JP3242735U - Water backflow device connection system facility construction - Google Patents

Abstract

A system for making water flow backward from a low place to a high place is provided to turn dry land, which has been regarded as desert land, desolate land and mountainous land, into green space. SOLUTION: River water and lake water 1 are drawn into a water storage pool 3 by a drawing hose 2. Next, the water is sent from the water storage pool to the water storage pool 6. - 特許庁Next, the water is sent from the water storage pool to the water storage pool 7 . Next, water is sent from the water storage pool to the water storage pool 8 . In this way, the water is sequentially fed from the low water storage pool to the high water storage pool and pumped up to the destination farmland or the like. Water is supplied by a water supply hose 5 connecting the water storage pools. The electric energy that causes the water to flow back is provided by a motor pump attached to each reservoir pool. Electric energy for operating the motor pump is covered by solar power generation 16 and wind power generation 17 which are renewable energy. [Selection drawing] Fig. 1

Description

It is a law of nature that water flows from high places to low places. For example, the Tamagawa brothers' excavation work for the Tamagawa aqueduct in the Edo period, Koichi Hatta's agricultural land development work in the Hualien region of Taiwan during the war, and the ruins of an aqueduct dating back to the Roman Empire era, are all examples of water flow from upstream. The construction was based on the assumption that the river would flow downstream. Such constructions related to water are unparalleled in all ages and countries. Even now, regarding the use of water, which is indispensable for people's lives, dams have been constructed upstream of rivers to store water, and it is used for tap water, industrial water, and agricultural water. This is also based on the principle of water. However, with changes in lifestyle, it became easier to pump water from low places to high places. As a result, the range of water utilization has widened. Examples include pumped-storage dams, high-rise condominiums, tower buildings, and water towers of large-scale housing complexes. However, these are all limited and small scale.
The present invention reverses the flow of fresh water obtained by purifying river water, lake water, and sea water to desert areas, desolate areas, mountainous areas, etc., which have been regarded as troublesome lands so far, thereby turning the lands into farmlands, orchards, oases, etc. It is intended to make the area green. This means transforming it into a settlement area, agricultural production area, and economic activity area. In addition, toward the realization of a decarbonized society, the goal is to create a society that emphasizes the natural environment by using plants to absorb carbon dioxide.

Until now, water has been pumped up and stored in a water storage tank, and the water has been drained or dropped at the time of use. Representative examples include pumped-storage dams, high-rise condominiums, tower buildings, and water towers of large-scale housing complexes. but still limited and small.

Problems to be solved by ideas

An object of the present invention is to solve the following problems.
(1) It is possible to promote and reduce the absorption of carbon dioxide from the atmosphere by the action of photosynthesis of plants by greening dry areas such as desert areas, desolate areas and mountainous areas.
(2) Arid areas such as desert areas, desolate areas and mountainous areas can be used as places of permanent residence for residents by turning them into production areas for agricultural products and fruits.
(3) Residents living in inconvenient land can create a new economic zone while resolving water shortages and lives without electricity.
(4) It is possible to enrich the living environment of residents with carbon dioxide trading profits.

