipe 320 to selectively block the flow of water, Housing water supply system. The method of claim 3,
Further comprising a controller (400) for controlling the operation of the booster pump (300) and the valve (322) so as to remotely control the direct water and the water tank.

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