JPH08155430A - Apparatus and method for making activated water and activation of water - Google Patents

Abstract

PURPOSE: To efficiently produce water containing dissolved oxygen in large quantities by providing a throttle structure part such as a nozzle in a pipeline at an appropriate position and providing a part sucking air from the outside at the leading end position of the throttle structure part and sucking air from the outside to mix the same with the water in the pipeline. CONSTITUTION: A downward opening part 1 is provided to the front end part of a pipeline and a cylindrical body 5 mixing the water in the pipeline with air sucked from the outside is provided to the intermediate part of the pipeline and a throttle structure part 2 such as a nozzle is provided to the front part of the cylindrical part. A venturi tube 7 is provided at the rear part position of the throttle structure part 2 and a bypass valve 10 is arranged at the before- and-behind part of the through-hole 8 provided to the venturi tube 7 to adjust the supply amt. of water. By this constitution, air is sucked from the outside through the through-hole 8 provided to the venturi tube 7 when water is allowed to flow through the pipeline to be mixed with the water in the pipeline to produce water containing much dissolved oxygen.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for producing active water, a method for producing active water, and a method for activating water, and more particularly, in order to promote mixing of water and air in a pipe line, a venturi pipe structure portion. Air is sucked from the outside through a through hole provided in the pipe, the water in the pipeline is mixed with the air sucked from the outside, and the water is mixed well with the water to produce water containing a large amount of dissolved oxygen. Apparatus for activating water by activating water, a method for activating water, and a method for activating water, and providing a throttle structure portion such as a nozzle and bending a direction changing portion provided at the end of the throttle structure portion. By virtue of this, the jet flow ejected from the throttle structure portion such as the nozzle located in front of it collides with the inner wall surface of the curved direction changing portion to promote the mixing of water and air. And active water production method and water activity A method for.

[0002]

2. Description of the Related Art Conventionally, studies have been conducted to obtain water containing a large amount of dissolved oxygen by bringing air into contact with water. For example, in a fish farm or the like, a large-scale fountain facility is provided to let water rise in the air and bring the air into contact with the water. Especially in ponds for eel cultivation, since the ponds are shallow, we have been striving to bring air into contact with water over a wide area. In water supply, the aeration tank occupies an important position. We have made efforts to purify water by promoting the reproduction of aerobic bacteria. In recent years, even in sewage treatment, efforts have been made to purify water by promoting the growth of bacteria suitable for purifying water. But,
It cannot always be said that the results have been achieved sufficiently. In addition, although a wide aeration tank has been used conventionally, research has been done to achieve the same result as a wide aeration tank with a narrow aeration tank, but the results have not been sufficient.

[0003]

SUMMARY OF THE INVENTION The first object of the present invention is to solve the above problems. Also, the present invention
In order to promote the mixing of water and air in the pipeline, air is sucked from the outside by the through hole provided in the Venturi pipe structure portion, and the water in the pipeline is mixed with the air sucked from the outside. The second object is to provide an active water production apparatus, an active water production method and a water activation method for producing water containing a large amount of dissolved oxygen by well mixing air with water to activate the water. To aim. Further, according to the present invention, by providing a throttle structure portion such as a nozzle and bending a direction changing portion provided at the tip of the throttle structure portion, the jet flow ejected from the throttle structure portion such as the nozzle located in front of the throttle structure portion is bent. To provide an active water producing apparatus, an active water producing method, and a water activating method that are capable of promoting the mixing of water and air by colliding with the inner wall surface of the bent direction changing portion. The purpose of. Further, according to the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in the pipeline, a portion for sucking air from the outside is provided at a position ahead of the throttle structure portion, and a through hole provided in the air suction portion. Provides an active water production device that produces water containing a large amount of dissolved oxygen by sucking air from the outside to mix the water in the pipeline with the air sucked from the outside and mixing the air well with the water. The fourth purpose is to do. Further, according to the present invention, the jet flow is caused to flow out by a throttle structure portion such as a nozzle provided at an appropriate position in the pipeline, and the jet flow is sucked by an air suction portion which sucks air from the outside provided at a position ahead of the throttle structure portion. To provide a method for producing active water in which water containing a large amount of dissolved oxygen is produced by mixing water in a pipeline with air sucked from the outside to mix air, and mixing the air well with the water. Is the fifth purpose. Further, according to the present invention, the jet flow is caused to flow out by a throttle structure portion such as a nozzle provided at an appropriate position in the pipeline, and the jet flow is sucked by an air suction portion that sucks air from the outside provided at a position ahead of the throttle structure portion. In order to mix air, the water in the pipeline is mixed with the air sucked from the outside to provide a method for activating water which produces water containing a large amount of dissolved oxygen by mixing the air well with the water. This is the sixth purpose. Further, according to the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided in front of the throttle structure portion, and a Venturi tube structure portion is provided in a rear position of the throttle structure portion. , The venturi pipe structure has a through hole to suck air from the outside to mix the water in the pipe with the air sucked from the outside, and mix the air well with the water to contain a large amount of dissolved oxygen. A seventh object is to provide an activated water producing apparatus for producing water.

