KR102112839B1 - Debris Barrier System of Firefighting water production function for prevention of forest fires - Google Patents

Abstract

The present invention relates to a debris barrier system having a firefighting water production function for preventing forest fires and, more specifically, to a debris barrier system having a firefighting water production function for preventing forest fires, which has a concrete water collection beam, which is a structure such as a debris barrier, formed in a place where valley water, rainwater, or livestock wastewater and mine wastewater flow, has a barrier sheet formed on the bottom thereof, has various filtering materials such as sand, gravel, waste shells, and alkaline crushed stone, which are water quality purifying materials, laid on an upper end thereof, and has irises, wormwood, and poplar trees, which are purifying plants, planted on the filtering materials to maintain the porosity of the sand and the gravel, so that the rainwater, the valley water, or the mine wastewater is filtered and stored, moved to a large tank through a water pipe, and stored therein, and that pollutants accumulated in an intake device or a storage tank are cleaned by using an air spray cleaning device, thereby preventing separate maintenance costs, provides the stored water as agricultural water and forest fire water, thereby supplying the same to farmland as the agricultural water in drought, and has forest fire prevention sprinklers installed on mountains around a village to spray firefighting water when a dry warning occurs in winter or spring to prevent spread of forest fires.

Description

Debris Barrier System of Firefighting water production function for prevention of forest fires}

The present invention relates to a four-way dam having a function of producing fireproof water for forest fire prevention, and more specifically, to collect water or collect water from a four-way dam installed in a valley to supply water stored through a filtration process to forest fire water and agricultural life water. At the time of constructing a four-way dam, a concrete four-sided collecting beam is formed, a water-repellent sheet is formed at the bottom, and various filtration materials such as sand, gravel, waste shell, and alkaline crushed water, which are water-purifying materials, are laid on the top, and irises and wormwood are purified plants on it. , Planting poplar trees and maintaining the porosity of sand gravel to filter and store rainwater or valley water or mine wastewater, move and store it in a large tank through a water pipe, and spray the accumulated pollutants from the intake device or storage tank Since it is cleaned using a cleaning device, there is no extra maintenance cost and the stored water is forest It is provided as fire water that can be used for prevention and fire extinguishing. In drought, it is supplied as agricultural water to paddy fields, and sprinklers are installed to prevent forest fires in the mountains around the village. If dry warning occurs during winter or spring, fire water is sprayed to spray the fire. It relates to a four-way dam system having a function of producing fire water for preventing forest fires by preventing and spreading forest fires.

Generally, a dam in all directions refers to a dam artificially installed in a river with severe loss of earth and sand to prevent it from flowing down the stream. It is mainly installed in a place where gravel gravel movement is severe. It is aimed at stabilizing a ramp, and is mainly constructed of concrete dams, reinforced concrete dams, stone dams, etc., and is completely differentiated from Bomakgi, an agricultural water facility.

Meanwhile, the source of freshwater resources in the earth is largely divided into ice and rain. In Korea, where there is little ice and snow, the only source of water resources is rainwater with an annual average of 276 billion tons. Of these, 545 tons evaporate and disappear, and 731 tons flow into the ground. Of these, 400 tons flow directly into the sea, and only the remaining 31.3 billion tons of water flows into dams, rivers, or underground to be used in our lives. In the end, only 26% of rainwater is used.

However, this 26% of rainwater eventually flows into the sea. However, it is only used by people who stay on the ground. Therefore, in terms of water circulation, it is important how long the rainwater stays on the ground. However, as the impermeable layer of concrete and asphalt increases due to rapid urbanization, the problem is that the 'residence time' of rainwater as well as the 'resident space' of rainwater such as forests and soils is decreasing.

So, as a way to increase the 'resident space' and 'stay time', appropriate rainwater storage facilities are in the spotlight. Currently, there are no adequate rainwater storage facilities in cities and islands, so most of the rainwater flows into the sea.

