KR20130030472A - Rooftop rainwater reservior and method of using the rainwater - Google Patents

Abstract

PURPOSE: A rainwater reservoir of a building and a method of use thereof are provided to prevent inflow of contaminant by collecting water in the top of the building and to supply the rainwater of undercurrent with non-power. CONSTITUTION: A rainwater reservoir of a building comprises a main body(110), a rainwater inlet(120), a rainwater outlet(130), and a rainwater outlet pipe(140), and a control unit(C). A rainwater undercurrent main body is installed in the upper part of the building and comprises a sensor(S) which measures water level. The rainwater outlet pipe is connected to the rainwater outlet and comprises a rainwater opening and closing valve(Vh), a main pipe(142) of the building, and an interlayer pipe(144).

Description

Rainwater Storage Device and Method of Using the Rainwater in Buildings for Rainwater Utilization

The present invention relates to a rainwater storage facility and a method of treating the rainwater, and more particularly, to a rainwater storage device of an environment-friendly building that can store rainwater on an upper part of a building during a rain and later use the stored rainwater without force. It is about how to use.

Today, rainwater, brought down by urban concentration and increasing impervious surface, has been a priority to immediately drain to rivers or rivers through stormwater networks. In addition, due to the increasing dependence on hard development and fossil fuels, and the improvement of quality of life, the demand for convenient household goods is more demanded.

In Korea, the frequency of heavy rain and guerrilla heavy rain is increasing, and the amount of rain per day is up to 200 ~ 300mm, and this phenomenon is increasing every year. In Southeast Asia and Southwest Asia as well, global warming is increasing the dry season by one to two months.

In order to overcome this phenomenon, Korea is pursuing a rainwater management project that uses rainwater to store and manages rainwater from the existing rainwater removal policy. The rainwater management project is classified as a green project centered on the central government, and the legal and institutional basis for this is being prepared, and 46 local governments have been able to utilize the discarded rainwater by enacting ordinances on rainwater. At present, the central government and local governments have adopted the concept of On Site water supply to reduce the burden of long-distance transportation due to water supply, and to immediately collect and store rainwater discharged from the site. In order to prevent the overflow of sewer pipes and sewer pipes, a decentralized rainwater management facility is installed to secure the residence time, thus introducing a rainwater management system for flooding and flooding.

In order to utilize rainwater, it is an integrated remote management facility that monitors and manages the catchment area, collection facilities, storage facilities, filtration facilities, treatment tanks for dewatering filtered rainwater filtration water, disinfection facilities, supply facilities, and all machinery and sensors on the web. Can be distinguished.

Looking at the conventional rainwater storage tank for freshwater rainwater, the existing rainwater storage tank is installed using any one space in the basement floor of the building or buried in the ground. Rainwater stored in such a storage facility is later raised to the ground by the power, the situation is being supplied to the landscape water, toilet water, playground water, hydrophilic water and the like.

However, the conventional rainwater storage tank is required to use a separate power source, such as a pump, if you want to later utilize the rainwater filled therein, and unless the use of fossil raw materials or electric energy using nuclear power, inside the rainwater storage tank There is a drawback of not being able to take advantage of rainwater.

The present invention is to solve the above-mentioned problems of the prior art, and once collected in the upper part of the building when rainwater occurs, and then to use the rainwater later, freely without needing a separate power source The purpose of the present invention is to provide a rainwater storage device and a method of using the same.

In order to achieve the above object, the present invention is installed in the space of the dead space existing in the upper part of the building, and installed between the main pillars of the building so as to provide an equal load to the building, A rainwater storage body formed of a sealed container capable of receiving and storing rainwater dropped on a roof, the rainwater storage body including a sensor measuring a level of rainwater present in the sealed container; A rainwater inflow path collected from the roof of the building, the rainwater inlet being located above the rainwater storage body; A rainwater outlet formed at a lower portion of the rainwater storage body as a passage through which rainwater stored in the rainwater storage body flows outward; It is coupled to the rainwater outlet, has a rainwater opening and closing valve for opening or blocking the rainwater flowing through the rainwater outlet, branched from the main pipe and the main pipe connected to the first floor of the building and the building A rainwater outflow pipe including an interlayer pipe for supplying rainwater to a water use facility installed in a bathroom of the bathroom; A control unit which receives a signal from the water level sensor and automatically controls whether the rainwater on / off valve and the water supply valve are operated; It is characterized by including the.

In the present invention, it is preferable that the rainwater storage body includes a rainwater overflow pipe that can naturally flow out when the collected rainwater exceeds the limit storage capacity of the rainwater storage body.

