KR20010016080A - structure water saving system - Google Patents

Abstract

PURPOSE: A water saving structure of multi-stage buildings is provided to minimize a water saving efficiency by making clean water reusable and to prevent environmental pollution by making self-purification of water of auxiliary water tank possible. CONSTITUTION: A water saving structure of the multi-stage buildings includes a main water tank(10) mounted on the rooftop, feed pipes(14) connecting washstands(11), sinks(12) and toilet bowls(13) of each floor, auxiliary water tanks(20) connected to each floor to collect water of the sinks and the washstands through collection pipes(21). The auxiliary water tank has a side connected to a reusable pipe(22) connected to the toilet bowl and the other side having an overflow pipe(25) for automatically moving water to the auxiliary water tank of a lower floor, a pumping pipe(24) for flowing backward the remaining water to the auxiliary water tank of an upper floor, and a pumping unit(23) for forcibly moving water along the pumping pipe.

Description

Structure water saving system of multi-storey building

The present invention relates to a water-saving structure of a multi-storey building, and a feature of the present invention is to change the existing water pipe piped in the multi-story building without using the same water without discharging the reusable water after use. It has an auxiliary tank that can be stored to overflow, so that relatively clear water can be reused to maximize the water saving effect. Especially, the water in the auxiliary tank can be self-cleaned to solve the problem of polluting the natural environment. It was made possible.

Usually, a multi-storey building is mainly equipped with a large main water tank on the roof, and the water supply pipe connected to the main water tank is directly connected to the sink, the sink and the toilet side. It is configured to be discharged through.

Water supplied from the existing main water tank is supplied to the wash basin and sink and the toilet side is opened by operating the valves along the water supply pipe respectively.

In other words, when water is needed in the sink, when the valve installed in the sink is operated, the water stored in the main water tank can be supplied to the sink, and the sink can be opened, and when the valve of the sink forming the sink is opened, water is stored in the sink. It can be supplied to wash various dishes, etc. If the valve of the toilet is operated after the toilet, the water in the main water tank is supplied to the toilet side to perform each necessary function.

However, this existing architectural structure has a number of problems as follows.

That is, the water stored in the main water tank installed on the existing roof is supplied with the necessary water along the water supply pipe directly connected to each valve opening and closing, and the sewage or waste water which performs the above function is connected to the pipe connection. Therefore, it is discharged to the outside through a septic tank or a drain.

In the case of sewage or wastewater generated in such a process, wastewater for toilet washing is naturally discharged through a separate septic tank, but in the case of relatively clean sewage generated from a sink or sink, When discharged, not only waste of water, but also relatively clean sewage, which can be recycled, is discharged directly to the outside without a separate filtration process, thereby contaminating the natural environment and rivers.

In the case of sewage from sinks or sinks, even if a little precipitation time is added or a flocculant or a sediment is added, purified water can be used. Therefore, the situation is accompanied with the problem of increasing the pollution degree of the natural environment or rivers.

Therefore, the present invention improves the water supply structure of the conventional multi-storey building as described above, in the case of waste water generated in the toilet, drain through the drain pipe immediately through a separate septic tank, etc. The relatively clear water generated is transferred to the auxiliary tank along a separate recycling pipe to add a settling time to allow precipitation for a suitable time in the auxiliary tank, and in some cases by administering a flocculant to the auxiliary tank 1 In the state of primary purification, if necessary, it is supplied along the reuse pipe connected to the toilet, so that it can be used for flushing toilets without the need for clear water, thereby preventing the waste of water and the environmental pollution caused by indiscriminate drainage. In the following, the process according to the above object of the present invention and And a method of use for the structure and operational effects can look at on the basis of the flow diagram attached.

1 is a flow chart showing the layout of the water-saving structure of the present invention

2 is a flowchart showing another embodiment of the present invention.

Explanation of symbols used in the main part of the drawing

10: main water tank 11: sink

12: sink 13: toilet bowl

14: water supply pipe 15: drain pipe

16: drain

20: auxiliary tank 21: water collecting pipe

22: reuse pipe 23: pumping means

24: pumping pipe 25: overflow pipe

26: sump 27: discharge pipe

1 is a flow chart showing a preferred embodiment of the present invention, the present invention is a water supply pipe 14 to move the water of the main water tank 10 installed on the roof of various buildings, sinks 11 and sinks on each floor (12) and the toilet 13, and the water supply pipe 14 of each layer is drained through the drain pipe 15 and the drain port 16 in the general structure, each floor separately sink 12 and wash basin ( 11) install the auxiliary water tank 20, which can collect water through the water collecting pipe 21, respectively.