The rainwater storage facility or the rainwater storage system as described above requires an initial rainwater treatment system. Since foreign matter such as dust and pollen in the air flows in with rainwater, an initial rainwater removal system is required, and then it is better to store the collected rainwater in a concrete storage tank. Reservoir made of plastic storage or iron plate, etc., secondary pollution of organic chemicals, etc., generated in itself occurs. When sunlight penetrates or heat is generated, minerals in rainwater may be damaged and rainwater may deteriorate.

Secondary pollution occurs due to chemicals in the concrete structure in the storage tank concrete storage tank, and a secondary source of contamination should be prevented when rainwater is stored by applying a material that sterilizes the fluorine coating agent that blocks it and the bacteria that may occur during storage.

In addition, it is a method to use rainwater cleanly by constantly checking the water quality in the storage tank and constantly managing the water quality.

As described above, prior arts such as the technical configuration of purifying and storing rainwater on all sides dams to produce fireproof water have a hollow cylindrical shape inside the Korean Utility Model Registration No. 20-0478119, indoor or outdoor. It is installed and is installed in the lower portion of the water tank portion and the water tank portion for storing drinking water or agricultural water, and connected to the inside of the water tank portion, the water discharge portion for supplying drinking water or agricultural water to the outside and the upper center of the water tank portion A water tank that penetrates vertically and is installed on the outside of the opening and closing part to which an operator enters during the internal cleaning and maintenance work of the water tank part, and blocks foreign matter flowing into the inside of the water tank part through the opening and closing part. The cover and the upper portion of the water tank is installed obliquely, and the rain water storage surface where rain water is stored on the upper side and the water tank portion It is formed to protrude a predetermined height in the upper direction on the rim, and is formed vertically through the central portion of the rainwater storage unit and the rainwater storage surface where rainwater is stored, and the rainwater stored in the rainwater storage unit flows into the water tank unit. A rainwater storage facility that is disclosed for a rainwater combined use water tank including a guided rainwater supply hole and is assembled to form a slope by a plurality of blocks in Korean Patent Registration No. 10-1248015, wherein each block Is composed of GMT material, the GMT material has a total of five layers, consisting of two mat layers woven of glass fiber in a non-woven form and three PP layers stacked up and down the mat layer to be impregnated into the mat layer. A prefabricated rainwater storage facility using a GMT material having a sheet shape is disclosed.

However, the above prior arts are simply used for storing rainwater, and there are many disadvantages for purifying and storing rainwater and for use in a place where forest fire prevention or purified water is required.

Accordingly, the present invention is a facility to store and block it because driftwood flowing from soil, stones, and water in a valley flows along with rainwater, and it is necessary to apply it to environmentally friendly water treatment methods by utilizing the above-mentioned dams. Find ways to do it. At this time, using purified plants (such as iris or wormwood or poplar trees) used as environmentally friendly water treatment methods to store and purify rainwater or contaminated water to use as agricultural or household water, or as part of an environmentally friendly water treatment method, It uses vegetation purification facilities with various types of aquatic plants, such as reeds, blue hyacinths, buds, and strings. These vegetation purification facilities are environmentally friendly facilities that can improve the surrounding landscape and serve as ecological habitats, and are preferable to other water purification facilities, and aquatic plants directly absorb or decompose pollutants in rainwater or river water. Is done. In addition, useful microorganisms and plants for soil purification can directly absorb or decompose contaminants such as heavy metals in soil and river water. In addition, to provide forest fire water, sprinklers can be installed in the mountains around the village to prevent forest fires. If dry warning occurs during the dry season, fire water can be sprayed to prevent forest fires. In drought, agricultural water can be supplied to rice fields. .

The present invention has been devised to solve the above problems and to complement existing technologies, rainwater or valley water or livestock using water-repellent facilities such as vinyl to use topographical features when constructing a four-way dam or to reinforce a built-up four-way dam. It is to provide facilities for collecting and filtering wastewater and mine wastewater, primary storage, intake, secondary filtration and storage.