According to the method of using the rainwater storage device of the building according to the present invention, there is an advantage that the rainwater of the initial rain is relatively low, which can collect rainwater of good quality by a simple treatment device. In the conventional case, since the rainwater flowing from the roadside was stored and thus, contamination by fallen leaves or fine dust could not be avoided, but the present invention collects from the upper part of the building, thereby preventing the inflow of such contaminants.

In addition, the present invention is actively utilizing the dead space existing in the interior of the building as an effective space, there is an advantage that greatly expanded the efficiency of the utilization space of the building itself. This is a conventional method, there was a difficulty in securing a site to install a rainwater storage tank by newly securing a separate space on the ground or underground, it means that the present invention can overcome this difficulty.

In addition, the present invention can supply the stored rain water by the potential energy through the piping to the end use without power, it is possible to save the electrical energy required to operate a power source such as a pump, thereby CO ₂ There is also an advantage to realize the image of low-carbon buildings through reduction. In the case of the prior art, since the multiple pipes according to the rainwater inflow and rainwater source supply must be installed and power is needed for the rainwater supply, the increase in construction cost and maintenance cost are required. And since rainwater can be supplied by non-power, it is possible to promote green rainwater management facilities due to low carbon and green growth.

1 is a schematic view of the rainwater storage device of a building according to the present invention,
2 is a first preferred embodiment of the rainwater storage device of a building according to the present invention,
3 is a second preferred embodiment of the rainwater storage device of a building according to the present invention,
4 is a third preferred embodiment of the rainwater storage device of a building according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings are only intended to describe the technical spirit of the present invention in more detail, the technical spirit of the present invention is not limited thereto, and various modifications are possible in advance.

The present invention includes a rainwater storage body 110 is installed on the top of the building. The rainwater storage body 110 means a sealed container having rainwater that can be received and stored on the top of a building or the roof of a building, and has an opening.

The rainwater storage body 110 is installed in the spaced portion existing in the upper portion of the building. The dead space is the space existing inside the building, and it is an empty space with no special use. These dead spaces are located at the top of the building, and are located just below the roof.

In addition, the rainwater storage body 110 is installed between the pillars of the building, and is installed to provide an equal load to the building. The main pillar of a building is a structure supporting the building, and a steel pillar structure that receives the load from the top to the bottom of the building. When the rainwater storage body 110 is installed between such pillars, the rainwater filled in the same maintains the same level of water, so that the same load is evenly applied through all planes. This installs the rainwater storage body 110 in the space of the building, but can be installed at a wide but not high height, and in such a case, it is even and uniform, without biasing the excessive load on a specific part of the building. This means that the load will be distributed.

In FIG. 2, the rainwater storage body 110 is illustrated as being located in one direction of the building, but since this is an example of a building in which the toilet is located between the main pillars, it will not be interpreted as a bias of the load. Of course, in this case, in the case of the dead space up to the opposite side, of course, the rainwater storage body 110 can be expanded to install. In FIG. 4, the rainwater storage body 110 extends beyond the main pillar installed in the center of the building to the entire building.

In the present invention, by installing the rain water storage body 110 between the pillars, to achieve an even load of the building, can be greatly contrasted with the case of the conventional rooftop water storage tank as follows. The reason is that in the case of the conventional rooftop water storage tank, by installing the storage tank on any one of the roofs of the building, the excessive load on the specific part is biased, and in order to install the storage tank, It could only be installed on open spaces and, moreover, a fairly high space would have to be secured, as opposed to having to be installed on top of the roof rather than the bottom of the roof. As a result, the conventional rooftop water storage tank does not utilize the space of the building and does not provide an even load of the building, and furthermore, a separate pump should be used to store water in the rooftop water storage tank. It is completely different from the no-power operation system. In addition, the conventional rooftop water storage tank basically stores the tap water, the tap water must go through a number of water purification process, it must be supplied through the piping system installed from the water purification plant to the place of use, in the process of putting a lot of energy In contrast to the results obtained, the present invention can be said to be completely different in that the artificial elements store natural rainwater without any intervention.

In addition, the rainwater storage body 110 is sufficient as long as it is a sealed structure capable of storing rainwater falling on the roof in a natural state, and is not particularly limited in shape. In addition, it does not impose any limitation on the material, and may be formed of a cement material, FRP material, or plastic material.

In addition, the rainwater storage body 110 includes a sensor (S) for measuring the water level of the rainwater present in the sealed container. The water level measuring sensor (S) measures the water level or the stored amount of rainwater contained in the rainwater storage body 110, and sends it to the control unit (C). In more detail, when rainwater enters the rainwater storage body 110, the water level measurement sensor S sends a signal regarding rainwater availability to the controller C. On the other hand, when the rain water contained in the rainwater storage body 110 by the user using the rainwater in the toilet to achieve a minimum setting amount, the water level measurement sensor (S) is the minimum setting amount to the control unit (C) Send a signal about.