[0004]

According to the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in a conduit, and a portion for sucking air from the outside is provided at a position ahead of the throttle structure portion.
Water containing a large amount of dissolved oxygen is obtained by sucking air from the outside by mixing the water in the pipeline with the air sucked from the outside through the through hole provided in the air suction portion and mixing the air well with the water. The present invention is also an apparatus for producing active water, and the present invention allows a jet flow to flow out at a throttle structure portion such as a nozzle provided at an appropriate position in a pipe line, and externally provided at a position ahead of the throttle structure portion. In order to mix the air sucked by the air sucking part that sucks the air, the water in the pipeline is mixed with the air sucked from the outside, and the water containing a large amount of dissolved oxygen is mixed by mixing the air well with the water. The present invention is a method for producing active water, and the present invention is that the jet flow is made to flow out at a throttle structure portion such as a nozzle provided at an appropriate position in a pipeline, and air is supplied from the outside provided at a position ahead of the throttle structure portion. The air suction part In order to mix the sucked air, by mixing the water in the pipeline with the air sucked from the outside, and by well mixing the air with the water, an activation method that can be activated into water containing a large amount of dissolved oxygen. is there.

[0005]

According to the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in a pipe, a portion for sucking air from the outside is provided at a position ahead of the throttle structure portion, and a passage provided in the air suction portion. An active water production device for producing water containing a large amount of dissolved oxygen by sucking air from the outside through a hole to mix the water in the pipeline with the air sucked from the outside and mixing the air well with the water. Therefore, by sucking air from the outside into the pipeline, mixing the water in the pipeline with the air sucked from the outside, and mixing the air well with the water to produce water containing a large amount of dissolved oxygen. You can do it. Further, according to the present invention, the jet flow is caused to flow out by a throttle structure portion such as a nozzle provided at an appropriate position in the pipeline, and the jet flow is sucked by an air suction portion which sucks air from the outside provided at a position ahead of the throttle structure portion. In order to mix the air, by mixing the water in the pipeline and the air sucked from the outside, it is an active water manufacturing method for manufacturing water containing a large amount of dissolved oxygen by mixing the air well with the water, It is possible to produce water containing a large amount of dissolved oxygen by sucking air from the outside into the pipeline, mixing the water in the pipeline with the air sucked from the outside, and mixing the air well with the water. I can. Further, according to the present invention, the jet flow is caused to flow out by a throttle structure portion such as a nozzle provided at an appropriate position in the pipeline, and the jet flow is sucked by an air suction portion which sucks air from the outside provided at a position ahead of the throttle structure portion. In order to mix air, a method of activating water that can be activated by mixing the water in the pipeline with the air sucked from the outside and mixing the air well with the water to form water containing a large amount of dissolved oxygen. Therefore, the jet flow is caused to flow out by the throttle structure portion such as the nozzle, and the air sucked by the air suction portion that sucks air from the outside provided at the position ahead of the throttle structure portion is mixed with the water in the pipeline. By mixing with the air sucked from the outside and mixing the air well with the water, the water containing a large amount of dissolved oxygen can be activated.

