KR102485815B1 - Non-powered rainwater filtration system - Google Patents

Abstract

The present invention relates to a non-powered rainwater filtration system, in which various foreign substances included in rainwater flowing in during rainy weather are filtered by a filter unit provided in a filter housing, some are discharged to a rainwater discharge pipe, and the remaining part is guided to a rainwater storage tank, and the rainwater storage tank The primary filtered rainwater guided is filtered again through an intermediate filtration device composed of a carbon filter and a resin filter additionally installed in the storage guide pipe, and then moved to the rainwater storage tank, effectively increasing the purification efficiency by filtering the rainwater twice. The maintenance cost is significantly reduced by increasing the water level and purifying the rainwater without power, and since the filter system does not include electronic devices, there is no need for frequent maintenance due to corrosion or damage. A sealing trap is provided to block pests, bugs or harmful microorganisms generated in the rainwater storage tank from entering the make-up water supply pipe, and a water supply selective discharge unit is provided in the rainwater storage tank to discharge the filled rainwater selectively depending on the location. This improves usability.

Description

Non-powered rainwater filtration system { Non-powered rainwater filtration system }

The present invention relates to a non-powered rainwater filtration system, and more particularly, to filter various foreign substances included in rainwater flowing in during rain with a filter unit provided in a filter housing, to discharge some of them to a rainwater discharge pipe, and to guide the remaining part to a rainwater storage tank. , The primary filtered rainwater guided to the rainwater storage tank is filtered again through an intermediate filtration device composed of a carbon filter and a resin filter additionally installed in the storage guide pipe, and then moved to the rainwater storage tank, thereby doubly filtering the rainwater Maintenance costs are drastically reduced by effectively increasing the purification efficiency and purifying rainwater without power, and as the filtration system does not include electronic devices, there is no need for frequent maintenance due to corrosion or damage. A sealed water trap is provided in the supplementary water supply pipe to block pests, bugs or harmful microorganisms generated in the rainwater reservoir from entering the supplementary water supply pipe, and a water selective discharge unit is provided in the rainwater reservoir to selectively fill the water according to the location. It relates to a non-powered rainwater filtration system that improves utilization by discharging rainwater.

In recent years, water shortage is being carefully predicted in Korea, and alternatives for securing and utilizing water more effectively are emerging as a very important issue.

As the pollution of water sources accelerates, the government designates and manages water source protection areas for the purpose of protecting water sources, and in order to preemptively respond to climate change and future water shortages, eco-friendly water resources that reuse water once used, that is, rainwater, In order to systematically support the promotion of reuse of sewage (sewage that is below the predetermined standard pollution level, eg, washbasin sewage, etc.), detailed guidelines for establishing a water reuse management plan and laws for promoting and supporting water reuse have been enacted and implemented.

In addition, the government enacted the Water Management Technology Development and Water Industry Promotion Act to reduce dependence on limited water resources and use them efficiently, introducing a resource energy device that reuses discarded water (domestic sewage, etc.) for green growth. is leading the practice. In other words, in order to promote the use of rainwater, rainwater utilization facilities are installed and operated when building sports complexes, gymnasiums, public offices, general buildings, etc., and it is recommended to reprocess domestic sewage and reuse it as various types of water.

However, in the case of Korea, it is never easy to efficiently collect rainwater because the four seasons are distinct and rainy weather is concentrated in summer. In addition, since an efficient structure for a rainwater filtration device for recycling rainwater has not been proposed, the reuse efficiency of rainwater or domestic sewage is very low.

As a conventional method for solving this problem, in preparation for water shortage in the dry season, a storage tank for storing rainwater is installed in schools, public facilities, and homes, and initial precipitation drainage is performed to improve the water quality of the rainwater stored in the storage tank. Rainwater is stored by installing a device, sediment discharge device, filtering device, and chlorine sterilization device, and the stored water is used as landscaping water or washing water.

However, since the above conventional rainwater filtration system uses the rainwater stored in the rainwater storage tank through the horizontal gutter and the vertical downfall pipe through the water collection surface without any special treatment facilities, it is easily caused by sediment deposition in the storage tank, generation and growth of microorganisms. Due to water pollution and clogging of each pipe, it was difficult to manage efficiently, so there were many problems for consumers to use clean rainwater. For this reason, there is an urgent need for a rainwater filtration device capable of easily excluding a large amount of foreign substances contained in the initial rainwater in rainy weather and using it for other purposes by simply purifying the rainwater.

