JP4029381B2 - Water purification promotion device - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a water purification promoting device.
[0002]
[Prior art]
In recent years, the degree of pollution of specific rivers and lakes has become very high. For example, the degree of pollution in Lake Biwa is very high.
[0003]
[Problems to be solved by the invention]
By the way, various water purification measures have been taken so far, but none of them is effective, such as clogging in the purification device, and it is actually desired to take measures.
[0004]
This invention was made in order to solve the said subject, and the place made into the objective is providing the water purification apparatus which can purify those water effectively for rivers and lakes.
[0005]
[Means for Solving the Problems]
This invention was made in order to solve the said subject, and the invention of Claim 1 equips a floating body, such as a ship, with a superconducting magnetic propulsion device, and floats in a lake, a river, etc., and sucks in from one side It is characterized in that water from rivers and rivers can be discharged to the other end, and purification promoting means such as fine air inlets, magnets, and purification accelerators are arranged on the running water track by the superconducting magnetic propulsion device. .
[0006]
According to the second aspect of the present invention, a pipe with a superconducting magnetic propulsion device is provided on the riverbed or bank of a river so that at least downstream water is returned to the upstream side and the river can flow again.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments.
FIG. 1 shows a preferred and basic embodiment of the present invention. In this embodiment, a superconducting magnetic propulsion apparatus A is mounted on a canal or a river in a country or a foreign country such as Thailand. The ship 70 is fixed on a fixed water surface by anchors 71 to positively purify the water. The superconducting magnetic propulsion apparatus A is provided with a water absorption pipe 72 and a water discharge pipe 73 at the front and rear, so that water to be purified can flow in the direction of the solid line arrow or in the reverse direction.
[0008]
If the anchor 71 is thrown between them further apart than shown in the figure, for example, by appropriately operating the anchor drum 74, the range to be cleaned can be expanded by moving the ship 70 back and forth. Of course, the ship 70 can also be propelled by the superconducting magnetic propulsion device A.
[0009]
The water discharge pipe 73 may face the air introduction pipe 75 or the water absorption pipe 72. In this case, the air is a natural suction type or a forced introduction type.
[0010]
Further, as shown in FIG. 2, an idle screw 76 may be provided behind the outlet of the water discharge pipe 73 so that the flow is turbulently diffused in the radial direction when the water discharge hits the screw. In this case, air is also refined and diffused to effectively purify the air.
[0011]
The example shown in FIG. 3 purifies water of a river, and embeds a pipe in which superconducting magnetic propulsion devices A with a shielding cover 80 are arranged at appropriate intervals in a river bed 79 from the downstream side of the river 78 to the upstream side. Downstream water is introduced into this pipe and guided in the upstream direction by the superconducting magnetic propulsion device A, and discharged upstream into the river 78 to be purified within the river 78 again. If air introduction means is configured in the middle, it is more useful for purification.
[0012]
As indicated by the phantom line, a pump station 82 is installed beside the river, but the superconducting magnetic propulsion device A may be used as the drainage driving force.
[0013]
As in the above example, if a pipe equipped with the superconducting magnetic propulsion device A is inserted into the river bed 79 (or the river bottom or bank), it functions as a resistor that prevents the river bed 79 from breaking down due to flooding. To do. In the case of flooding, if the superconducting magnetic propulsion device A is controlled in reverse flow so that the upstream water is transported to the downstream side (preferably to the sea) at a very high speed (for example, 100 to 200 km / h), the flood surface The level goes down. There may be a plurality of such pipes or a riverbed on the other side.
[0014]
In the example shown in FIG. 4, for example, the superconducting magnetic propulsion device A is provided where a river 85 that is the Yodo River pours into the sea 86 that is Osaka Bay. The superconducting magnetic propulsion device A may be capable of reverse driving. If superconducting magnetic propulsion device A is equipped at the river outlet, for example, by deploying and driving a plurality of such devices A, the flow can be made faster by aggressive water removal as described above. The risk of breakage can be reduced.
[0015]
FIG. 5 shows a case where a ship 89 with a superconducting electromagnetism propulsion device A is installed in a lake 88 such as Lake Biwa, and water is circulated by the device A for purification. In this case, the ship 89 is anchored by the anchor 90, but it may be made to go around. Moreover, although the ship 89 is made into the catamaran type, it is not limited to this. Further, air may be mixed into the superconducting magnetic propulsion apparatus A, and of course, the apparatus A may be reversely driven.
[0016]
In the example shown in FIG. 6, a superconducting magnetic propulsion device A with a pedestal 93 is similarly installed in a lake 92 in a vertically installed manner, and water purification is performed by ejecting water upward from the bottom. . The control body 94 of the superconducting magnetic propulsion apparatus A may be installed on a gantry 95 fixed to the inner periphery of the lake 92. Further, an idle screw 96 may be added. Furthermore, fine air mixing means and ion mixing means may be provided.
[0017]