[0006]

EXAMPLE 1 The present invention has a downward opening portion at the front end portion of the pipe line, and the middle portion of the pipe line is mixed with water in the pipe line and air sucked from the outside to generate air. And a water well mixed intermediate pipe part, the rear part of the intermediate pipe part has a rear pipe part, the throttle structure part such as a nozzle at an appropriate position in the front pipe part in the pipe line. Is provided, a direction changing portion is provided at the end of the throttle structure portion, a venturi pipe structure portion is provided at the rear position of the throttle structure portion, and bypass valves are provided at the front and rear portions of the through holes provided in the venturi pipe structure portion. It is installed so that the amount of water supply can be adjusted, and the air is sucked from the outside by the through hole provided in the venturi pipe structure to mix the water in the pipe with the air sucked from the outside. , By mixing air with water well, it contains a large amount of dissolved oxygen. It is an active water production apparatus for producing the water.

[0007]

[Embodiment 2] The present invention has a downward opening portion at the front end portion of the pipeline, and an intermediate portion of the pipeline is mixed with water in the pipeline and air sucked from the outside to form an air flow. And a water well mixed intermediate pipe part, the rear part of the intermediate pipe part has a rear pipe part, the throttle structure part such as a nozzle at an appropriate position in the front pipe part in the pipe line. Is provided, a direction changing portion is provided at the end of the throttle structure portion, a venturi pipe structure portion is provided at the rear position of the throttle structure portion, and bypass valves are provided at the front and rear portions of the through holes provided in the venturi pipe structure portion. The venturi pipe structure part is provided with a plurality of through holes provided in the venturi pipe structure part, and a plurality of air suction devices are provided in the venturi pipe structure part. Air is sucked from the outside through the holes of multiple air suction devices. By mixing the air sucked from the water and the outside of the conduit, is active water production apparatus of the air to produce a laden water dissolved oxygen is mixed well in water.

[0008]

Third Embodiment In the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in the front portion of the pipe, and the flow path can be bent by the direction changing portion provided before the throttle structure portion. Air is sucked from the outside through a through hole provided between the direction changing portion and the throttle structure portion so that the water in the pipeline can be mixed with the air sucked from the outside. Negative pressure is created by the venturi pipe structure part provided at the rear position, and air is sucked from the outside by the through hole provided in the venturi pipe structure part to mix the water in the pipeline with the air sucked from the outside, Is a method for producing active water in which water containing a large amount of dissolved oxygen is produced by thoroughly mixing water with water.

[0009]

[Fourth Embodiment] In the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in a front portion of a pipe, and a flow path can be bent by a direction changing portion provided before the throttle structure portion. Air is sucked from the outside through a through hole provided between the direction changing portion and the throttle structure portion so that the water in the pipeline and the air sucked from the outside can be mixed, An intermediate pipe line between the through hole provided between the through hole and the through hole provided in the venturi pipe structure portion provided at the rear position of the throttle structure portion can mix water and air in the pipe line and the throttle structure portion. Negative pressure is created by the venturi pipe structure part provided at the rear position, and air is sucked from the outside by the through hole provided in the venturi pipe structure part to mix the water in the pipe line with the air sucked from the outside, Dissolve by mixing air with water well Is active water manufacturing method for manufacturing a laden water elements.

[0010]

[Embodiment 5] The present invention comprises a collision type air injector consisting of a throttle structure portion such as a nozzle and a direction changing portion located in front of the throttle structure portion and a venturi pipe structure portion, and air sucked at the venturi pipe structure portion. And water in the pipeline are mixed well, and then a throttle structure portion such as a nozzle is provided at an appropriate position in the pipeline, and a direction changing portion is provided at the tip of the throttle structure portion. Air is sucked from the outside by a through hole provided between the throttle structure portion, and air is sucked by the venturi pipe structure portion provided at the rear position of the throttle structure portion to the venturi pipe structure portion. Air is sucked from the outside through the provided holes to mix the water in the pipeline with the air sucked from the outside, and the air is mixed well with the water to make water containing a large amount of dissolved oxygen. A method of activating the water can be activated.

[0011]

[Embodiment 6] According to the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided in front of the throttle structure portion, and a venturi tube structure is provided at a rear position of the throttle structure portion. The venturi pipe structure part is provided with a bypass pipe that has an inlet and a rear port before and after the venturi pipe structure part. It is a method of activating water that can be activated by sucking air from the air and mixing the water in the pipeline with the air sucked from the outside to mix the air well with the water to make water containing a large amount of oxygen. .

