KR101458604B1 - Water supplying system - Google Patents

Abstract

The present invention relates to a water supply system for supplying or discharging a fluid, and particularly to a water supply system for minimizing the length of piping and preventing a water pressure difference from being generated, And the water receiver is sequentially connected by a flow pipe so that the fluid sequentially passes through a plurality of water collectors and is discharged.

Description

Water supplying system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water supply system for supplying or discharging a fluid, and more particularly, to a water supply system capable of minimizing the length of a pipe and preventing a water pressure difference from being generated.

Generally, it is necessary to supply water to the building for supplying fluid in a plurality of water supply areas where the fluid is discharged to the outside, and piping for hot water supplying hot water for heating the fluid to a plurality of water supply areas. Although such piping is done in a variety of ways, the most commonly used method is one-to-one.

As shown in FIG. 1, the one-to-one system is a system in which the fluid supplied from the source water supply unit is distributed to a sink, a washing machine, a bathtub, a washstand, a toilet, and the like, each of which is directly piped through a distributor.

In this one-to-one method, a distributor is necessary, and it is inconvenient to select an installation space in consideration of an inspection gate for maintenance of a winter fan or the like. Since the distributor and each final water supplier are directly piped, The construction cost is increased and there is a great possibility of interference with other processes.

In addition, in the place where the piping is concentrated, there arises a problem in the construction structure in which a space is generated when the concrete is poured, while it is directly distributed to a plurality of final water supply points through a distributor. Since the diameter of the pipe is the same, there is a difference in hydraulic pressure depending on the distance, and when the fluid is supplied at the last water supply destination, there is a problem that the hydraulic pressure at the last water supply destination is lowered.

[Related Technical Literature]

1. A dispenser having a dispensing structure and a water supply system using the dispenser structure (Patent Application No. 10-2008-0108827)

It is an object of the present invention to provide a water supply system capable of minimizing the length of piping installed in a household to reduce the construction cost and to prevent a hydraulic pressure difference of the fluid discharged to the outside from the final water supply source from being generated. The purpose is to provide.

In order to accomplish the above object, the present invention provides a water supply system including a plurality of water receiving units that receive a fluid from a supply unit and discharge the fluid to respective points, wherein the water receiving units are sequentially connected by a flow pipe, Are sequentially discharged and discharged.

The plurality of channel pipes are formed so that their diameters gradually decrease from the best channel pipe to the last channel pipe. The plurality of channel pipes are connected to the channel pipe at a position separated from the supply pipe by a certain distance, And a joint box connected to the water receiver and the flow pipe.

The water supply system according to the present invention is a system in which a supply part as a source water supply source and a water supply part as a final water supply source are directly connected to each other, In this way, since the plurality of water receivers are connected to sequentially pass the fluids, the length of the piping is remarkably reduced as compared with the conventional one-to-one method. Therefore, not only can the construction cost be reduced, but also the piping structure is not complicated, so that it is not interfered with in other processes.

In addition, since the diameter gradually decreases from the best flow pipe to the last flow pipe, it is possible to prevent a pressure difference from being generated according to the distance of supplying the fluid to each water receiver, On the other hand, since the fluid is supplied through the flow pipe having a diameter smaller than that of the preceding flow pipe, the water pressure can be prevented from being lowered.

Further, since the fluid supplied through the joint box can be redistributed and supplied, a plurality of pipes can be connected to the supply unit to prevent the piping from being complicated.

1 is a schematic view of a conventional water supply system,
2 is a view showing a structure of a water supply system according to the present invention,
3 is a schematic view showing an example in which a water supply system according to the present invention is applied within a generation,
4 is a view showing a structure in which a joint box is included in a water supply system according to the present invention;

In order to minimize the length of the piping and to prevent the generation of the water pressure difference, the present invention includes a plurality of water receiving units that receive the fluid from the supply unit and discharge the fluid to the respective points, wherein the water receiving units are sequentially connected by the flow pipe, Wherein the fluid is discharged through the plurality of water receivers successively.