Another object of the present invention is to configure the system to allow the filtering of rainwater or valley water or mine wastewater in the pores of sand and gravel by configuring to maintain the porosity of sand and gravel in connection with the dam structures in all directions without forming a large structure. Provided, the accumulated pollutants in the water intake device or storage tank are cleaned using an air spray cleaning device, thereby providing a four-way dam with a function of producing fireproof water that can maintain its function permanently without additional maintenance costs.

In addition, by using stored water, agricultural water can be supplied to paddy fields in droughts, and sprinklers are installed to prevent forest fires in the mountains around the village to provide forest fire water in the dry season. There is another purpose to prevent forest fires.

The present invention for achieving the above object is to form a sumpbo 110 made of concrete to construct a structure such as a four-way dam in a valley in which rainwater or livestock wastewater and mine wastewater flow, and the rainwater or mine wastewater is stored. A raw water inflow tank 100 is formed on the outside of the water can 110, and 1 to 10 water intake pipes 200 are installed at a lower end of the water flow inlet 100 to conduit located inside the water collecting beam 110. Connected to each of 300, the pipe 300 is connected to the storage tank 400, the water overflowing from the storage tank 400 passes through the outlet pipe 450 to be installed close to the paddy field 600 It is to be supplied to one supply tank (500).

In addition, the raw water inflow tank 100 lays a water intake sheet 102 on the floor and penetrates the water collecting beam 110 to install a water intake pipe 200 at the bottom of the raw water inflow tank 100, and the water intake sheet 102. Filling the filter material 103 using either sand or gravel or waste wood or alkaline crushed stone, planting purified plants 101 using any of irises or wormwood or poplar trees on top of the filter material 103, It is configured by placing a natural stone 104 between the purified plants 101.

In addition, the water intake pipe 200 is configured in the form of a date pipe, a perforated hole 201 is drilled in order to collect raw water at one side of the water intake pipe 200 located at the lower end of the raw water inflow tank 100, and the water intake The other side of the pipe 200 is blocked with a freely open blind flange 203 so that the raw water does not escape, and the pipes 300 are formed above the water intake pipe 200 located inside the water collecting beam 110, respectively. The water intake pipe 200 is all connected to one pipe 300 so that the raw water flows, the inner bottom of the water intake pipe 200 constitutes a rail 202, so that it can move along the rail 202 A cleaner 250 having wheels is formed, and the cleaner 250 is connected and coupled through a compressor 253 located outside the intake pipe 200, a control unit 252, and an air hose 251.

The storage tank 400 is composed of an outermost outer wall 401, an inner wall 402 inside the outer wall 401, and an inner wall 403 inside the middle wall 402, and the inner wall 403. ) Inside the filter tank 418, the bottom is composed of a foundation concrete 430, the outer wall 401 has an upper pipe 451 at the top, and an outer pipe 401 at the bottom of the outlet pipe Forming (450), the conduit (300) passes through the outer wall (401) and the intermediate wall (402) to the inside of the inner wall (403) to the filtration tank (418), the duct leading to the top of the filtration tank (418) At the end of the 300, a distribution tank 410 configured to disperse and drop water is combined, and at the bottom of the distribution tank 410, a primary filtration screen 420 and a secondary filtration screen 421 are provided from the top. And the third filtration screen 422, and the filtration tank 41 to clean the primary filtration screen 420, the secondary filtration screen 421, and the third filtration screen 422. 8) Inside the spiral filter tank rail 460 is formed, and provided with a cleaner 250 that can move along the filter tank rail 460, the cleaning pipe to discharge the movement or sediment of the cleaner 250 ( 440) is connected to the bottom of the filtration tank 418 to lead to the outside, and the bottom outer surface and the bottom surface of the filtration tank 418, the base concrete 430 meets the filter tank hole 419 drilled to allow water to flow out Make up.