[0012]

[Embodiment 7] According to the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided in front of the throttle structure portion, and a Venturi tube structure is provided at a rear position of the throttle structure portion. The venturi pipe is provided with a plurality of air injectors so that the bypass valve can be operated through a bypass pipe having a venturi pipe structure part and a vent pipe at the front and rear of the venturi pipe structure part. Air is sucked from the outside by a through hole provided in the structure part to mix the water in the pipeline with the air sucked from the outside, and the air is mixed well with the water to make water containing a large amount of dissolved oxygen. It is a method of activating water that can be activated.

[0013]

[Embodiment 8] The present invention comprises a Venturi tube structure portion, a throttle structure portion such as a nozzle, a direction changing portion ahead of the throttle structure portion, and a mixed portion of water in the pipe and air in the pipe. , These respective parts are connected by a pipe line connected to each other, a throttle structure part such as a nozzle is provided at an appropriate position in the pipe line, a direction changing part is provided at the end of the throttle structure part, and the throttle structure part A venturi pipe structure portion is provided at the rear position of the venturi pipe, and air is sucked from the outside by a through hole provided in the venturi pipe structure portion to mix the water in the pipe line with the air sucked from the outside, thereby converting the air into water. It is a method of activating water that can be activated by making water containing a large amount of dissolved oxygen by mixing well.

[0014]

[Embodiment 9] The present invention comprises a Venturi tube structure portion, a throttle structure portion such as a nozzle, a direction changing portion ahead of the throttle structure portion, and a mixed portion of water in the pipe and air in the pipe. , Connecting each of these parts by a pipe line connected to each other so that a bypass valve can be operated through the bypass pipe to the venturi pipe structure part, and a throttle structure part such as a nozzle is provided at an appropriate position in the pipe line. , A direction changing portion is provided at the end of the throttle structure portion, a venturi pipe structure portion is provided at the rear position of the throttle structure portion, and air is sucked from the outside by a through hole provided in the venturi pipe structure portion to draw a conduit. This is a method for activating water that can be activated by mixing water in the interior with air sucked from the outside and mixing the air well with the water to form water containing a large amount of dissolved oxygen.

[0015]

According to the present invention, a throttle structure portion such as a nozzle is provided at an appropriate position in a pipeline, a portion for sucking air from the outside is provided at a position ahead of the throttle structure portion, and a passage provided in the air suction portion. An active water production device for producing water containing a large amount of dissolved oxygen by sucking air from the outside through a hole to mix the water in the pipeline with the air sucked from the outside and mixing the air well with the water. Therefore, by sucking air from the outside into the pipeline, mixing the water in the pipeline with the air sucked from the outside, and mixing the air well with the water to produce water containing a large amount of dissolved oxygen. There is an effect that can be done. Further, according to the present invention, the jet flow is caused to flow out by a throttle structure portion such as a nozzle provided at an appropriate position in the pipeline, and the jet flow is sucked by an air suction portion which is provided outside the throttle structure portion and sucks air from the outside. In order to mix the air, by mixing the water in the pipeline and the air sucked from the outside, it is an active water manufacturing method for manufacturing water containing a large amount of dissolved oxygen by mixing the air well with the water, It is possible to produce water containing a large amount of dissolved oxygen by sucking air from the outside into the pipeline, mixing the water in the pipeline with the air sucked from the outside, and mixing the air well with the water. There is an effect that can be done. Also,
According to the present invention, the jet flow is made to flow out in a throttle structure portion such as a nozzle provided at an appropriate position in the pipe line, and the air sucked by an air suction portion sucking air from the outside provided at a position ahead of the throttle structure portion Since this is a method for activating water, the water in the pipeline and the air sucked from the outside are mixed, and the air is well mixed with the water to make water containing a large amount of dissolved oxygen and can be activated. , The jet flow out at the throttle structure part such as the nozzle, and the air suctioned by the air suction part that sucks air from the outside provided at the position ahead of the throttle structure part mixes the water in the pipeline and the outside By mixing with the sucked air and mixing the air well with the water, the water containing a large amount of dissolved oxygen can be activated.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view of a state of use of the active water producing apparatus of the present invention, which is composed of two members each including one curved pipe and a Venturi tube of an embodiment of the active water producing apparatus of the present invention.