However, the conventional filtration system consists of a plurality of control devices and sensors that control the flow and purification of rainwater flowing into the rainwater pipe, and a lot of power is required to receive signals from the sensors and drive the control device, resulting in increased maintenance costs. There is a problem of doing, and the electronic devices built into the control device and the sensor are easily corroded or damaged by moisture, so that the troublesome problem of frequent maintenance remains.

In addition, there is a problem in that the rainwater stored in the storage tank and foreign substances contained in the rainwater decay, and pests, insects, or microbial harmful bacteria are leaked to the outside while flowing backward through a pipe connected to the rainwater storage tank, causing discomfort to the user. Since there is no function to selectively discharge, the problem of low utilization remains.

Registered Patent No. 1703337

The present invention has been made to solve the above conventional problems, and an object of the present invention is to filter various foreign substances contained in rainwater flowing in during rain with a filter unit provided in a filter housing, some of which are discharged to a rainwater discharge pipe, and the other part is guided to the rainwater storage tank, and the primary filtered rainwater guided to the rainwater storage tank is filtered again through an intermediate filtration device composed of a carbon filter and a resin filter additionally installed in the storage guide pipe, and then moved to the rainwater storage tank. , By filtering rainwater in a double layer, the purification efficiency is effectively increased, and maintenance costs are significantly reduced by purifying rainwater without power. Its purpose is to provide

In addition, a make-up water supply pipe is provided in the rainwater storage tank and a water seal trap is provided in the make-up water supply pipe to prevent pests, insects or microbial harmful bacteria generated in the rainwater storage tank from entering the make-up water supply pipe, and supplying water to the rainwater storage tank Its purpose is to provide a non-powered rainwater filtration system that improves utilization by providing a selective discharge unit and discharging selectively filled rainwater according to the location.

A non-powered rainwater filtration system according to an embodiment of the present invention includes a rainwater filtering device for filtering rainwater introduced during rain; a rainwater storage tank for receiving and filling the rainwater filtered by the rainwater filtering device; a water supply sorting and discharging unit provided in the rainwater storage tank and discharging the rainwater filled therein to the outside; And it is characterized in that it consists of a make-up water supply pipe provided in the rainwater storage tank.

In addition, the rainwater filtering device has a rainwater inlet through which rainwater flows in when it rains, a rainwater discharge port through which the rainwater from which foreign matter is removed is discharged to a rainwater discharge pipe, and a filtration through which the rainwater is moved to a rainwater storage tank. A housing and a filter unit disposed inside the filtering housing to remove foreign matter from rainwater flowing into the rainwater inlet, wherein the filtering housing is formed in a cylindrical shape and installed in a vertical direction, and the storage outlet comprises the It is formed on one side of the filtering housing, the rainwater outlet is formed on the lower part of the filtering housing, and the filter unit is disposed inside the filtering housing to primarily remove foreign substances from rainwater introduced from the rainwater inlet. Includes a perforated mesh casing, a spacing bracket fitted while surrounding the inner perforated mesh casing, and an outer perforated mesh casing disposed while surrounding the inner perforated mesh casing and the spacing bracket to secondarily remove foreign substances from rainwater penetrating the inner perforated mesh casing It is characterized by doing.

In addition, the make-up water supply pipe is characterized in that a seal trap is further formed to prevent pests, insects or harmful microorganisms generated from the rainwater filled in the rainwater storage tank from flowing back into the make-up water supply pipe.

In addition, the system includes a storage guide pipe connected between the filter housing and the rainwater storage tank to move the rainwater filtered by the filter unit to the rainwater storage tank, and a storage guide pipe connected between the storage outlet and the rainwater storage tank. An intermediate filtration device formed at one side of the filter unit for secondary filtration of rainwater filtered primarily by the filter unit and provided to the rainwater storage tank, and a secondary filtration device located between the intermediate filtration device and the rainwater storage tank for secondary filtration in the intermediate filtration device It is characterized in that it further comprises a storage valve that allows the rainwater to be moved to the rainwater storage tank.