In addition, on the interface between the filtration tank 418 and the cleaning pipe 440, an additionally free closing member is formed so that water that has passed through the filtration tank 418 does not flow to the cleaning pipe 440, but at the bottom of the filtration tank 418. It is configured to flow through the formed filter tank hole 419 and be stored inside the inner wall 403.

In addition, a water supply pipe 740 and a fire water supply pipe 750 are installed to supply water stored in the supply tank 500 to the mountain 700 near the village 800 to prevent forest fires and drought prevention. 740) to form a water supply valve 730 to control the water to be supplied so that it can be supplied as agricultural water to the paddy field 600 during drought, and supplying fire water to control the water supplied to the fire water supply pipe 750 A valve 720 is formed, and the sprinkler water supply pipe 750 is spaced a predetermined distance to form a sprinkler 770 so that water supplied through the fire water supply pipe 750 can be sprayed through the sprinkler 770. .

The present invention is a system for producing fire prevention water for prevention of forest fires, and a system for collecting rainwater, valley water, livestock wastewater, and mine wastewater to collect, collect, filter, and store large-scale structures without using large structures or excavating lowland land. Since it can be installed, it is easy to install at low cost, and it includes facilities for collecting, collecting, filtering, and storing valley or rainwater or mine wastewater, and using purified plants, so that valley water or rainwater or mine wastewater can be installed at low cost. It is possible to purify, and the accumulated pollutants in the water intake device or storage tank are cleaned using an air spray cleaning device, so that the function can be maintained permanently without a separate maintenance cost, and water stored in the supply tank is supplied to prevent forest fires. Install a sprinkler so that it can be sprayed with When a fire occurs or a forest fire occurs in a nearby area, sprinklers can be operated to prevent the spread of forest fires to villages, thereby reducing human and property damage. In the event of a drought, the stored water is supplied as agricultural water, which has the effect of helping drought. have.

1 is a conceptual diagram of a four-way dam system with a function of producing fire water for forest fire prevention according to the present invention.
Figure 2 is a cross-sectional view of the water collecting and water intake of the four-way dam system of fire water production function for forest fire prevention according to the present invention.
3 is a cross-sectional view of a water intake pipe of a four-way dam system having a function of producing fire water for forest fire prevention according to the present invention.
4 is a plan view of a storage tank of a four-way dam system having a function of producing fire water for forest fire prevention according to the present invention.
5 is a cross-sectional view of a storage tank of a four-way dam system having a function of producing fire water for forest fire prevention according to the present invention.
6 is an exemplary view of a four-way dam system having a function of producing fire water for forest fire prevention according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, when it is determined that a detailed description of known functions or configurations related to the present invention may unnecessarily obscure the subject matter of the present invention. The detailed description is omitted.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition should be made based on the contents throughout this specification.

1 is a conceptual diagram of a four-way dam system with a function for producing fire water for forest fire prevention, and FIG. 2 is a cross-sectional view of a water collecting and intake unit for a four-way dam system with function for producing fire water for forest fire prevention, and FIG. 3 is a four-way dam with a function for producing fire water for forest fire prevention 4 is a cross-sectional view of the intake pipe of the system, FIG. 4 is a plan view of a storage tank of a four-way dam system having a function of producing fireproof water for forest fire prevention, FIG. 5 is a cross-sectional view of a storage tank of a four-way dam system having a function of producing fireproof water for forest fire prevention, and FIG. Illustrative view of a four-way dam system of fire prevention water production function for prevention, with reference to Figure 1 in detail,

In order to collect water flowing through a valley, such as rainwater, livestock wastewater, and mine wastewater, a sump beam 110 composed of concrete in the form of a structure such as a four-way dam is formed in a valley in which the rainwater or mine wastewater flows, and rainwater or mine wastewater As shown below, the raw water inflow tank 100 is formed outside the sump beam 110 in which the water flowing through the valley is stored, and the lower part of the water in the raw water inflow tank 100 in which the water flowing through the valley is stored, such as rainwater or mine wastewater. In order to send the stored water of the raw water inflow tank 100 through the catchment beam 110 to the inside opposite to the catchment beam 110, 1 to 10 water intake pipes 200 are installed to collect the water collection beam 110 It is connected to each of the conduits 300 located inside.