The scope of the present invention is not limited to the embodiments described below, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

Hereinafter, the water supply system of the present invention will be described in detail with reference to FIGS. 2 to 4 attached hereto.

As shown in FIG. 2, the water supply system according to the present invention is for supplying fluid to a plurality of water supply areas in a household, and includes a supply unit 100 as a source water supply source and a plurality of water receiving units 200: 200-1, 200- 2, and 200-3, and is not limited to the number of the supply unit 100 and the power receiver 200 shown in the figure.

The supply unit 100 supplies the fluid to the power receiver 200 through the flow pipe 10 and supplies the fluid to the power receiver 200 which is located close to the supply unit 100 or is easy to pipe, . 2, when a plurality of water supply regions, such as the first water supply region A and the second water supply region B, are formed, the supply unit 100 supplies the water to the supply unit 100 And is connected to a plurality of water receiving units 200 that are located close to each other or are easy to pipe.

The plurality of power receiving units 200 are sequentially connected by the flow pipe 10 and the best power receiving unit 200-1 supplied with the fluid from the supplying unit 100 is connected to the middle power receiving unit 200- 2, and the intermediate water receiver 200-2 supplies the fluid to the last water receiver 200-3, and the water receiver 200 discharges the fluid to the outside. The intermediate water receiver 200-2 is shown as being single in FIG. 2, but it is not limited thereto and a plurality of intermediate water receiver 200-2 may be provided.

Conventionally, when the fluid is directly supplied from the supply unit 100, which is the source water supply unit, to each of the water receiving units 200-1, 200-2, and 200-3 as the final water supply destination, the length of the pipe becomes long However, in the water supply system according to the present invention, since the supply unit 100 sequentially supplies the fluid to the plurality of water receiving units 200 after supplying the fluid to the best water receiving unit 200-1, The length can be significantly reduced.

Therefore, since the length of the piping in the household can be minimized, the construction cost can be reduced as compared with the conventional one-by-one piping system, and the piping structure is simple, and interference does not occur in other processes such as waterproofing and masonry.

In the present invention, since the distributor and the power receiver 200 are not directly connected to each other, the size of the distributor can be reduced compared to the conventional one-to-one system. , The installation space of the distributor can be easily selected.

A plurality of flow pipe 10 to be applied to the water supply system according to the present invention is provided and is installed between the water receiver 200 and the water receiver 200 from the best water receiver 200-1 to the last water receiver 200-3, And the receiver unit 200 are sequentially connected. At this time, it is preferable that the diameter of the flow pipe 10 gradually decreases from the best flow pipe 10 to the last flow pipe 10.

If a plurality of water receiving units 200 are provided, if the diameter of the plurality of flow pipe units 10 installed between the water receiving units 200 is the same, the fluid discharged to the outside from the last water receiving unit 200-3 may be a plurality of The water pressure is relatively lower than that of the best water receiver 200-1.

In addition, the power receiver 200 functions to discharge the fluid to the outside and to supply the fluid to the rudder front 200. If the flow pipe 10 having the same diameter is used, When the fluid is discharged to the outside from the tub 200, the pressure of the fluid is weak, so that the surplus fluid can not be easily supplied to the drum unit 200. The flow pipe 10 connecting the supply unit 100 and the best water receiver 200-1 also has a larger diameter than the flow pipe that connects the best water receiver 200-1 and the middle water receiver 200-2, Is preferable.

Therefore, as shown in FIG. 2, the flow pipe 10 connecting the supply part 100 and the best water receiver 200-1 is the thickest, The diameters of the flow pipe 10 are sequentially reduced so that a water pressure difference is not generated in each of the water receiving units 200 as final water supply irrespective of the position of the water receiving unit 200 and whether the fluid is discharged to the outside.

FIG. 3 is a schematic view showing an example in which the water supply system according to the present invention is applied to a household. In FIG. 3, a water meter indicates a water supply unit 100, and a sink, a washing machine, a bathtub, a washbowl, In Fig. 3, the water supply area can be divided into a public toilet area, a couple toilet area, a sink, a washing machine, a hand laundry, and a boiler.