In addition, the intermediate filtering device is formed in a cylindrical shape hollowed out and installed in a vertical direction, and an intermediate rainwater inlet is formed at an upper portion connected to a storage guide pipe extending from the storage outlet to allow the primary filtered rainwater to flow in, , In the lower part, an intermediate filtration housing having an intermediate rainwater outlet connected to the retention guide pipe extending from the rainwater reservoir and discharging secondary filtered rainwater to the rainwater reservoir, and disposed inside the intermediate filtration housing, the intermediate rainwater inlet It is characterized in that it includes a carbon filter for filtering harmful substances from rainwater flowing into the filter housing, and a resin filter disposed below the carbon filter on the intermediate filter housing to filter microorganisms from rainwater that has passed through the carbon filter.

In addition, the water supply selective discharge unit is disposed under the rainwater storage tank, and a firefighting water discharge pipe for discharging rainwater located on the lower side inside the rainwater storage tank to the outside as firefighting water, and is installed in the rainwater storage tank and is installed on the upper side of the firefighting water discharge pipe It is arranged in, and consists of a utilization water discharge pipe for discharging the filled rainwater to the outside, characterized in that the rainwater filled in the rainwater storage tank is selectively discharged according to the location.

In addition, a perforated net is installed at an end of the firefighting water discharge pipe disposed inside the rainwater reservoir, and the perforated net is in the process of moving rainwater located on the lower side inside the rainwater reservoir through the firefighting water discharge pipe. It is characterized in that to prevent the foreign matter deposited on the bottom of the entrainment into the fire fighting water discharge pipe.

In addition, the rainwater storage tank includes a plurality of partition walls formed at regular intervals to divide the space of the rainwater storage tank therein, and each partition wall starts from one side of the rainwater storage tank and exceeds a central point of the rainwater storage tank. It is formed by extending, characterized in that it is arranged to stagger each other.

The purpose of the non-powered rainwater filtration system of the present invention is to filter various foreign substances contained in rainwater flowing in during rain with a filter unit provided in a filter housing, discharge some of them to a rainwater discharge pipe, and guide the remaining part to a rainwater storage tank, The primary filtered rainwater guided to the rainwater is filtered again through an intermediate filtration device composed of a carbon filter and a resin filter additionally installed in the storage guide pipe and then moved to the rainwater storage tank, thereby increasing the purification efficiency by double filtering the rainwater. Maintenance costs are drastically reduced by effectively raising and purifying rainwater without power, and there is no need for frequent maintenance due to corrosion or damage as the filtration system does not include electronic devices.

In addition, a make-up water supply pipe is provided in the rainwater storage tank and a water seal trap is provided in the make-up water supply pipe to prevent pests, insects or microbial harmful bacteria generated in the rainwater storage tank from entering the make-up water supply pipe, and supplying water to the rainwater storage tank By providing a selective discharge unit, there is an effect of improving utilization by selectively discharging filled rainwater according to the location.

1 is a conceptual diagram showing a non-powered rainwater filtration system according to the present invention.
2 is a partially enlarged conceptual view showing a non-powered rainwater filtration system according to the present invention.
3 is a view showing the storage tank of the non-powered rainwater filtration system according to the present invention.
Figure 4 is a view showing the selective discharge of water supply of the storage tank of the non-powered rainwater filtration system according to the present invention.
5 is a perspective view showing a rainwater filtering device of a non-powered rainwater filtering system according to the present invention.
Figure 6 is a partial cutaway view showing the rainwater filtering device of the non-powered rainwater filtering system according to the present invention.
7 is an exploded perspective view showing a rainwater filtration device of a non-powered rainwater filtration system according to the present invention.
8 is a perspective view showing the micro bag filter unit of the non-powered rainwater filtering device according to the present invention.
9 is a view showing a water seal trap of a non-powered rainwater filtration system according to the present invention.
10 is a view showing the sieve of the firefighting water discharge pipe of the non-powered rainwater filtration system according to the present invention.
11 is a cross-sectional view of an intermediate filtration device of a non-powered rainwater filtration system according to the present invention.
12 is a diagram showing the internal structure of the rainwater storage tank of the non-powered rainwater filtration system according to the present invention.
13 is a cross-sectional view of the check valve of the unpowered rainwater filtration system according to the present invention.

Since the description of the present invention is only an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, since the embodiment can be changed in various ways and can have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea.

On the other hand, the meaning of terms described in the present invention should be understood as follows.

Terms such as "first" and "second" are used to distinguish one component from another, and the scope of rights should not be limited by these terms. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element.