2 is a configuration different from that of the active water production apparatus shown in FIG. 1, and is one curved pipe of an embodiment of the active water production apparatus of the present invention, a cylinder for mixing air and water, and a venturi. It is a longitudinal cross-sectional view of the usage state of the activated water manufacturing apparatus of this invention by three members which consist of a pipe.

FIG. 3 is a configuration different from the active water production apparatus shown in FIGS. 1 and 2, and is one curved pipe and a tube for mixing air and water in the embodiment of the active water production apparatus of the present invention. FIG. 3 is a vertical cross-sectional view of a state of use of the activated water producing device of the present invention in which the T-shaped tubes are connected to both sides of the Venturi tube in the three members including the body and the Venturi tube and the T-shaped tubes are connected to each other by the bypass passage.

FIG. 4 is a configuration different from the active water production apparatus shown in FIGS. 1, 2 and 3, and is one of the cylinders for mixing air and water in the embodiment of the active water production apparatus of the present invention. Inside the three members consisting of the body, the Venturi tube, and the curved tube, connect the T-shaped tubes to both sides of the Venturi tube and connect the T-shaped tubes to each other by the bypass passage, and use the diverter pipe to connect the two outlets of the diverter pipe. FIG. 4 is a vertical cross-sectional view of a state of use of the activated water producing apparatus of the present invention in which a curved pipe is connected to each of the above.

FIG. 5 is one of the embodiments of the activated water producing apparatus of the present invention.
FIG. 4 is a vertical cross-sectional view of three members shown in a state where individual members of the constituent members of the active water manufacturing apparatus shown in FIG.

[Explanation of symbols]

1 Opening at the tip of the bent portion of the bent pipe 2 Opening of the tip of the nozzle fitted at the inlet of the bent pipe 3 Nozzle inserted inside the bent pipe 4 Air suction port around the nozzle of the bent pipe 5 For mixing air and water Cylinder body 6 Flange of the nozzle fitted at the inlet of curved pipe 7 Venturi pipe 8 Air suction port of Venturi pipe 9 One side pipe 10 Bypass valve 11 The other side pipe 12 Connecting pipe between bypass valve and side pipe 13 Dividing pipe 14 Dividing flow Pipe inlet 15 Outlet of one branch pipe 16 Outlet of the other 16 branch pipe

Claims (23)