The 1 to 10 water intake pipes 200 are all formed in the inside of the water collecting beam 100, starting from the raw water inflow tank 100 and passing through the water collecting beam 100 in parallel.

The 1 to 10 intake pipes 200 formed while being parallel to the inside of the water collecting beam 100 as described above are combined while forming a vertical direction with one pipe 300. That is, all the intake pipes 200 formed in parallel overlap the conduit 300 formed in the vertical direction, and the intake pipes 200 and the conduit 300 overlapping in this way are connected.

Therefore, the water stored in the raw water inflow tank 100 is primarily purified water in the raw water inflow tank 100, flows through the water collecting beam 110 through the water intake pipe 200, and the water intake pipe 200 The flowing water is collected in one pipeline 300 and flows again.

The pipeline 300 is connected to the storage tank 400, and the storage tank 400 is supplied to each supply tank 500 installed close to the paddy field 600 through the outlet pipe 450.

The storage tank 400 is stored in a large amount of water and is secondarily purified while passing through a water purification device to have water quality that can be used for living water, agricultural water, industrial water, and the like. Therefore, the storage tank 400 serves as a water source, and serves to supply water to a place where daily water is needed, agricultural water is needed, or industrial water is needed.

In an embodiment, when the supply tank 500 is installed near the paddy field 600 and the supply tank 500 and the storage tank 400 are connected through the outlet pipe 450, the storage tank 400 is stored. Water that can be used as agricultural water is supplied to the supply tank 500 through the outlet pipe 450, and water stored in the supply tank 500 is supplied to the paddy field 600 to be used as agricultural water.

Referring to Figure 2 in detail,

In order to collect water flowing through the valley, such as rainwater or mine wastewater, a sump beam 110 composed of concrete in the form of a structure such as a four-way dam is formed in the valley through which the rainwater or mine wastewater flows, and the valley is formed as rainwater or mine wastewater. It is configured to store the water flowing through the raw water inlet tank 100.

The raw water inflow tank 100 covers the bottom of the water intake sheet 102, wherein the water intake sheet 102 is the water stored in the raw water inflow tank 100 permeates the ground or the underground contaminated water is the raw water inflow tank It is preferable to use either polyethylene (PE) or vinyl or fiber or stainless steel to prevent it from entering the (100).

A water-repellent sheet 102 is formed on the bottom of the raw water inflow tank 100, and a water intake pipe 200 penetrating through the water collecting beam 110 is installed at the bottom of the raw water inflow tank 100, and the water-repellent sheet 102 is formed. Fill the filter medium 103, which is preferable to use either sand or gravel or pulverized or alkaline crushed stone, and a preferred purified plant 101 using any one of iris or wormwood or poplar wood at the top of the filter medium 103 Planting, by placing the natural stone 104 between the purification plant 101 to complete the raw water inlet tank (100).

The water flowing into the raw water inflow tank 100 is first purified by the purified plant 101 and the filter material 103 to flow into the intake pipe 200.

Water flowing into the water intake pipe 200 flows into the pipe 300 which is vertically connected to the water intake pipe 200.

Referring to Figure 3 in detail,

The water intake pipe 200 is configured in the form of a straight tube, and a plurality of perforated holes 201 having external and internal through holes are formed on one circumferential surface of the water intake pipe 200. A blind flange 203 freely opened and closed is formed on the other side.

In addition, a pipe line 300 formed in the vertical direction with the water intake pipe 200 is connected above the water intake pipe 200.