It should be understood that when an element is referred to as being “connected” to another element, it may be directly connected to the other element, but other elements may exist in the middle. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that no intervening elements exist. Meanwhile, other expressions describing the relationship between components, such as “between” and “immediately between” or “adjacent to” and “directly adjacent to” should be interpreted similarly.

Expressions in the singular number should be understood to include plural expressions unless the context clearly dictates otherwise, and terms such as “comprise” or “having” refer to an embodied feature, number, step, operation, component, part, or these. It should be understood that it is intended to indicate that a combination exists, and does not preclude the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

In each step, the identification code (eg, a, b, c, etc.) is used for convenience of explanation, and the identification code does not describe the order of each step, and each step clearly follows a specific order in context. Unless otherwise specified, it may occur in a different order than specified. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless defined otherwise. Terms defined in commonly used dictionaries should be interpreted as consistent with meanings in the context of related art, and cannot be interpreted as having ideal or excessively formal meanings unless explicitly defined in the present invention.

1 is a conceptual diagram showing a non-powered rainwater filtration system according to the present invention. 2 is a partially enlarged conceptual view showing a non-powered rainwater filtration system according to the present invention. 3 is a view showing the storage tank of the non-powered rainwater filtration system according to the present invention. Figure 4 is a view showing the selective discharge of water supply of the storage tank of the non-powered rainwater filtration system according to the present invention. 5 is a perspective view showing a rainwater filtering device of a non-powered rainwater filtering system according to the present invention. Figure 6 is a partial cutaway view showing the rainwater filtering device of the non-powered rainwater filtering system according to the present invention. 7 is an exploded perspective view showing a rainwater filtration device of a non-powered rainwater filtration system according to the present invention. 8 is a perspective view showing the micro bag filter unit of the non-powered rainwater filtering device according to the present invention. 9 is a view showing a water seal trap of a non-powered rainwater filtration system according to the present invention. 10 is a view showing the sieve of the firefighting water discharge pipe of the non-powered rainwater filtration system according to the present invention. 11 is a cross-sectional view of an intermediate filtration device of a non-powered rainwater filtration system according to the present invention. 12 is a diagram showing the internal structure of the rainwater storage tank of the non-powered rainwater filtration system according to the present invention. 13 is a cross-sectional view of the check valve of the unpowered rainwater filtration system according to the present invention.

As shown in the drawing, the non-powered rainwater filtration system 10 of the present invention (hereinafter referred to as a rainwater filtration system for convenience of description) is a filtration system designed to filter foreign substances included in rainwater flowing in during rainy weather, and thus such rainwater filtration The system 10 consists of a rainwater filtering device 20, a rainwater storage tank 30, a water selective discharge unit 40, and a make-up water supply pipe 50.

The rainwater filtering device 110 filters foreign substances in rainwater introduced without a separate power, and the rainwater filtering device 110 includes a filtering housing 120 and a filter unit 130.

The filtering housing 120 has a rainwater inlet 121 formed at the top to allow rainwater to flow through the rainwater inlet pipe 137, and a rainwater outlet to discharge the rainwater from which foreign substances are filtered to the rainwater discharge pipe 139 ( 122) is formed, and a storage outlet 123 is formed so that the filtered rainwater is moved to the storage vessel rainwater storage tank through the storage guide pipe 168.

As shown in FIG. 2, the filtering housing 120 has a cylindrical tubular structure erected in a vertical direction with respect to the ground with a hollow inside, and a rainwater inlet 121 through which rainwater flows is formed at the top and at the bottom A rainwater outlet 122 is formed so that rainwater filtered by the filter unit 130 is discharged to the rainwater discharge pipe 139 . A rainwater discharge pipe 139 is connected to the rainwater outlet 122, and the rainwater outlet 122 may be connected to the rainwater outlet 122 by threading a flange pipe, but is not limited thereto.

Meanwhile, as shown in FIG. 3 , the first diameter of the rainwater discharge pipe 139 may be smaller than the second diameter of the rainwater outlet 122 . In this case, the rainwater outlet 122 and the rainwater discharge pipe 139 may be connected through a reducer 177 in which a lower diameter is formed as the first diameter and an upper diameter is formed as the second diameter. However, it is not limited thereto.

The filtering housing 120 has a storage discharge port 123 that guides the filtered rainwater to be stored in a rainwater storage tank (not shown) on the outer surface of the filter housing 120 is formed to communicate with the inside. At this time, the storage outlet 123 is formed on the side portion of the filtering housing 120.