[Claims] 1. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a portion for sucking air from the outside is provided at a position ahead of the throttle structure portion, and a through hole provided in the air suction portion is provided. An activated water production apparatus for producing water containing a large amount of dissolved oxygen by sucking air from the outside and mixing the water in the pipeline with the air sucked from the outside to mix the air well with the water. 2. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a portion for sucking air from the outside is provided at a position ahead of the throttle structure portion, and a through hole is provided in the air suction portion. To allow air to be sucked from the outside, a direction changing portion is provided at the tip of the throttle structure portion such as the nozzle, a venturi pipe structure portion is provided at a rear position of the throttle structure portion, and a passage provided in the venturi pipe structure portion is provided. The activated water according to claim 1, wherein air is sucked from the outside through the holes to mix the water in the pipeline with the air sucked from the outside, and the air is mixed well with the water to produce water containing a large amount of dissolved oxygen. Manufacturing equipment. 3. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a portion for sucking air from the outside is provided at a position ahead of the throttle structure portion, and a through hole provided in the air suction portion is used. In order to be able to suck air from the outside, a direction changing portion is provided at the tip of the throttle structure portion such as the nozzle, and an intermediate conduit portion that mixes air and water well is provided at the rear position of the throttle structure portion, A venturi pipe structure portion is provided at the rear position of the intermediate pipe portion, and air is sucked from the outside by a through hole provided in the venturi pipe structure portion to mix the water in the pipe with the air sucked from the outside, The activated water producing apparatus according to claim 1, wherein the water is mixed well with water to produce water containing a large amount of dissolved oxygen. 4. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided ahead of the throttle structure portion, and a venturi pipe structure portion is provided at a rear position of the throttle structure portion. Through the holes provided in the Venturi structure, air is sucked from the outside to mix the water in the conduit with the air sucked from the outside, and the air is mixed well with water to produce water containing a large amount of dissolved oxygen. The activated water manufacturing apparatus according to claim 1. 5. A pipe having a downward opening at the front end portion of the pipe, and water in the pipe and air sucked from the outside are mixed in the middle portion of the pipe to mix air and water. Having an intermediate conduit portion that mixes well, having a rear conduit portion at the rear of the intermediate conduit portion, and providing a throttle structure portion such as a nozzle at an appropriate position of the front conduit portion in the conduit, A direction changing portion is provided at the tip of the throttle structure portion, a venturi pipe structure portion is provided at a rear position of the throttle structure portion, and air is sucked from the outside by a through hole provided in the venturi pipe structure portion to suck the air in the pipeline. 2. The activated water producing apparatus according to claim 1, wherein water is mixed with air sucked from the outside, and the air is mixed well with water to produce water containing a large amount of dissolved oxygen. 6. A pipe having a downward opening at a front end portion thereof, wherein water in the pipe and air sucked from the outside are mixed in an intermediate portion of the pipe to mix air and water. Having an intermediate conduit portion that mixes well, having a rear conduit portion at the rear of the intermediate conduit portion, and providing a throttle structure portion such as a nozzle at an appropriate position of the front conduit portion in the conduit, A direction changing portion is provided at the tip of the throttle structure portion, a venturi pipe structure portion is provided at a rear position of the throttle structure portion, and bypass valves are provided at front and rear portions of the through hole provided in the venturi pipe structure portion, The amount of water supply can be adjusted, and the air is sucked from the outside by mixing the water in the pipe with the air sucked from the outside by the through hole provided in the venturi pipe structure part. Water containing a large amount of dissolved oxygen Activated water production apparatus according to claim 1. 7. A pipe having a downward opening at a front end portion thereof, wherein water in the pipe and air sucked from the outside are mixed in an intermediate portion of the pipe to mix air and water. Having an intermediate conduit portion that mixes well, having a rear conduit portion at the rear of the intermediate conduit portion, and providing a throttle structure portion such as a nozzle at an appropriate position of the front conduit portion in the conduit, A direction changing portion is provided at the tip of the throttle structure portion, a venturi pipe structure portion is provided at a rear position of the throttle structure portion, and bypass valves are provided at front and rear portions of the through hole provided in the venturi pipe structure portion, It is possible to adjust the amount of water supply, adjust the number of through holes provided in the venturi pipe structure part, and install a plurality of air suction devices. Air is sucked from the outside by the through hole of the device and And it is mixed with the air sucked from the outside, active water production apparatus according to claim 1, wherein the air to produce a laden water dissolved oxygen is mixed well in water. 8. An air sucked by an air suction portion for letting out a jet flow at a throttle structure portion such as a nozzle provided at an appropriate position in a pipe line and sucking air from the outside provided at a position ahead of the throttle structure portion. The method for producing active water according to claim 1, wherein the water in the pipeline is mixed with the air sucked from the outside to mix the water, and the air is well mixed with the water to produce water containing a large amount of dissolved oxygen. . 