Since the rainwater storage body 110 is installed at the top of the building, the present invention does not include falling leaves or birds droppings from the street, and thus has the advantage of collecting relatively clean and clear rainwater.

The present invention includes a rainwater inlet 120 that functions as a passage for flowing rainwater collected from the top of the building (roof) into the interior of the rainwater storage body 110.

The rainwater inlet 120 is rainwater from the sky should be collected from the top of the building to flow into the rainwater storage body 110, it is preferably located above the rainwater storage body (110).

The rainwater inlet 120 is preferably provided with a screen net (not shown) to remove foreign matter that may be included in the rainwater.

The present invention includes a rainwater outlet 130 that functions as a passage through which rainwater stored in the rainwater storage body 110 can flow to the outside.

Since the rainwater outlet 130 has to be able to naturally flow out of the rainwater stored in the rainwater storage body 110, it is preferable to be installed in the lower portion of the rainwater storage body (110).

The present invention includes a rainwater outlet pipe (140) coupled to the rainwater outlet (130) and having a rainwater open / close valve ( _Vh ) for opening or blocking rainwater flowing through the rainwater outlet (130). .

Rainwater opening and closing valve (V _h ) of the rainwater outlet pipe 140 is to open or block the rainwater flowing through the rainwater outlet 130. It is preferable that the operation of the rain water closing valve (V _h ) is automatically controlled through the control unit (C). Specific matters regarding the automatic control of the rainwater on-off valve V _h will be described in the following control unit (C).

The rainwater outlet pipe 140 is coupled to the rainwater outlet pipe 130 and includes a main pipe 142 connected from the top floor of the building to the first floor of the building. The main pipe 142 is connected from the upper floor to the first floor through the pipe passage of the building or the outside of the building. The main pipe 142 is connected to the interlayer pipe 144 branching therefrom for each floor of the building. The interlayer pipe 144 is installed into a toilet belonging to the final rainwater use of the building. The interlayer pipe 144 is connected to the water use facility 150 installed in the bathroom. The water use facility 150 of the toilet means a urinal, a toilet, a wash basin, or a toilet cleaning tool washing table generally installed in a toilet. Since the main object of the present invention is to be useful in the interior of the building without flowing rain water falling naturally, it is to utilize this in the bathroom. The interlayer pipe 144 is appropriately connected to the water use facility 150 according to the purpose of the building, which is more specifically selected from the urinal, toilet, wash basin, or toilet cleaning tool washing table of the toilet. One or more than one can be used in connection.

On the other hand, the rainwater outlet pipe 140 is connected to the interior of the toilet located on the first floor of the building, the end thereof may be connected to the storm water storage facility 200 installed in the basement of the building if necessary.

The present invention is represented by the reference floor n to describe each floor of the building inclusive. For example, if the building has 10 floors, n = 10 can be specified, and the accompanying floors are in the order of n-1 = 9 floors, n-2 = 8 floors, n-3 = 7 floors, ... It can be expressed as. Usually n is larger than 2, but 20 or less are preferable. This is because, in the case of a high-rise building having more than 20 floors, it is considered that the present invention does not need to be applied to more buildings because the building itself has a large load.

The present invention receives a signal from the water level sensor (S), according to the control unit (C) for automatically controlling the operation of the rain water opening and closing valve (V _h ) and the water supply supply valve (V); It includes.

The control unit C sends an open command or a close command of the rainwater open / close valve V _h and the water supply supply valve V according to a specific signal sent from the water level measurement sensor S.

The rainwater opening and closing valve (V _h ) is to be opened or closed by a signal from the control unit (C). The rainwater on-off valve (V _h ) is controlled by a signal sent from the control unit (C), which is preferably configured to operate opposite to the on-off valve (V) of the water pipe supplied from the outside to the interior of the building. This is because the method of utilizing the rain water free fall of the water according to the present invention, it is completely different from the method using the pump as in the prior art, and also the method according to the present invention is the same as in the prior art only if the rain water is not available This is to allow the use of existing water pipes.

For example, when the rainwater is filled in the rainwater storage body 110, the water level measurement sensor (S) sends a rainwater available signal to the controller (C). The control unit C receives the signal and sends a command signal to open the rainwater open / close valve V _h , while opening the rainwater open / close valve V _h , while the water supply supply valve V is opened. ), The closure order is cut off the supply of tap water. In this case, in the bathroom on each floor of the building, when the user uses a urinal, the rainwater stored in the rainwater storage body 110 is used for the urinal, and when the other user uses the toilet, the toilet Again, the rainwater stored in the rainwater storage body 110 is to be used.