The filtering housing 120 is formed of a metal material, and it is also possible to form a synthetic resin material.

In addition, the filtering housing 120 may be screwed after detachably inserting flange tubes at both ends.

The filter unit 130 is disposed inside the filtering housing 120 to filter foreign substances from rainwater flowing into the rainwater inlet 121 .

The filter unit 130 is disposed inside the filtering housing 120 to receive and filter rainwater flowing from the rainwater inlet 121, while surrounding the inner perforated mesh casing 131 and the inner perforated mesh casing 131. An outer perforated mesh casing 133 disposed while surrounding the fitted spacing bracket 132, the inner perforated mesh casing 131, and the spacing bracket 132 to filter foreign substances from rainwater passing through the inner perforated mesh casing 131 ) is made up of

The spacer bracket 132 is composed of a pair of spacer rings that are force-fitted or screwed into the inner perforated mesh casing 131 and connecting shafts connecting the spacer rings. It is also possible to integrally form the spacing ring and the connecting shafts.

The outer perforated mesh casing 133 is tightly fitted while surrounding the spacer bracket 132, and a filtering space is formed between the inner perforated mesh casing 131 and the outer perforated mesh casing 133 by the spacer bracket 132. will make

The inner perforated network casing 131 and the outer perforated network casing 133 have a structure in which a plurality of water passage holes are formed and one end is open. The inner perforated network casing 131 and the outer perforated network casing 133 are formed as metal perforated network casings or mesh structures.

At this time, fixing rings 134 are fitted and fixed on both sides of the filter housing 120, and the outer perforated mesh casing 133 is fitted to connect the fixing rings 134, and the outer perforated mesh casing 133 ) is fixed.

In addition, the inner diameter of the water hole of the inner perforated mesh casing 131 is smaller than the inner diameter of the water hole of the outer perforated mesh casing 133.

In addition, an inspection window 175 for checking states of the inner perforated mesh casing and the outer perforated mesh casing may be formed on the other side of the filtering housing 110 .

This inspection window 175 is formed at a position relatively higher on the filter housing with respect to the ground than the first position where the storage discharge port 123 is formed on the filter housing, so that the inner perforated mesh casing 131 of the filter unit 130 ) and the outer perforated mesh casing 133 can be maximized to help the operator accurately determine the maintenance time of the filter unit 130.

Also, as shown in FIG. 13 , a check valve 516 may be formed in the rainwater discharge pipe 139 .

This check valve 516 is formed inside the rainwater discharge pipe 139 and can be opened and closed by rainwater moving through the rainwater discharge pipe 139 . That is, the check valve 516 allows rainwater discharged from the housing 130 to the storm discharge pipe 139 to pass, and blocks sewage from flowing into the housing 130 from the storm discharge pipe 139 to block the rainwater discharge pipe 139. ) prevents sewage from flowing backwards.

In addition, a micro bag filter unit 70 may be additionally installed in the storage guide pipe 168.

This micro-bag filter unit 70 filters foreign substances in the rainwater discharged through the storage outlet 123 once again.

The micro bag filter unit 70 is disposed inside the storage guide pipe 168 detachably fastened to the storage outlet 123 and moves through the storage outlet 123. It consists of a storage filtering unit 72 for filtering rainwater, and the storage filtering unit 72 surrounds the internal filtering net 421 disposed inside the storage guide pipe 168 and the internal filtering net 421. It consists of a micro bag filter 422 arranged while being disposed to filter out foreign substances from rainwater passing through the inner filter net 421, and an external filter net 423 disposed while surrounding the micro bag filter 422.

The inner filter 421, the micro bag filter 422, and the outer filter 423 are formed in the shape of a casing or container having an inlet at one end so that rainwater filtered by the filter unit 130 flows in through the inlet. .

The inner filtering net 421 and the outer filtering net 423 are made of a metal material or a synthetic resin material, and the micro bag filter 422 is made of a synthetic fiber material or a subjack cloth material.

Flanges are integrally formed or attached to one end of the inner filter net 421, the micro bag filter 422, and the outer filter net 423, and the micro bag is formed on the upper side of the flange formed on the outer filter net 423. After placing the flange of the filter 422 to be hooked, it is screwed, and the flange of the inner filter 421 is placed on the upper side of the flange of the micro bag filter 422 to be hooked, and then screwed.