9. Air sucked by an air suction portion for letting out a jet flow at a throttle structure portion such as a nozzle provided at an appropriate position in a pipeline and sucking air from the outside provided at a position ahead of the throttle structure portion. In order to mix the water in the pipeline with the air sucked from the outside, the mixture of the air and water is slammed into the direction changing portion provided at the tip of the throttle structure portion, and the inside of the pipeline is mixed. 2. The method for producing active water according to claim 1, wherein the water containing a large amount of dissolved oxygen is produced by mixing the above air well with water. 10. A throttle structure portion such as a nozzle is provided at an appropriate position in a front portion of a pipe line, and a flow path can be bent by a direction changing portion provided ahead of the throttle structure portion. Air is sucked from the outside through a through hole provided between the throttle structure portions, and air is sucked from the outside by a through hole provided in the Venturi pipe structure portion so that water in the pipeline and air sucked from the outside The method for producing active water according to claim 1, wherein water containing a large amount of dissolved oxygen is produced by mixing and air is well mixed with water. 11. A throttle structure portion such as a nozzle is provided at an appropriate position in a front portion of a pipe line, and a flow path can be bent by a direction changing portion provided ahead of the throttle structure portion. Air is sucked from the outside through a through hole provided between the throttle structure portions so that water in the pipeline can be mixed with air sucked from the outside, and the air is provided at a rear position of the throttle structure portions. A negative pressure is created by the venturi pipe structure part, and air is sucked from the outside by the through hole provided in the venturi pipe structure part to mix the water in the pipe line with the air sucked from the outside, and the air is well mixed with the water. The method for producing active water according to claim 1, wherein water containing a large amount of dissolved oxygen is produced by mixing. 12. A throttle structure part such as a nozzle is provided at an appropriate position in a front part of a pipe line, and a flow path can be bent by a direction changing part provided ahead of the throttle structure part. Air is sucked from the outside through a through hole provided between the throttle structure portions so that the water in the pipeline can be mixed with the air sucked from the outside, and the air is provided between the throttle structure portions. An intermediate pipe between the through hole and the through hole provided in the venturi pipe structure portion provided at the rear position of the throttle structure portion can mix water and air in the pipe line and at the rear position of the throttle structure portion. Negative pressure is created by the provided Venturi pipe structure part, and air is sucked from the outside by mixing the water in the pipe line with the air sucked from the outside by the through hole provided in the Venturi pipe structure part. Mix well to increase the amount of dissolved oxygen. Active water production method according to claim 1, wherein the production of water containing. 13. Air sucked out by an air suction part for letting out a jet flow at a throttle structure portion such as a nozzle provided at an appropriate position in a pipeline and sucking air from the outside provided at a position ahead of the throttle structure portion. The water according to claim 1, which can be activated by mixing the water in the pipeline with the air sucked from the outside so as to mix the water well with the water to make water containing a large amount of dissolved oxygen. Activation method. 14. Air sucked by an air suction part for letting out a jet flow at a throttle structure portion such as a nozzle provided at an appropriate position in a pipeline and sucking air from the outside provided at a position beyond the throttle structure portion. In order to mix the water in the pipeline with the air sucked from the outside, the mixture of the air and water is slammed into the direction changing portion provided at the tip of the throttle structure portion, and the inside of the pipeline is mixed. 2. The method for activating water according to claim 1, wherein the water can be activated by being mixed with a large amount of dissolved oxygen by well mixing the air of 1. with water. 15. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided ahead of the throttle structure portion, and the direction changing portion is provided between the direction changing portion and the throttle structure portion. It is possible to suck air from the outside by the through hole,
The venturi pipe structure portion provided at the rear position of the throttle structure portion sucks air, and the through hole provided in the venturi pipe structure portion sucks air from the outside to suck water from the outside and the air sucked from the outside. The method for activating water according to claim 1, wherein the water can be activated by mixing with and by mixing air with water well to form water containing a large amount of dissolved oxygen. 16. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided in front of the throttle structure portion, and a venturi pipe structure portion is provided at a rear position of the throttle structure portion. Water is made to flow through a throttle structure portion such as a nozzle provided next to the venturi pipe structure portion provided at the rear position of the throttle structure portion in the pipeline, and the water is then provided next to the throttle structure portion such as the nozzle. The water flowing in the direction change portion, then the water is made to flow from the direction change portion to the opening portion, and the air inside is sucked by sucking air from the outside through the through hole provided in the venturi pipe structure portion. 2. A mixture of air sucked from the outside and air to be well mixed with water to be water containing a large amount of dissolved oxygen, which can be activated.