Embodiments of the present invention are as follows.
(1) Backflow system for river water, lake water, etc. The construction of the water backflow device connection system facility is to backflow water into desert areas, desolate areas, mountainous areas, etc. to create green areas. An embodiment of the water reflux device connection system is as follows. First, river water and lake water (code 1) are drawn into a water storage pool (code 3) by a drawing hose (code 2). Next, the water is sent from the water storage pool (code 3) to the water storage pool (code 6). Next, the water is sent from the water storage pool (code 6) to the water storage pool (code 7). Next, water is sent from the water storage pool (code 7) to the water storage pool (code 8). In this way, the water is sequentially fed from the low water storage pool to the high water storage pool and pumped up to the destination farmland or the like. Water is supplied by a water supply hose (reference numeral 5) connecting the water storage pools. Electric power energy for backflow of water is implemented by a motor pump (reference numeral 18) installed in each water storage pool. Electric power energy for operating the motor pump (reference numeral 18) is provided by renewable energy such as solar power generation (reference numeral 16) and wind power generation (reference numeral 17). In this water backflow system, a water supply hose and a water storage pool are connected in an Ekiden style from a water inlet (reference numeral 1) to a destination farmland (reference numeral 10) or the like. It is assumed that the distance between the water storage pools and the water storage pool sections is 200m or more, but the length of the hose varies depending on the slope of the topography. After the water reaches its destination, the water is sprinkled on plants such as farmland (code 10), orchard (code 11), tree land (code 12), green space (code 13), oasis (code 14), etc. with a sprinkler or the like. do. The rest of the water will be used for domestic purposes such as residences and villages (code 9). In addition, the code|symbol 15 is a substation.
(2) Seawater backflow system The method of backflowing seawater is almost the same as the water backflow system. One more step. The process is the process of turning seawater into freshwater. The system for turning seawater into fresh water and making it flow back is as follows. First, the seawater is drawn into the seawater pool (code 3) from the seawater inlet (code 1) by the seawater drawing hose (code 2). This seawater is desalinated by a simple compression type seawater purifier (code 4) and then sent to a water storage pool (code 6). Next, this water is sent from the water storage pool (code 6) to the water storage pool (code 7). Next, this water is sent from the water storage pool (code 7) to the water storage pool (code 8). In this way, the water is made to flow backward from the low place to the high place water storage pool, and the water is sent to the destination farmland or the like. Backflow of water is performed by a water supply hose (reference numeral 5) connecting the water storage pools. Electric power energy for backflow of water is implemented by a motor pump (reference numeral 18) installed in each water storage pool. Electric power energy for the motor pump (reference numeral 18) is provided by renewable energy such as photovoltaic power generation (reference numeral 16) and wind power generation (reference numeral 17). This reverse flow of water continues from the seawater inlet (reference numeral 1) to the destination farmland (reference numeral 10) or the like. The distance between the water pool and the water pool section is assumed to be about 200m or more. However, the length of the hose varies depending on the slope of the terrain. After the water reaches its destination, the water is sprinkled on plants such as farmland (code 10), orchard (code 11), tree land (code 12), green space (code 13), oasis (code 14), etc. with a sprinkler or the like. do. The rest of the water will be used as domestic water for the dwellings/villages (code 9). In addition, the code|symbol 15 is a substation.

Effect of idea

The effects of the present invention are as follows.
(1) If there is river water, lake water, or seawater in any remote place on earth, by constructing facilities for solar power generation and wind power generation, water will flow backward regardless of terrain irregularities, slopes, and remote locations. It is possible to send water to the destination.
(2) It is possible to turn back water into farmland, orchards, tree lands, green areas, oases, etc., and produce agricultural products, etc. and
(3) A new economic zone can be created along with the settlement of nomads.
(4) It is possible to prevent global warming by promoting the absorption of carbon dioxide in the atmosphere through the action of photosynthesis in plants.
(5) It is possible to preserve the natural environment that is essential for the inhabitation of animals including human beings.
(6) It is possible to enrich the livelihood of the residents through carbon dioxide trading profits.

Perspective view and overall view (backflow system of water) Perspective view and overall view (backflow system of sea water)

FIG. 1 is a perspective view and an overall view of the structure of the water backflow device connection system facility. Reference numeral 1 is river water and lake water, Reference numeral 2 is a water drawing hose, Reference numeral 4 is a motor pump, Reference numeral 5 is a water supply hose, Reference numerals 3, 6, 7, and 8 are water storage pools, Reference numeral 9 is residences and villages, Reference numeral 10 is Agricultural land, reference numeral 11 is an orchard, reference numeral 12 is tree land, reference numeral 13 is a green area, reference numeral 14 is an oasis, reference numeral 15 is a substation, reference numeral 16 is a solar power generation panel installation site, reference numeral 17 is a wind power generation installation site. 1 is a perspective view and an overall view of a construction of a seawater backflow device connection system facility; FIG. Reference numeral 1 is seawater, reference numeral 2 is a seawater intake hose, reference numeral 3 is a seawater pool, reference numeral 4 is a simple compression type seawater purification device, reference numeral 5 is a water supply hose, reference numerals 6, 7 and 8 are water storage pools, and reference numeral 18 is a motor pump. , Reference numeral 9 is residential and village, Reference numeral 10 is farmland, Reference numeral 11 is orchard, Reference numeral 12 is woodland, Reference numeral 13 is green space, Reference numeral 14 is an oasis, Reference numeral 15 is a substation, Reference numeral 16 is a solar power generation installation site, Reference numeral 17 is a wind turbine installation site.