The flange formed on the external filtering net 423 is caught and fixed to the locking jaw formed in the storage outlet 123, and it is also possible to fix it by screwing to the inner surface of the storage outlet 123.

At this time, a filter space is formed between the inner filter net 421, the micro bag filter 422, and the outer filter net 423 so that a predetermined interval is maintained.

The intermediate filtering device 29 is formed at a point on one side of the storage guide pipe connected between the storage outlet and the rainwater storage tank, and secondarily filters rainwater filtered primarily by the filter unit 130 and the micro bag filter unit 70. It is provided to the rainwater storage tank.

The intermediate filtration device 29 may include an intermediate filtration housing 510 and a carbon filter 513 and a resin filter 515 sequentially stacked inside the intermediate filtration housing.

In addition, the intermediate filtering housing 510 is formed in a cylindrical shape with a hollow inside and is installed in a vertical direction, and at the top is connected to a storage guide pipe extending from the storage outlet, and the intermediate rainwater inlet 525 into which the primary filtered rainwater flows. ) Is formed, and an intermediate rainwater discharge port 527 may be formed at the bottom, which is connected to the storage guide pipe extending from the rainwater storage tank and discharges the secondary filtered rainwater to the rainwater storage tank.

The carbon filter 513 is disposed inside the intermediate filtration housing 510 to remove harmful substances (foreign substances, heavy metals such as mercury, lead, etc.) from rainwater flowing into the intermediate rainwater inlet.

The resin filter 515 is disposed below the carbon filter on the intermediate filtration housing to remove microorganisms from rainwater. Such a resin filter may be implemented in a structure in which sterile antibacterial balls are stacked.

The rainwater storage tank 30 receives and fills the rainwater filtered by the rainwater filtering device 20 .

The rainwater storage tank 30 is made of a housing structure provided with a filling space therein, and the material is formed of concrete material or synthetic resin material.

The rainwater storage tank 30 is buried in the ground and filled with rainwater transmitted from the rainwater filtering device 20 .

The rainwater storage tank 30 is pipe-connected to the second filter unit, and the rainwater filtered in the filtering housing 21 is filled and, if necessary, pumped to the outside to use the filled rainwater.

As shown in FIG. 11, the rainwater storage tank 30 may include a plurality of partition walls 610 formed at regular intervals to divide the space of the rainwater storage tank therein.

Each of the partition walls 610 starts from one side of the rainwater storage tank and extends beyond the central point of the rainwater storage tank, and may be staggered with each other. Accordingly, when rainwater is introduced into the rainwater storage tank or rainwater stored in the rainwater storage tank is discharged, a vortex is generated on the bottom surface of the rainwater storage tank to prevent stagnation of rainwater.

The water supply sorting discharge unit 40 is provided in the rainwater storage tank 30 and discharges the rainwater filled therein to the outside.

The water supply selection and discharge unit 40 is disposed below the rainwater storage tank 30, and a firefighting water discharge pipe 41 for discharging rainwater located on the lower side inside the rainwater storage tank 30 to the outside as firefighting water, and the rainwater It is installed in the storage tank 30 and is disposed on the upper side of the firefighting water discharge pipe 41, and consists of a utilization water discharge pipe 42 for discharging the filled rainwater to the outside, and the rainwater filled inside the rainwater storage tank 30 Discharge selectively according to location.

Rainwater discharged through the utilization water discharge pipe 42 can be used to supply water to plants or to wash roads or structures.

In addition, a storage circulation pipe 49 may be formed at an end of the utilization water discharge pipe.

When the rainwater stored in the rainwater storage tank 30 is discharged through the utilization water discharge pipe, the storage circulation pipe 49 simultaneously sucks rainwater located in the middle layer of the rainwater storage tank as well as rainwater located in the lower part of the rainwater storage tank to the utilization water discharge pipe. By discharging it, the rainwater stored in the rainwater storage tank can be purified from the bottom. At this time, when the level of rainwater stored in the rainwater storage tank gradually lowers and air flows in from the horizontal pipe located above the storage circulation pipe 49, the transfer pump located at the rear end of the utilization water discharge pipe stops the pumping operation so that the storage circulation pipe ( 49) can prevent rainwater located in the lower part of the rainwater storage tank from being discharged from the vertical pipe located in the lower part of the rainwater storage tank.