The auxiliary tank 20 installed in each layer is connected to each toilet 13 by connecting a separate reuse pipe 22, and the overflow pipe 25 is piped to the other side of the auxiliary tank 20 to support the lower layer. The tank 20 is automatically connected to the step by step movement, the remaining water from the auxiliary tank 20 of the lower layer is installed to the pumping pipe 24 to move back to the auxiliary tank 20 of the upper layer, each of the pumping pipe Along the 24 is connected the pumping means 23 which can force the water to move upwards.

The pumping means 23 is used as a means for filling the empty upper auxiliary tank 20 with water as a means for preventing unnecessary overflow phenomenon when there is much water in the lower auxiliary tank 20, As such, when there is much water in the auxiliary tank 20 of the upper layer is configured to overflow to the side of the auxiliary tank 20 of the lower layer.

Meanwhile, FIG. 2 is a flowchart showing another embodiment of the present invention, in which an auxiliary water tank 20 is separately installed on an adjacent rooftop where the main water tank 10 is installed, and a separate water collecting tank 26 is installed at the bottom of the sink. It is possible to collect the reusable sewage generated from the 11 and the sink 12, the pumping means by installing a pumping pipe 24 for moving the water of the sump 26 to the roof auxiliary tank 20 (23), it is comprised so that a movement is possible.

Then, the reusable sewage generated from the sink 12 and the sink 11 is collected in the sump 26 through the sump 21, and the sewage remaining in the sump 26 is discharged to the outlet 16 through the drain 27. Naturally, it is possible to achieve the object of the present invention as described above by allowing the discharge.

In particular, in the above structure, the auxiliary tank 20 is used for storing the sewage generated in the sink 12 and the sink 11, the increase in the residence time in the auxiliary tank 20 to increase its own time by sedimentation While purifying, in some cases, a precipitant or flocculant may be added to purify the water.

The present invention, which can have the structure as described above, changes the existing water supply pipe 14 piped in a multi-story building, and the wastewater generated in the toilet 13 is passed through a drain port 16 through a separate drain pipe 15. Through the (not shown) to be purified and discharged, the overflow pipe 25 separately without discharging the reusable water after use once generated in the sink 12 and the sink 11 as it is By providing the auxiliary tank 20 that can be easily stored through the relatively clear water is reusable, the remaining water to maximize the effect of saving water by operating the pumping means 23 of the pumping pipe 24 that can be moved upwards In particular, the water in the auxiliary tank 20 is to be able to solve the problem of contaminating the environment by enabling the self-purification, the use process and effect of the present invention made of the above structure Is a detail view at in conjunction with the accompanying drawings.

The present invention connects the water supply pipe 14 capable of supplying the water of the main water tank 10 installed on the roof of the multi-storey building to the wash basin 11 and the sink 12 and the toilet 13 in each layer to be used as an existing structure. In addition, when a separate valve is operated after the toilet in the toilet 13, the wastewater generated at the toilet is purified through a septic tank separately installed through a drain pipe 15.

On the other hand, the relatively clear water generated in the sink 12 and the sink 11 is moved to the auxiliary tank 20 through the collecting pipe 21 rather than being discharged directly through the drain pipe 15 as in the conventional case, and is collected. .

That is, the sink 12 and the basin 11 is mainly used for washing, in this case, the water is not impossible to recycle like waste water and relatively good sewage is generated, so the sewage is not discharged immediately Without collecting through the collecting pipe 21 to the secondary tank 20 of each floor.

The sewage collected in this way is to stay a proper time in the auxiliary tank 20, the foreign matters having a specific gravity higher than the water is automatically precipitated in the process of staying in the auxiliary tank 20, the primary purification is made.

At this time, in order to efficiently perform the self-purification of the auxiliary tank 20, by adding a separate precipitant or a flocculant into the interior of the auxiliary tank 20, the sink (11) and sink by maximizing the efficiency of sedimentation or aggregation The sewage generated in (12) will be purified.