In addition, the inner bottom of the water intake pipe 200 constitutes a rail 202, forms a cleaner 250 having wheels to move along the rail 202, and the cleaner 250 receives the water The compressor 253 located outside the tube 200 is connected to and coupled to the control unit 252 through an air hose 251.

The cleaner 250 moves while moving forward or backward along the rail 202, an air injection nozzle (not shown) and a camera (not shown) are mounted on the front surface, and the compressor 253 is controlled under the control of the control unit 252. ) Can be cleaned by mixing the air and water supplied by) and spraying it through the air injection nozzle.

The control unit 252 can be wired or wirelessly controlled from an external long distance or a short distance, and operating the compressor 253 while looking inside the water intake pipe 200 transmitted through the camera to clean through the air injection nozzle. Can be implemented.

If described in detail with reference to Figures 4 to 5,

The storage tank 400 is composed of an outermost outer wall 401, an inner wall 402 inside the outer wall 401, and an inner wall 403 inside the intermediate wall 402, and the inner wall 403. The inner side of the filtration tank 418, the bottom is composed of a base concrete 430, the outer wall 401, the upper end of the over tube 451, the outer wall 401, the lower end of the outlet pipe ( 450), the conduit 300 passes through the outer wall 401 and the intermediate wall 402 to the inside of the inner wall 403 to the filtration tank 418, and the duct leading to the upper side of the filtration tank 418 ( At the end of 300), a distribution tank 410 configured to disperse and drop water is combined, and at the bottom of the distribution tank 410, a primary filtration screen 420 and a secondary filtration screen 421 are provided from the top. To form a tertiary filtration screen 422, and to clean the primary filtration screen 420, secondary filtration screen 421, and tertiary filtration screen 422, the filtration tank 418 A spiral cleaning filter rail 460 is formed on the side, and a cleaning pipe 440 is provided with a vacuum cleaner 250 that can move along the filter tank rail 460, and discharges movement or sediment of the vacuum cleaner 250. It is connected to the bottom of the filtration tank 418 so as to lead to the outside, and a portion of the bottom surface of the filtration tank 418 that meets the base concrete 430, which is a bottom surface, constitutes a filtration tank hole 419 drilled to allow water to flow out. .

In addition, on the interface between the filtration tank 418 and the cleaning pipe 440, a closed member that is free to open is formed to form water at the bottom of the filtration tank 418 without water passing through the filter tank 418 flowing into the cleaning pipe 440. It flows through one filter tank hole 419 and is stored inside the inner wall 403.

The water flowing along the conduit 300 falls downward from the distribution tank 410 located inside the filtration tank 418, and the primary filtration screens 420 and 2 are used to filter sediment or impurities from the falling water. The water passing through the primary filtration screen 421 and the secondary filtration screen 422 passes through the primary filtration screen 420, the secondary filtration screen 421, and the third filtration screen 422. It does not flow to the cleaning pipe 440, and is poured over the closed cleaning pipe 440 in the normal state and flows along the filter tank hole 419 drilled in the lower outer surface of the filter tank 418 and stored inside the inner wall 403. .

The filter tank rail 460 formed along the inner surface of the filter tank 418 positions the vacuum cleaner 250 configured to move forward or backward along the filter tank rail 460, and the configuration and purpose of the vacuum cleaner 250 are It is the same as the cleaner 250 for cleaning the inside of the water intake pipe 200 described in FIG.

First, the water flowing into the raw water inflow tank 100 is purified by the purified plant 101 and the filter medium 103, passes through the water collecting beam 110 along the water intake pipe 200, moves along the pipeline 300, and is stored. The tank 400 is reached, and falls from the distribution tank 410 located at the end of the conduit 300 toward the top of the filtration tank 418 located at the center of the storage tank 400, and the dropped water is filtered tank 418 ) Passes through the primary filtration screen 420 located at the top, and then passes through the secondary filtration screen 421, and then passes through the tertiary filtration screen 422, and is a cleaning tube closed by a closing member. It is poured over the foundation concrete 430, which is the upper part of the 440, and flows along the perforated filter tank hole 419 of the lower outer surface of the filter tank 418, and water is stored inside the inner wall 403, and inside the inner wall 403 When the water level stored in the water rises and exceeds the inner wall 403, the outside of the inner wall 403 When the water level stored in the intermediate wall 402 rises and exceeds the intermediate wall 402, the outer wall 401 outside the intermediate wall 402 flows to the inside of the intermediate wall 402 ).