Claims (2)

The "construction of water backflow apparatus connection system facility" of the present invention is to reverse water flow to green areas such as desert areas, desolate areas and mountainous areas. Its purpose is to:
(1) To turn desert areas, desolate areas, mountainous areas, etc. into farmlands, orchards, etc., so as to produce agricultural products, fruits, etc.
(2) To optimize the global environment by greening desert areas, desolate areas, mountainous areas, etc., and promoting the absorption of carbon dioxide from the atmosphere through the action of photosynthesis of plants.
(3) By greening desert areas, desolate areas, and mountainous areas, etc., it is possible to secure the electric energy necessary for the subsequent operation and management of structures, the lives of residents, and the breeding of animals.
The claim of the present invention is a structure constituting a system facility for pumping water from a low place to a high place.
Now, the parts and devices that make up the structure will be explained. It is as follows. ▲ 1 ▼ River water hose, ▲ 2 ▼ Water pipe, ▲ 3 ▼ Water pool for storing water, ▲ 4 ▼ Motor pump with backflow device with pumping function and water discharge function, ▲ 5 ▼ Water supply hose for backflow , (6) a sprinkler for sprinkling water, and (7) a faucet. In addition, the electric energy that drives these devices is inexhaustible supply of renewable energy, such as solar power and wind power, and is made possible through collaboration with these.
Next, we will explain the system for pumping water from a low place to a high place in the "construction of the water backflow device connection system facility". The backflow of water consists of the backflow distance and the number of water storage pools. A water storage pool is built on the line of the water hose. A water supply hose connects the water storage pool and the water storage pool section. The whole picture of the connection is similar to the relationship between the running course that the runners run in the ekiden race and the relay station that delivers the tasami.
Next, the procedure of the backflow device connection system will be described. First, river water or the like is drawn into the first reservoir pool with a drawing hose. Next, the water is sent to the second water pool. Next, the water is sent to the third water pool. Next, the water is sent to the fourth water pool. This mechanism reverses the flow of water to successively higher reservoir pools. The distance is hundreds or thousands of meters. The power to reverse the water flow is provided by a motor pump with a pumping function and a water discharging function installed in each water storage pool. The voltage of the motor pump is more than 200V.
Next, the backflow water hose will be described. The water hose is cylindrical and made of special rubber. It is manufactured with materials that can withstand temperature differences and water pressure due to the climate. In addition, the distance between the water pool and the water pool section is assumed to be 200m or more. However, the length varies depending on the slope of the terrain.
Moreover, the diameter of the water supply hose is 50 mm. In this case, the water discharge rate is 290 L per minute, and the capacity of a standard steel drum of 200 L is filled in about 30 seconds. Also, the water hose can be installed by running the water hose itself along the unevenness of the ground, installing it on an installation base provided on the ground, or simply burying the hose. Installation of the water hose does not require large-scale civil engineering work.
In addition to this, water pipes made of metal and vinyl chloride are also used for water supply. Its shape is cylindrical like the water supply hose and its diameter is 50 mm. The water discharge rate is 290 L per minute, which is the same as the water supply hose. However, the length is short, 4 m or less. Water pipes can be installed by crawling over uneven ground or by burying them in the ground.
The electric energy that drives the equipment of the water backflow device connection system facility is covered by renewable energy that does not emit carbon dioxide, such as solar power and wind power. The management and operation of the construction of the water backflow device connection system facility will be performed by artificial intelligence (AI) and remote control. The method of reversing seawater is almost the same as the method of reversing water. However, to make the seawater flow backward, one step is added. The process is to convert seawater into fresh water with a simple compression type seawater purification device. The subsequent steps are the same as for the water backflow device connection system.