One end of the firefighting water discharge pipe 41 and the utilization water discharge pipe 42 is formed to pass through the side of the rainwater storage tank 30, and is disposed inside the rainwater storage tank 30.

A transfer pump is provided in the firefighting water discharge pipe 41 and the utilization water discharge pipe 42, and the rainwater storage tank 30 is transferred to each of the firefighting water discharge pipe 41 and the utilization water discharge pipe 42 through the driving of the transfer pump. ) to discharge stored rainwater.

At this time, a perforated net 411 is further provided in the fire fighting water discharge pipe 41, so that foreign matter deposited on the inner bottom of the rainwater storage tank 30 moves along the fire fighting water discharge pipe 41, the perforated net 411 to be filtered by

That is, the perforated net 411 is made of, for example, a net of metal or synthetic resin material, and may be detachably fixed to the inside of the fire fighting water discharge pipe 41 by welding or screwing. The perforated net 411 removes foreign substances contained in rainwater moving through the firefighting water discharge pipe 41 and prevents foreign substances deposited in the rainwater storage tank from being discharged through the firefighting water discharge pipe 41.

A firefighting water pump is provided in the firefighting water discharge pipe 41 to pump the filtered rainwater filled in the rainwater storage tank 30.

The make-up water supply pipe 50 is provided in the rainwater storage tank 30 and fills the rainwater storage tank 30 by supplying make-up water when the amount of rainwater filled in the rainwater storage tank is insufficient.

In the make-up water supply pipe, a sealing trap 51 is further formed to prevent pests, insects or harmful microorganisms generated from the rainwater filled in the rainwater storage tank 30 from flowing back through the make-up water supply pipe 50 can

The make-up water supply pipe is disposed inside the rainwater storage tank 30 with an end penetrating the upper portion of the rainwater storage tank 30.

The sealing trap 51 may be integrally formed at the end of the make-up water supply pipe or fixed by welding.

The make-up water supplied from the make-up water supply pipe is moved to the rainwater reservoir through the seal water trap 51, and while the make-up water remains inside the seal water trap, pests, worms, or microorganisms generated in the make-up water reservoir are transmitted to the make-up water supply pipe. prevent backflow.

The sealing trap 51 is disposed outside the rainwater storage tank 30, and it is also possible to arrange it inside. In addition, the sealing trap 51 may be formed in an "S" shape or a zigzag shape, but is not limited thereto.

Although the present invention has been described in detail so far, it is clear that the embodiments mentioned in the process are only illustrative and not limiting, and the present invention is the technical spirit or field of the present invention provided by the claims below. Within the range that does not deviate from, it will be said that component changes to the extent that can be equally coped with fall within the scope of the present invention.

10: Rainwater filtration system
110: rainwater filtering device
120: filtering housing
121: rainwater inlet
122: rainwater outlet
123: undercurrent outlet
130: filter unit
139: rainwater discharge pipe
131: internal perforated mesh casing
132: spacing bracket
133: external perforated network casing
168: storage guide pipe
29: intermediate filtration device
30: rainwater storage tank
40: water supply selection and discharge unit
41: fire water discharge pipe
411: perforated net
42: utilization water discharge pipe
50: make-up water supply pipe
51: sealed trap

Claims (8)