The method for activating water as described. 17. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided in front of the throttle structure portion, and a Venturi tube structure portion is provided at a rear position of the throttle structure portion. A venturi provided at a rear position of the throttle structure portion in the pipeline by providing a mixed portion of water in the pipeline and air in the pipeline between the venturi pipe structure portion and the throttle structure portion such as the nozzle. The water in the pipe provided next to the pipe structure part is made to flow into the mixed part with the air in the pipe line, and the water is then made to flow in the throttle structure part such as the nozzle,
The water then flows into a direction changing portion provided next to the throttle structure portion such as a nozzle, and the water then flows from the direction changing portion into the opening portion to the venturi tube structure portion. A device capable of activating air by sucking air from the outside by mixing the water in the pipe and the air sucked from the outside by the through hole provided, and mixing the air well with the water to make water containing a large amount of dissolved oxygen. 1. The method for activating water according to 1. 18. A collision type air injector consisting of a throttle structure portion such as a nozzle and a direction changing portion located in front of the throttle structure portion, and a venturi pipe structure portion, wherein air sucked at the venturi pipe structure portion and the inside of the pipeline. Water is mixed well, and then a throttle structure portion such as a nozzle is provided at an appropriate position in the pipeline, and a direction changing portion is provided at the tip of the throttle structure portion. The direction changing portion and the throttle structure portion are provided. Through which the air is sucked from the outside, and the venturi pipe structure portion provided at the rear position of the throttle structure portion sucks the air and the through hole provided in the venturi pipe structure portion. By sucking air from the outside by mixing the water in the pipeline with the air sucked from the outside, and mixing the air well with the water, it becomes water containing a large amount of dissolved oxygen and is activated. Activation method of water according to claim 1, wherein the obtaining. 19. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided ahead of the throttle structure portion, and a Venturi tube structure portion is provided at a rear position of the throttle structure portion. The bypass valve can be operated via a bypass pipe having inlets and outlets in front of and behind the Venturi structure part, the amount of water supply is adjusted, and air is sucked from the outside by a through hole provided in the Venturi structure part. 2. The method for activating water according to claim 1, wherein the water in the pipeline is mixed with the air sucked from the outside, and the air is mixed well with the water to be water containing a large amount of dissolved oxygen, which can be activated. 20. A throttle structure portion such as a nozzle is provided at an appropriate position in a pipe line, a direction changing portion is provided ahead of the throttle structure portion, and a Venturi tube structure portion is provided at a rear position of the throttle structure portion. A plurality of air injectors are provided so that a bypass valve can be operated via a bypass pipe having an inlet and a rear of the venturi pipe structure part, and the amount of water supply is adjusted, and the venturi pipe structure part is provided. A method in which water containing a large amount of dissolved oxygen can be activated by sucking air from the outside through the through hole to mix the water in the pipeline with the air sucked from the outside and mixing the air well with the water. Item 2. A method for activating water according to Item 1. 21. A venturi pipe structure portion, a throttle structure portion such as a nozzle, a direction changing portion ahead of the throttle structure portion, and a mixed portion of water in the pipe and air in the pipe, each of which is provided. The parts are connected by pipes connected to each other, a throttle structure part such as a nozzle is provided at an appropriate position in the pipe line, a direction changing part is provided at the tip of the throttle structure part, and at the rear position of the throttle structure part. Providing a venturi pipe structure part, and sucking air from the outside by a through hole provided in the venturi pipe structure part to mix the water in the pipe line with the air sucked from the outside so that the air is mixed well with the water The water containing a large amount of dissolved oxygen can be activated by the above method.
The method for activating water as described. 22. A venturi pipe structure portion, a throttle structure portion such as a nozzle, a direction changing portion ahead of the throttle structure portion, and a mixed portion of water in the pipe and air in the pipe, each of which is provided. The parts are connected to each other by a pipe line connected to each other so that a bypass valve can be operated through the bypass pipe in the venturi pipe structure part, and a throttle structure part such as a nozzle is provided at an appropriate position in the pipe line, and the throttle is formed. A direction changing part is provided at the tip of the structure part, a venturi pipe structure part is provided at the rear position of the throttle structure part, and air is sucked from the outside by the through hole provided in the venturi pipe structure part The method for activating water according to claim 1, which can be activated by mixing with air sucked from the outside so that the air is well mixed with water to be water containing a large amount of dissolved oxygen. 23. A T-shaped pipe is connected to both sides of the Venturi pipe in the three members constituting the activated water producing apparatus consisting of a cylindrical body for mixing air and water, a Venturi pipe and a curved pipe, and a T-shaped pipe is formed by a bypass passage. The pipes are connected to each other, a bypass valve is provided in the bypass passage, and a T-shaped pipe is connected to one opening of the cylinder for mixing the air and water. Connect one opening of the Venturi tube, connect the other opening of the Venturi tube to the inlet of the flow dividing pipe, connect a curved pipe to each of the two outlets of the flow dividing pipe, Is provided with a throttle structure portion such as a nozzle, and a direction changing portion is provided at the tip of the throttle structure portion,
The activated water producing apparatus according to claim 1, wherein a suction port is provided at a side position of the throttle structure portion, and the suction port sucks air from the outside to enable mixing of the air and water.