However, when the users almost use the rainwater stored in the rainwater storage body 110 over several days to months, and reaches the minimum set amount in the rainwater storage body 110, the water level measurement sensor (S) is The control unit C of sends a signal regarding the minimum set amount. In this case, the control section (C) of the received forward the signal to send a command signal to close the rain water on-off valve (V _h),, the water supplied to the other hand to close the rain water on-off valve (V _h) of the For the valve (V), an open command is issued to resume supply of tap water. In this case, in a bathroom on each floor of a building, when a user uses a urinal, the tap water supplied from the water supply pipe in its original form is used for the urinal. In addition, when another user uses a toilet, the tap water supplied from the water pipe is also used for the toilet.

In the present invention, it is preferable that the rainwater storage body 110 includes a rainwater overflow pipe 132 that can naturally flow to the outside when the collected rainwater exceeds the limit storage capacity of the rainwater storage body.

When the rainwater overflow pipe 132 is installed in the rainwater storage main body 110, when there is a concern that a large amount of rain falls at a time, such as during the rainy season, the rainwater storage body 110 may exceed the limit capacity. Rain water will flow out of the storage body (110). The rainwater will flow into the storm water storage facility 200 installed in the basement of the building, or will be discharged to the outside. The overflow pipe 132 may be joined to the rainwater outlet pipe 140.

The present invention thus constructed can be used in the following manner.

First, when the rainwater collected from the roof of the building flows into the rainwater storage body 110, the rainwater gradually rises in the interior thereof, and when the maximum limit amount is reached, the surplus exceeding the limit amount exceeds the above month. The overflow pipe 132 overflows and is discharged to the outside.

In the state where the rainwater stored in the rainwater storage body 110 is filled therein, the water level measurement sensor S sends a rainwater available signal to the controller C, and the controller C While opening the rainwater closing valve (V _h ), while closing the water supply valve (V). In this state, when the user uses the water use facility 150 of the toilet, the rain water stored in the rain water storage body 110 is naturally supplied to the water use facility 150 by the principle of free fall, and completely powerless It is possible to use the required water. This means that it has the advantage of being able to operate without power, plus another advantage of being able to use rainwater, which is supplied indefinitely without the use of expensive tap water.

On the other hand, when the users inside the building is almost using the rainwater in the rainwater storage body 110, the water level measurement sensor (S) sends a minimum limit amount signal to the control unit (C). The control unit C closes the rainwater on / off valve V _h , while opening the water supply valve V again. In this state, when the user uses the water use facility 150 of the toilet, the rain water stored in the rain water storage body 110 is blocked and reduced to its original state, so that the required water is supplied from the water pipe. will be.

Therefore, when the present invention is applied to a new construction or an existing building, when a sufficient amount of rainwater is stored in the rainwater storage body 110, the stored rainwater is used, but if the rainwater storage When there is not enough rainwater or rainwater inside the main body 110, since the existing water supply system is automatically used as it is, there is no room for any failure or inconvenience. At the same time, high-quality rainwater with little pollution can be used for toilet use, so that one side can realize the advantages of material saving, which saves tap water, and the other side can operate with no power, so it can show the advantages of energy saving at the same time. There are advantages.

Rainwater storm storage device according to the present invention can be applied to various types of buildings. This means that it can be applied not only to a newly constructed building but also to an already constructed building.

Figure 2 is a first embodiment of the rainwater storage device of the building according to the present invention, showing a case applied to the flat slab building,

Figure 3 is a second embodiment of the rainwater storage device of the building according to the present invention, showing a case applied to the two-sided inclined roof type building,

Figure 4 is a third embodiment of the rainwater storage device of the building according to the present invention, shows a case applied to a flat inclined roof type building.

As shown in the case applied to each of the above buildings, the present invention is to install the rainwater reservoir main body 110 in the empty space of the top of the building, and the lower floor to supply rainwater using the principle of free-fall, There is no need to use a pump as in the prior art. In addition, when all the rainwater stored in the rainwater storage body 110 is used, since it can be operated using a water pipe as in the prior art, there is no reason to cause inconvenience.

In addition, the rainwater collected from the top of the building has a characteristic of less pollution than rainwater flowing from rainwater manholes, etc. buried in the roadside, by switching to a water collecting system according to the present invention, there will be an advantage that can obtain a good quality rainwater. . In this regard, the present invention also has the advantage that can utilize good quality rainwater. This also has the advantage of increasing the efficiency of water supply replacement.