In the example shown in FIG. 7, a gantry 100 is installed in a lake 99 and a superconducting magnetic propulsion device A is installed so as to be rotatable around a drive shaft 101. Thus, it is configured to be capable of reciprocating drive. Thereby, the lake 99 can be extensively purified by freely changing the angle of the superconducting magnetic propulsion device A. The gantry 100 may be formed like a virtual line. Moreover, fine air and ion mixing are also possible. Furthermore, if the extended water discharge pipe 103 is made long like an imaginary line, the fountain can be formed on the water surface. Moreover, since the superconducting magnetic propulsion apparatus A can be turned on and off, waves can be generated from the water discharge pipe 104. This wave generation method is also applied to any of FIGS.
[0018]
In the example shown in FIG. 8, a ship 107 with a built-in control body is installed in a river (or lake) 106 such as the Dotonbori River, which is highly contaminated, and a suspension member 108 such as a chain is hung from the ship 107. The superconducting magnetic propulsion device A is suspended at the lower end of the lower end, and 109 is a weight for stabilization. 110 is a water absorption pipe, 111 is a water discharge pipe. The anchor may be anchored. Further, the suspension member 108 may be expanded and contracted as indicated by an arrow so that the angle of the superconducting magnetic propulsion apparatus A can be changed. Further, the superconducting magnetic propulsion apparatus A may be made rotatable by using a single suspension member 108.
[0019]
In this case as well, fine air and ions may be mixed, or waves may be generated.
[0020]
In the example shown in FIG. 9, 113 is the Pacific Ocean, 114 is the Seto Inland Sea, 115 is the Shikoku continent, the pipe 116 is passed over the mountain from the Pacific Ocean 113 side to the Seto Inland Sea 114, and the superconducting electromagnetism propulsion device A is placed at an appropriate place. It is something that is deployed. Thus, the superconducting magnetic propulsion apparatus A is operated using nighttime electric power, and the seawater from the Pacific Ocean 113 is transferred to the Seto Inland Sea 114 to be used for purification and driving of the power generation equipment 117. This example is also applied, for example, to a case where river water is pumped up by a superconducting magnetic propulsion device A on a certain mountain and can be generated by hydroelectric power generation equipment. Such pumping can also function as a fire extinguishing system for wildfires.
[0021]
In the example shown in FIG. 10, for example, a water pipe 120 is passed from Osaka to Tokyo using the highway 119, and a superconducting magnetic propulsion device A can be provided to apply a force at a weak flow place. It is a thing. These techniques can be used to transfer any clean water to the city.
Note that air introduction means may be provided on the water absorption side and / or water discharge side of the superconducting magnetic propulsion apparatus A in each of the above embodiments, but on the water absorption side and / or water discharge side, magnets, bio, humus Any of soil, ultrasonic waves, ultrafine air generators, or a combination of these may be provided. Further, the superconducting magnetic propulsion apparatus A is in an ultra-low temperature state, and can be used for power generation or for an ultra-low temperature plant. As one of the plants, it can be used for skiing and skating by ice making, storing crops by making a refrigerator, and it can also be used to activate water.
Note that a floating body such as a ship may further stir lake water and the like by bending the end of the water discharge pipe at 90 degrees and bending the discharge direction so that the floating body can turn freely. In this case, the floating body may be provided with a protrusion for promoting stirring, or a water passage hole may be formed in the floating body and fine air may be mixed therein, or the water molecules may be refined with a magnet.
[0022]
【The invention's effect】
As described above, this invention is equipped with a superconducting magnetic propulsion device in a floating body such as a ship and floats in a lake or a river so that water from a lake or a river sucked in from one side can be discharged to the other end. In addition, it is characterized by the provision of purification promotion means such as fine air inlets, magnets, and purification accelerators on the running water trajectory by the superconducting magnetic propulsion device, so that the water can be effectively used for rivers and lakes. A water purification device capable of purification can be provided.
[Brief description of the drawings]
FIG. 1 is a side view showing an embodiment of the present invention.
FIG. 2 is a side view showing an example of further purifying by diffusing water discharge.
FIG. 3 is a river cross-sectional view showing another example.
FIG. 4 is a plan view showing another example of purification.
FIG. 5 is a plan view showing an example of purification in a lake.
FIG. 6 is a longitudinal sectional view showing another example of purification in a lake.
FIG. 7 is a longitudinal sectional view showing another example of purification in a lake.
FIG. 8 is a cross-sectional view showing a purification example of a polluted river.
FIG. 9 is a cross-sectional view showing another example of purification.
FIG. 10 is a perspective view showing an example in which a superconducting magnetic propulsion device is provided for water transfer using a highway.
[Explanation of symbols]
A ... Superconducting magnetic propulsion device 72, 110 ... Water absorption pipe 73, 104,
111: Water discharge pipe.

Claims (2)

Equipped with a superconducting electromagnetism propulsion device on a floating body such as a ship, so that it can be discharged from one side to the other end by discharging it from the other side of the lake or river, and the superconducting electromagnetism propulsion device A water purification promoting device, wherein purification facilitating means such as a fine air inlet, a magnet, and a purification accelerator are arranged on a running water track. A water purification facilitator that is equipped with a pipe with a superconducting magnetic propulsion device on the riverbed or bank of a river so that at least downstream water can be returned to the upstream side and flow through the river again.

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