The "construction of the seawater backflow device connection system facility" of this invention is similar to the "construction of the water backflow device connection system facility". be. Its purpose is to:
(1) To turn desert areas, desolate areas, mountainous areas, etc. into farmlands, orchards, etc., so as to produce agricultural products, fruits, etc.
(2) It aims at optimizing the global environment by greening desert areas, desolate areas, mountainous areas, etc., and promoting the absorption of carbon dioxide in the atmosphere through the action of photosynthesis of plants.
(3) It is to secure electric energy necessary for operation and management of structures after greening of desert areas, desolate areas and mountainous areas, living of inhabitants and breeding of animals.
The claim of the present invention is a construction that constitutes a system facility for purifying seawater to fresh water and then pumping this water from a low place to a high place.
Now, the parts and devices that make up the structure will be explained. It is as follows. ▲ 1 ▼ Seawater drawing hose for drawing seawater, ▲ 2 ▼ Water pipe, ▲ 3 ▼ Seawater pool for storing seawater, ▲ 4 ▼ Simple compression type seawater purification device, ▲ 5 ▼ Motor with backflow device with pumping function and water discharging function They are a pump, (6) a water hose for backflow, (7) a sprinkler for sprinkling water, and (8) a faucet. In addition, the electric energy that drives these devices and the like is made possible in collaboration with inexhaustibly supplied renewable energy sources such as solar power and wind power.
Next, we will explain the system for pumping up seawater from a low place to a high place in the "construction of the seawater backflow device connection system facility". Backflow of seawater depends on the distance of backflow and the number of seawater pools and water storage pools. Seawater pools and reservoir pools are built on the line of water hoses.
The seawater pool and the water storage pool section and the water storage pool and the water storage pool section are connected by a water supply hose. The whole picture of the connection is similar to the relationship between the course that the runners run in the ekiden race and the relay station that delivers the tasami.
Next, the procedure of the backflow device connection system will be described. First, seawater is drawn into the seawater pool with a seawater drawing hose. Next, the seawater is desalinated with a simple compression-type seawater purifier. The desalinated water is sent to the first reservoir pool. Next, the water is sent to the second water pool. Next, the water is sent to the third water pool. This mechanism causes the water to flow back to the higher reservoir pools in sequence. The distance is hundreds or thousands of meters. In order to reverse the seawater, a motor pump having a pumping function and a water discharging function installed in the seawater pool and each water storage pool is used. The voltage of the motor pump is above 200V.
Next, the backflow water hose will be described. The water hose is cylindrical and made of special rubber, and is made of a material that can withstand temperature differences and water pressure due to climate. In addition, it is assumed that the distance between the water storage pools and the water storage pool sections is 200m or more. However, the length varies depending on the slope of the terrain. Moreover, the diameter of the water supply hose is 50 mm. In this case, the water discharge rate is 290 L per minute, and the capacity of a standard steel drum of 200 L is filled in about 30 seconds. Also, the water hose can be installed by running the water hose itself along the unevenness of the ground, installing it on an installation base provided on the ground, or simply burying the hose. Installation of the water hose does not require large-scale civil engineering work.
In addition to this, water pipes made of metal and vinyl chloride are also used for water supply. Its shape is cylindrical like the water supply hose and its diameter is 50 mm. The amount of water discharged is also the same as the water supply hose, which is 290 L per minute. However, the length is short, 4 m or less. Water pipes can be installed by crawling over uneven ground or by burying them in the ground. The water pipe is short compared to the water hose. The electric energy that drives the equipment of the water backflow device connection system facility is covered by renewable energy that does not emit carbon dioxide, such as solar power and wind power. The management and operation of the building of the water backflow device connection system facility is performed by artificial intelligence (AI) and remote control.

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