As described above, the water flowing into the outer wall 401, the water stored in the intermediate wall 402, and the water stored in the inner wall 403 are used as living water, agricultural water, industrial water, or fire water for forest fire prevention, if necessary. It is possible.

In addition, the water flowing into the outer wall 401 is stored by moving to the supply tank 500 installed near the paddy field 600 through the outlet pipe 450.

Referring to Figure 6 in detail,

As another embodiment using the present invention, a water supply pipe 740 and a fire water supply pipe 750 are installed to supply water stored in the supply tank 500 to the mountain 700 near the village 800 for forest fire prevention. In order to control the water supplied to the water supply pipe 740, a water supply valve 730 is formed so that it can be supplied as agricultural water to the paddy field during drought, and to control the water supplied to the fire water supply pipe 750 A fire prevention water supply valve 720 is formed, and the fire protection water supply pipe 750 is spaced a predetermined distance to form a sprinkler 770 so that water supplied through the fire protection water supply pipe 750 can be sprayed through the sprinkler 770. Make up.

That is, the water stored in the supply tank 500 is formed to extend the fire water supply pipe 750 so that it can be supplied to the boundary between the mountain 700 and the village 800, and the fire water to control the fire water supply pipe 750 A supply valve 720 is formed, and sprinklers 770 are spaced apart by a predetermined distance in the vertical direction of the fire water supply pipe 750, and the supply tanks 500 are supplied from the fire water supply pipe 750 to each sprinkler 770. ) Is configured to be supplied with water, and when a fire occurs in the mountain 700 around the village 800, spraying water from the supply tank 500 through the sprinkler 770 will cause the fire from the mountain 700 to fire. It can prevent or delay the spread to the village 800.

In the present invention, the above embodiment is only an example, and the present invention is not limited thereto. Anything that has substantially the same configuration and the same working effect as the technical idea described in the claims of the present invention is included in the technical scope of the present invention.

100. Raw water inflow tank
101. Purified Plant
102. Order Sheet
103. Filter
104. Natural Stone
110. Sump
200. Water intake pipe
201.Perforated Hall
202. Rail
203.Manflange
250. Cleaner
251.Air hose
252. Control
253. Compressor
300. Pipeline
400. Storage tank
401. External Wall
402. Middle Wall
403. Interior Wall
410. Distribution tank
418. Filtration tank
419. Filter Tank Hall
420. Primary filtration screen
421. Secondary filtration screen
422. 3rd filtration screen
430. Basic Concrete
440. Cleaner
450. Outflow pipe
451. Over tube
460. Filter tank rail
490. Roof
500. Supply tank
600. Rice field
700. Mountain
720. Fire protection water supply valve
730. Water supply valve
740. Water Supply Pipe
750. Fire prevention water supply pipe
770. Sprinkler
800. Village

Claims (6)