Meanwhile, when the purified water is collected in the auxiliary tank 20, the water used in the toilet 13 is connected to the toilet bowl 13 through the reuse pipe 22 without using the main water tank 10. By using the water collected in the auxiliary tank 20 purified as described above it is possible to save excessive consumption of water.

In other words, in the present invention, the wastewater generated by itself in the existing toilet 13 is purified by passing through a separate septic tank through the drain pipe 15, and is generated in the wash basin 11 and the sink 12 that can be reused. The relatively clear sewage is collected into the auxiliary tank 20 through the collecting pipe 21 to induce sedimentation, and thus, primary sedimentation is performed. In some cases, a separate flocculant or precipitant is added to produce purified water. Opening the valve of the toilet bowl 13 by connecting to the toilet bowl 13 through the reuse pipe 22 makes it possible to reuse the water in the purified auxiliary tank 20.

In order to achieve the structure as described above, the overflow pipe 25 connected to the auxiliary tank 20 of each layer is installed, so that when the water consumption of the upper layer increases, the auxiliary tank 20 becomes full of water. Since the pipes are moved to the auxiliary tank 20 of the lower layer through the overflow pipe 25 as a phenomenon, the auxiliary tank 20 of each floor is always filled with water, and in particular, in the process of the upper auxiliary tank 20 If the water is insufficient, but the water in the lower auxiliary tank 20 is left, by operating the pumping means 23 provided on the side separately, the water stored in the auxiliary tank 20 of the lower layer forced backflow to the auxiliary tank 20 of the upper layer By moving to the water can be uniformly supplied to the auxiliary tank 20 provided on each floor.

Thus, since the water is always uniformly supplied to the auxiliary tank 20 of each layer, since the purified water of the auxiliary tank 20 cannot be used for other purposes, it is directed to the toilet bowl 13 through the reuse pipe 22. By connecting, it is possible to use it for a purpose that does not require relatively clear water, and according to the present invention, it is possible to supply to the toilet bowl 13 side without discarding recyclable water after using it once, as in the conventional case, and thus has excellent water saving effect. In particular, since a large amount of contaminated water is not immediately discharged and stored in the auxiliary tank 20 to maintain a proper time, purification by primary precipitation is performed, and a coagulant is contained in the auxiliary tank 20 as necessary. In addition, by adding a precipitant or the like, it is also possible to expect the advantage that the purification can be used in a short time.

On the other hand, the insufficient water can be supplied to the auxiliary tank 20 of the upper side by the pumping pipe 24 through a separate pumping means 23, when there is a lot of water in the auxiliary tank 20 of a specific layer naturally overflow pipe By moving to the lower layer through 25, the auxiliary tank 20 of each layer is always filled with purified water to satisfy the water that can be used in the toilet 13.

As described above, the present invention does not immediately discard a part of the water supplied through the water supply pipe 14 connected to the existing main water tank 10, but partially in the process of staying in a separate auxiliary water tank 20 for a suitable time. By purifying and artificially purifying if necessary, it can be reused in the use of toilet bowl 13 to prevent waste of water and to prevent environmental pollution by eliminating the concern about polluting rivers, such as when draining a large amount of sewage at once. You can also expect such effects.

In particular, in the case of the auxiliary tank 20 of the present invention, if the foreign matter is accumulated due to its own sedimentation or the addition of a flocculant or a precipitant, periodically cleaning the auxiliary tank 20 can always produce purified and reusable water of high quality. In addition, in the case of food waste deposited in the auxiliary tank 20, the whole amount is collected and processed in a particulate form through a deodorizer, a crusher, and a dehydrator, so that it can be recycled to various plant cultivation compost or livestock feed. You can also expect the benefits.

2 is a flow chart showing another embodiment of the present invention, the basic water-saving structure is the same as the object of the present invention, but by modifying the water-saving structure to eliminate the auxiliary tank 20 of each layer, but separately the water collecting tank 26 at the lower side The sewage generated from the sink 11 and the sink 12 is collected in the water collecting tank 26 through the collecting pipe 21, and the collected sewage operates the pumping means 23 installed in the pumping pipe 24. Thus, the sewage collected in the water collecting tank 26 can be reused by supplying to the side of the auxiliary water tank 20 on the adjacent roof where the main water tank 10 is installed. When there is a large amount of sewage, it is automatically discharged from the sump 26 to the drain 16 through the discharge pipe 27.