As a powerless rainwater filtration system,
Rainwater filtering device for filtering inflowing rainwater in case of rain;
a rainwater storage tank for receiving and filling the rainwater filtered by the rainwater filtering device;
a water supply sorting and discharging unit provided in the rainwater storage tank and discharging the rainwater filled therein to the outside; and
It consists of a make-up water supply pipe provided in the rainwater storage tank,
The rainwater filtration device,
In case of rain, a rainwater inlet through which rainwater flows in is formed, a rainwater outlet is formed to discharge rainwater from which foreign substances have been removed to a rainwater outfall pipe, and a rainwater outlet is formed to move the rainwater to a rainwater storage tank through a storage guide pipe. A filter housing formed,
It is disposed inside the filter housing and includes a filter unit for removing foreign substances from rainwater flowing into the rainwater inlet,
The filtering housing,
It is formed in a cylindrical shape and installed in a vertical direction,
The storage outlet is formed on one side of the filtering housing,
The rainwater outlet is formed in the lower part of the filtering housing,
The filter part,
An internal perforated mesh casing disposed inside the filter housing to primarily remove foreign substances from rainwater flowing in from the rainwater inlet;
A spacing bracket fitted while surrounding the inner perforated mesh casing;
An outer perforated network casing disposed while surrounding the inner perforated network casing and the spacing bracket to secondarily remove foreign substances of rainwater passing through the inner perforated network casing,
The inner perforated network casing and the outer perforated network casing are formed of a metal perforated network casing in which a plurality of water passages are formed and one end is open,
The inner diameter of the water passage of the inner perforated network casing is formed smaller than the inner diameter of the water passage of the outer perforated network casing,
A check valve opened and closed by rainwater moving through the rainwater discharge pipe is formed inside the rainwater discharge pipe,
The check valve allows rainwater discharged from the filter housing to the rainwater discharge pipe to pass through, and blocks sewage from flowing into the filter housing from the rainwater discharge pipe to prevent sewage from flowing backward through the rainwater discharge pipe,
The storage guide pipe is provided with a storage filter for filtering foreign substances in rainwater discharged from the storage outlet,
The retention filtering unit includes an internal filtering net disposed inside the retention guide pipe, a micro bag filter disposed while surrounding the internal filtering net and filtering foreign matters of rainwater passing through the internal filtering net, and a micro bag filter disposed while wrapping the micro bag filter. Including an external filter network that becomes,
The inner filter net, the micro bag filter, and the outer filter net are formed in the shape of a container having an inlet at one end so that rainwater filtered by the filter unit flows in through the inlet,
A flange is formed and fixed at one end of the inner filter net, the micro bag filter, and the outer filter net, and the flange of the micro bag filter is disposed to be caught on the upper side of the flange formed on the outer filter net, and the flange of the micro bag filter On the upper side, the flange of the inner filter network is disposed to be caught,
The make-up water supply pipe,
A seal trap is further formed to prevent pests, insects or harmful microorganisms generated from the rainwater filled in the rainwater reservoir from flowing back into the make-up water supply pipe,
The system,
An intermediate filtering device formed at one side of the storage guide pipe connected between the storage discharge port and the rainwater storage tank to provide secondary filtration of rainwater primarily filtered by the filter unit and storage filtering unit to the rainwater storage tank;
Further comprising a storage valve positioned between the intermediate filtering device and the rainwater storage tank to allow the secondary filtered rainwater in the intermediate filtering device to be moved to the rainwater storage tank,
The intermediate filtration device,
It is formed in a cylindrical shape with a hollow inside and is installed in a vertical direction, and at the upper part is connected to the storage guide pipe extending from the storage outlet to form a middle rainwater inlet through which the primary filtered rainwater flows in, and at the bottom from the rainwater storage tank. An intermediate filtering housing having an intermediate rainwater outlet connected to the extended retention guide pipe and discharging secondary filtered rainwater into a rainwater storage tank;
A carbon filter disposed inside the intermediate filter housing to filter harmful substances from rainwater flowing into the intermediate rainwater inlet;
The non-powered rainwater filtration system comprising a resin filter disposed below the carbon filter on the intermediate filter housing to filter microorganisms from rainwater that has passed through the carbon filter.
delete delete delete delete According to claim 1,
The water supply selective discharge unit,
A firefighting water discharge pipe disposed below the rainwater storage tank and discharging rainwater located below the inside of the rainwater storage tank to the outside as firefighting water;
It is installed in the rainwater storage tank and is disposed on the upper side of the firefighting water discharge pipe, and consists of a utilization water discharge pipe for discharging the filled rainwater to the outside, characterized in that the rainwater filled inside the rainwater storage tank is selectively discharged according to the location. Non-powered rainwater filtration system.
According to claim 6,
A perforated net is installed at the end of the fire fighting water discharge pipe disposed inside the rainwater storage tank,
The perforated net is non-powered, characterized in that for preventing foreign matter deposited on the bottom of the rainwater storage tank from entering the firefighting water discharge pipe in the process of moving the rainwater located on the lower side inside the rainwater reservoir through the firefighting water discharge pipe. Rainwater filtration system.
According to claim 7,
The rainwater storage tank,
It includes a plurality of partition walls formed at regular intervals to divide the space of the rainwater storage tank therein,
Each bulkhead is non-powered rainwater filtration system, characterized in that, starting from one side of the rainwater storage tank and extending beyond the central point of the rainwater storage tank, they are arranged staggered with each other.

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