Rainwater or livestock wastewater and mine wastewater is formed of a water collecting beam 110 composed of concrete that is a four-way dam structure in a valley, and the raw water inflow tank 100 is provided outside the water collecting beam 110 in which rainwater or mine wastewater is stored. 1 to 10 intake pipes 200 are installed at the lower end of the raw water inflow tank 100 to be connected to the pipes 300 located inside the collecting beam 110, respectively, and the pipes 300 are Connected to the storage tank 400, the water overflowing from the storage tank 400 passes through the outlet pipe 450 and is supplied to the supply tank 500 installed close to the paddy field 600,
The raw water inflow tank 100 lays a water intake sheet 102 on the floor, penetrates the water collecting beam 110 to install a water intake pipe 200 at the bottom of the raw water inflow tank 100, and over the water intake sheet 102 Filling the filter material 103 using any one of sand or gravel or waste wood or alkaline crushed stone, planting purified plants 101 to use by selecting any one of irises or wormwood or poplar trees on the top of the filter material 103, , Between the purified plant 101 is composed by placing a natural stone 104,
The water intake pipe 200 is formed in a pipe shape of a date, and a perforation hole 201 is drilled in one side of the water intake pipe 200 located at the lower end of the raw water inflow tank 100 to take raw water, and the water intake pipe ( The other side of the 200) is blocked by a freely open blind flange 203 so that the raw water does not escape, and by forming a conduit 300 above the intake pipe 200 located inside the sump beam 110, each of the above intakes The pipe 200 is all connected to one pipe 300 and the raw water flows, and the inner bottom of the intake pipe 200 constitutes a rail 202, and wheels are provided to move along the rail 202. A vacuum cleaner 250 is formed, and the vacuum cleaner 250 is connected and coupled through a compressor 253, a control unit 252, and an air hose 251 located outside the water intake pipe 200. A four-way dam system with fire prevention water production function for forest fire prevention. delete The method according to claim 1,
The storage tank 400 is composed of an outermost outer wall 401, an inner wall 402 inside the outer wall 401, and an inner wall 403 inside the intermediate wall 402, and the inner wall 403. ) Inside the filter tank 418, the bottom is composed of a foundation concrete 430, the outer wall 401 has an upper pipe 451 at the top, and an outer pipe 401 at the bottom of the outlet pipe Forming (450), the conduit (300) passes through the outer wall (401) and the intermediate wall (402) to the inside of the inner wall (403) to the filtration tank (418), the duct leading to the top of the filtration tank (418) At the end of the 300, a distribution tank 410 configured to disperse and drop water is combined, and at the bottom of the distribution tank 410, a primary filtration screen 420 and a secondary filtration screen 421 are provided from the top. And the third filtration screen 422, and the first filtration screen 420, the second filtration screen 421, and the third filtration screen 422 to clean the filtration tank 41 8) Inside the spiral filter tank rail 460 is formed, and provided with a cleaner 250 that can move along the filter tank rail 460, the cleaning pipe to discharge the movement or sediment of the cleaner 250 ( 440) is connected to the bottom of the filtration tank 418 so as to lead to the outside, the bottom outer surface of the filtration tank 418 and the bottom surface of the base concrete 430 meets the filter tank hole 419 drilled to allow water to flow out A four-way dam system having a function of producing fire water for forest fire prevention, characterized in that it comprises a. The method according to claim 1,
The cleaner 250 moves along the rail 202, mounts an air injection nozzle and a camera on the front surface, and mixes air and water supplied from the compressor 253 under control of the control unit 252 to mix the air. A four-way dam system with a function of producing fire water for forest fire prevention, characterized by cleaning by spraying through a spray nozzle. The method according to claim 3,
On the interface between the filtration tank 418 and the cleaning tube 440, a closed member that is free to open is additionally formed so that water passing through the filtration tank 418 does not flow to the cleaning tube 440 but is formed at the bottom of the filtration tank 418. A four-way dam system with a function of producing fire water for forest fire prevention, characterized in that it flows through the filter tank hole (419) and is stored inside the inner wall (403). The method according to claim 1,
Fire water supply valve to extend the fire water supply pipe 750 so that the water stored in the supply tank 500 can be supplied to the boundary between the mountain 700 and the village 800, and to control the fire water supply pipe 750 720, the sprinklers 770 are installed at a predetermined distance from each other in the vertical direction of the fire water supply pipe 750, and each of the sprinklers 770 from the fire water supply pipe 750 is provided with the sprinkler 770. A four-way dam system having a function of producing fire water for forest fire prevention, characterized in that it is configured to supply water.

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