Therefore, the supply unit 100 is piped to the toilet in the tub, the sink, and the toilet in the public toilet, which is the water receiver 200 located nearest to each water supply area or easy to pipe. In the common toilet area, the fluid is supplied to the balcony, which is the last water receiver 200, sequentially passing through the bathtub, washstand, and toilet. In this case, it is needless to say that the fluid can be discharged to the outside from the bathtub, the washstand, the toilet, and the balcony, Although it is not shown in the drawing, it is preferable that the diameter of the flow pipe 10 from the supply part 100 to the bathtub is the largest, and the diameter of the flow pipe 10 decreases toward the balcony.

The area where the toilet, the washing machine, the hand washing, and the boiler are combined into the piping is also the same as described above.

The water supply system of the present invention may further include a joint box 300 for redistributing the fluid supplied from the supply unit 100 to each power receiver 200. 4, the joint box 300 is installed at a predetermined distance from the supply part 100 and is connected to the flow pipe 10 while a plurality of water receiving parts 200 are connected to the flow pipe 10, Lt; / RTI >

Accordingly, the fluid supplied from the supply unit 100 is branched through the joint box 300 and supplied to the washing machine and the washstand, which are the respective power receiving units 200, as shown in FIG. The fluid supplied to the washing machine is supplied to the receiver 200 for hand washing and is sequentially supplied to the balcony as described above.

4 shows that the joint box 300 is single, but it is not limited thereto and a plurality of joint boxes 300 may be provided depending on the size of the building. Also, the number of the power receiving units 200 connected to the joint box 300 may be changed. Further, even when the joint box 300 is used, it is preferable that the diameter of the flow path pipe 10 gradually decreases from the best flow path pipe 10 to the last flow path pipe 10.

The water supply system of the present invention is not limited to the term water supply, but also includes the meaning of hot water supplying hot water heated by a boiler facility to each power receiver 200.

The water supply system according to the present invention is a system in which a supply part as a source water supply source and a water supply part as a final water supply source are directly connected to each other, The plurality of water receiver units 200 are connected in such a manner that the fluids sequentially pass, so that the length of the pipe is remarkably reduced as compared with the conventional one-to-one system. Therefore, not only can the construction cost be reduced, but also the piping structure is not complicated, so that it is not interfered with in other processes.

In addition, since the diameter of the flow pipe 10 gradually decreases from the best flow pipe 10 to the last flow pipe 10, a water pressure difference is generated depending on the distance of the fluid supplied to each of the water receiving units 200 And the fluid is discharged from the water collecting part 200 to the outside while the fluid is supplied through the flow pipe 10 having a diameter smaller than the diameter of the flow path pipe 10 before the water pump, Can be prevented.

In addition, since the fluid supplied through the joint box 300 can be redistributed and supplied, it is possible to prevent the tubes from being complicated by being connected to the supply unit 100.

A: first water supply region B: second water supply region
10: flow pipe 100:
200 (200-1, 200-2, 200-3):
300: Joint box

Claims (3)

And a plurality of water receiving units 200 divided into a plurality of water supply regions and supplied with fluid from the supply unit 100 for each water supply region and discharging the fluid to respective points, The fluid is sequentially discharged through the plurality of water collectors 200,
The flow pipe 10 is provided with a plurality of channels and is installed between the water collectors 200 from the best water receiver 200-1 to the last water receiver 200-3 to sequentially connect the receiver 200 and,
The diameter gradually decreases from the best flow pipe 10 to the last flow pipe 10 so that the water pressure is sequentially increased toward the final water receiver 200-3, And the water is discharged at a constant pressure every time. delete The method according to claim 1,
Further comprising a joint box 300 installed at a predetermined distance from the supply part 100 and connected to the flow pipe 10 and connected to the water receiver 200 through the flow pipe 10,
And the fluid supplied from the supply unit (100) through the joint box (300) can be redistributed and supplied.

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