That is, a separate collection tank 26 is installed at the bottom side, and wastewater generated from the toilet bowl 13 side is discharged while passing through a septic tank through a drain pipe 15, and reuse is generated from the sink 11 and the sink 12. Possible sewage is collected in the sump 26 to be moved to the rooftop auxiliary tank 20.

In this case, by the operation of the pumping means 23 is moved to the upper auxiliary tank 20 through the pumping pipe 24 can be purified by administering automatic precipitation or flocculant or precipitating agent, and in some cases the collection tank ( 26) The sewage collected by itself may be settled by passing a proper time, and if necessary, after the purification by administering a flocculant or a precipitant, a separate pumping means 23 is operated to pump the pipe 24. Through the auxiliary tank 20 will be able to move through.

As described above, since the reusable purified water is stored in the rooftop auxiliary tank 20 as described above, when the valve of the toilet 13 is operated, the water in the main water tank 10 remains as it is and the auxiliary tank 20 ) To wash the toilet 13, the waste water generated therein is moved to the drain port 16 side through the drain pipe 15 is moved to a separate septic tank.

In the case of another embodiment, such as the second diagram of the present invention, when applied to a building that is already constructed to install a collecting tank 26 on the lower side without installing a separate auxiliary tank 20 on each floor to move it upwards Since the pumping means 23 and the pumping pipe 24 for moving to the upper auxiliary tank 20 on the upper side can simplify the installation while maximizing the effect of saving water aimed at the present invention.

As described above, the present invention improves the water supply structure of the existing multi-story building, and immediately drains the waste water generated from the toilet bowl 13, etc., through a separate septic tank, etc. B, the relatively clear water generated in the sink 12 is moved to the auxiliary tank 20 along a separate reuse pipe 22 to add a settling time to allow the precipitation in the auxiliary tank 20 for a suitable time. In some cases, by administering a coagulant or the like to the auxiliary tank 20, the toilet may be supplied along a reuse pipe 22 connected to the toilet bowl 13 side if necessary in the state of primary purification, thereby requiring clean water ( 13) It can be used for cleaning, preventing the waste of water as well as the effect of preventing the environmental pollution caused by indiscriminate drainage. The water remaining in the auxiliary tank 20 is automatically transferred to the auxiliary tank 20 in the lower layer through the overflow pipe 25 and, conversely, when there is a lot of water in the lower layer, the pumping pipe ( According to 24), the water can be collected in the auxiliary tank 20 of the upper layer, and the purified water can be used in place while preventing waste of water. Therefore, it is possible to obtain a very reasonable effect with water saving structure of various multi-layered buildings. It is an invention that the value of the structure is very excellent because it can expect the effect of daily profit, such as to prevent the environmental pollution due to the discharge of sewage.

Claims (2)

The main water tank 10 installed on the roof is connected to the sink 11, the sink 12, and the toilet 13 on each floor through the water supply pipe 14, and the water supply pipe 14 on each floor includes a drain pipe 15 and a drain hole ( In the general structure that can be drained through 16, each floor is connected to the auxiliary tank 20 which can separately collect the water of the sink 12 and the sink 11 through the collecting pipe 21, respectively The auxiliary tank 20 of each layer connects the reuse pipe 22 to each toilet 13, and the overflow tank 25 is piped to the other side of the auxiliary tank 20 to support the lower tank 20. Automatically step by step to be connected to, and the remaining water from the auxiliary tank 20 of the lower layer is installed to the pumping pipe 24 to move back to the auxiliary tank 20 of the upper layer, each of the pumping pipe 24 According to the multi-story building, characterized in that for connecting the pumping means 23 for forcing the water to move upward Wed structure. The auxiliary water tank 20 is installed separately from the main water tank 10 on the roof, and a separate water collecting tank 26 is installed at the lower side to collect the sewage generated from the sink 11 and the sink 12, The pumping pipe 24 for moving the water in the water tank 26 to the auxiliary tank 20 is installed to be movable by the pumping means 23, and is generated in the sink 12 and the sink 11 Excessive sewage is discharged to the drain port 16 side through the discharge pipe (27) connected to the sump (26), water collection structure of a multi-story building, characterized in that the reusable water, such as sewage is configured to be movable to the sump (26).