In addition, in the present invention, since the rainwater storage body 110 is located at the top of the building, the stored rainwater can be supplied to the place of use without power, and can be supplied by using the potential energy due to the non-power, thereby reducing the power cost by the non-power. And rainwater management facilities have the advantage of simplifying, resulting in CO ₂ There is also an advantage in that it can provide a green technology of low carbon green growth can be reduced.

In addition, the present invention has the advantage that it can appropriately utilize the idle space of the building. For example, in the case of school buildings (reinforced steel, reinforced concrete structures), there are many effective spaces (1 ~ 2m in height and wide horizontal length) in the ceiling between the catchment surface and the lower floor. Will be installed. This is very efficient in terms of utilization of the idle space of the building.

In addition, the present invention is not an exclusive method that completely excludes the conventional method, but may be referred to as a synergy utilization method that uses the conventional method as it is. This can be installed in the basement of the water supply reservoir, and booster pumping in parallel with the bottom-up piping. In fact, it should be recognized that the accompanying drawings 2 to 4 apply this parallel method. Therefore, the present invention is a preferred embodiment, the rainwater storage tank is installed in the upper portion of the building, the water storage tank is to be installed in the basement respectively.

In addition, when the rainwater overflows, such as during the rainy season, exceeds the maximum allowable capacity of the rainwater storage body 110, it can be discharged to the outside through the rainwater overflow pipe 132, the rainwater infiltration facilities, landscaping water, hydrophilic By treating with water, etc., we can provide rainwater management facilities using low cost, low carbon green technology.

Although the rainwater storage device and its use method according to the present invention have been described in detail above, this is only for describing the most preferred embodiment of the present invention, and the present invention is not limited thereto, and according to the appended claims. Range is determined and defined.

In addition, anyone of ordinary skill in the art will be able to make various modifications and imitations by the description of the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

110: rainwater storage body, 120: rainwater inlet,
130: rainwater outlet, 132: rainwater overflow pipe,
140: rainwater outflow pipe, 142: main pipe,
144: interlayer piping, C: central control,
S: Water level sensor, V _h : Rain valve

Claims (3)

It is installed in the spaced part of the building which is located in the upper part of the building, and it is installed between the main pillars of the building so as to provide an equal load to the building, and it is a sealed type that can receive and store the rain water dropped on the roof of the building. A rainwater storage body 110 formed of a container and including a sensor S for measuring a level of rainwater present in the sealed container;
Rainwater flows in the rainwater collected from the roof of the building flows in, the rainwater inlet 120 is located on the upper portion of the rainwater storage body 110;
A rainwater outlet 130 located at a lower portion of the rainwater storage body 110 as a passage through which rainwater stored in the rainwater storage body 110 flows outward;
It is coupled to the rainwater outlet 130, and has a rainwater opening and closing valve (V _h ) for opening or blocking the rainwater flowing through the rainwater outlet 130, from the top floor of the building to the first floor of the building A rainwater outlet pipe 140 including an interlayer pipe 144 connected to the main pipe 142 and branched from the main pipe 142 to supply rainwater to the water use facility 150 installed in the bathroom of the building;
A control unit (C) which receives a signal from the water level measurement sensor (S) and automatically controls whether the rainwater open / close valve (V _h ) and the tap water supply valve (V) operate accordingly; Rainwater storage device of a building, characterized in that it comprises a.
The method of claim 1,
The rainwater storage body 110 includes a rainwater overflow pipe 132 that can naturally flow to the outside when the collected rainwater exceeds the limit storage capacity of the rainwater storage body,
The interlayer pipe 144 of the rainwater outlet pipe 140 may be any one or two or more selected from among a urinal, a toilet, a wash basin, or a cleaning device for cleaning toilets installed in a bathroom. Rainwater Storage.
When rainwater is stored in the rainwater storage body 110 located at the top of the building, the water level measurement sensor S sends a signal to the control unit C, and the control unit C opens the rainwater opening / closing valve V _h . By doing so, the user can use the rainwater stored in the rainwater storage body 110 through the water use facilities of the toilet,
When the user has rainwater having a minimum set amount in the rainwater storage body 110 by using rainwater through the water use facility of the toilet, the water level measurement sensor S generates a minimum limit set amount signal and generates a control unit ( C), and the control unit (C) closes the rainwater on / off valve (V _h ) and opens the tap water supply valve (v) for supplying tap water from the outside, so that tap water is used from the tap water pipe. Method of using rainwater storage device of the building.

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