KR200353888Y1 - Dike suppling oxygen to rivers - Google Patents

Abstract

The present invention relates to a river intake, and more particularly, to a self-powered river intake to increase dissolved oxygen by artificially supplying oxygen to a river, and is installed in a transverse direction of the river to control the amount of river upstream. In the stream blown, the structure is provided with a drain formed on the top corresponding to the flow of the river cut; A fixing rod arranged / fixed in the drain, a rotating shaft portion formed therein and a rotatable shaft portion rotatably connected to the fixing rod via a fixed shaft portion, and a connecting rod formed radially around the fixed shaft portion on an outer circumferential surface of the rotating shaft portion, An aberration consisting of a plate-shaped wing portion attached to an end of the water flow resistance; Two poles are arranged so as to be spaced apart from each other, the permanent magnet is inserted into the space portion to be rotated with the rotational movement of the rotary shaft portion, and the electricity is fixed to both ends of the stator to be disposed between the space of the permanent magnet A power generation unit including a ring and a rectifying unit which is energized with the energizing ring to rectify the electricity induced in the energizing ring; A transformer for transforming electricity introduced from the power generation unit, a charger for charging the rechargeable battery with electricity introduced from the transformer, a rechargeable battery, a pump driven to suck air with electricity supplied from the rechargeable battery, and one end is in communication with the pump. The other end is composed of an exhaust pipe disposed so that the sucked air is exhausted in the water, the bubble generating unit mounted on the inside of the structure;

Description

Dike suppling oxygen to rivers to supply oxygen to rivers

The present invention relates to a river intake report, and more particularly to a self-powered river intake report to increase the amount of dissolved oxygen by artificially supplying oxygen to the river.

River pollution, which is a major problem with industrial development, is an urgent task to be solved quickly. However, there is no special measure other than the method of blocking the inflow of substances directly causing the river pollution, such as waste water and domestic sewage. In addition, because of the intentional or accidental discharge of pollutants once they have been discharged, it was best to wait for the pollutants to be quickly collected or cleaned up.

On the other hand, as the pollution of the river proceeds, the temperature rises and the microorganisms ingesting the pollutant grow significantly, thereby reducing the amount of dissolved oxygen in the river. The decrease in dissolved oxygen leads directly to the reduction of aquatic life, which leads to a vicious cycle of pollution. Therefore, when a river is polluted, oxygen must be supplied with the removal of pollutants.

Therefore, there is a demand for a technology capable of continuously supplying oxygen to a frequently polluted area. However, in order to artificially supply oxygen to a river, there must be an electricity supply capable of driving a pump for oxygen supply. In the upstream of a river or an inland region where electricity cannot be easily supplied, wires must be drawn downstream or from outside. There was an inconvenience, and there was a problem of the cost of using public power.

Therefore, the present invention was devised to solve the above problems, and can be used semi-permanently without separate power supply because it is installed in upstream rivers or in frequent rivers of inland mountainous region, and due to continuous oxygen supply to the rivers Its purpose is to provide a self-generating stream intake that supplies oxygen to the streams to help prevent pollution and clean up polluted streams.

1 is a view showing the installation of the river blown according to the present invention,

Figure 2 is an exploded view showing the rotating shaft portion of the aberration according to the present invention,

3 is a partial cross-sectional view taken along the line AA ′ of FIG. 1.

-Explanation of terms for main parts of attached drawings-

10; River injection report 100; aberration

110; Rotary shaft 120; Wing

121; Connecting rod 130, 130 '; Fixture

131, 131 '; Fixed shaft portions 141, 142; Waterproof member

150; Rectifier 161, 161 '; Permanent magnet

162; Current ring 163; Energizing member

200; Structures 210 and 210 '; waterspout

300; Bubble generators 301 and 302; tube

303; Through cover 304; Waterproof barrier

305, 306; Bush 310, 310 '; Transformers

320; Charger 330; Rechargeable battery

340; Pumps 341, 342; vent pipe

342a; Exhaust ports 351 and 351 '; First energizing member

352; Second conducting member 353; suction

354, 354 '; Electric wire member

The present invention to achieve the above object,

In the river blow-in beam of the structure installed in the cross direction of the river to control the amount of stream upstream,

The structure has a drain formed on its top incision corresponding to the direction of the stream;

A fixing rod arranged / fixed in the drain, a rotating shaft portion formed therein and a rotatable shaft portion rotatably connected to the fixing rod via a fixed shaft portion, and a connecting rod formed radially around the fixed shaft portion on an outer circumferential surface of the rotating shaft portion, An aberration consisting of a plate-shaped wing portion attached to an end of the water flow resistance;

Two poles are arranged so as to be spaced apart from each other, the permanent magnet is inserted into the space portion to be rotated with the rotational movement of the rotary shaft portion, and the electricity is fixed to both ends of the stator to be disposed between the space of the permanent magnet A power generation unit including a ring and a rectifying unit which is energized with the energizing ring to rectify the electricity induced in the energizing ring; And

A transformer for transforming electricity introduced from the power generation unit, a charger for charging the rechargeable battery with electricity introduced from the transformer, a rechargeable battery, a pump driven to suck air with electricity supplied from the rechargeable battery, and one end is in communication with the pump and the other end Is composed of an exhaust pipe is disposed so that the intake air is exhausted in the water, the bubble generating unit mounted on the inside of the structure;

It is made up of.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the installation of the river blown in accordance with the present invention, Figure 2 is an exploded view showing the rotation axis of the aberration according to the present invention will be described with reference to this.

The present invention is installed in the cross direction of the river to manage the quantity of the stream upstream and thereby the river intake with a structure to make useful use of water resources, the aberration (100) and the aberration (100) rotated by the force of the river It is composed of a power generation unit for converting the rotational energy of the electric energy, and the bubble generator 300 for sucking air from the outside to exhaust the water from the outside by using the electricity supplied from the power generation unit as a power source.

When the aberration 100 divides the stream into the upstream and the downstream of the structure 200, the aberration is to be rotated by the flow of the river water flowing from the upstream and discharged downstream through the structure 200. To this end, the aberration 100 is a rotating shaft that is rotated through the fixing rods 130, 130 'for fixing with the structure 200, and the fixed shaft portion 131, 131' of the fixing rods 130, 130 ' Part 110, a connecting rod 121 formed radially on the outer surface of the rotating shaft portion 110 with respect to the connection point of the fixed shaft portion (131, 131 ') and the rotating shaft portion 110, and the connecting rod 121 It consists of a wing 120 attached to the end.

Meanwhile, in order to increase the rotational force of the aberration 100 as much as possible, the aberration 100 such that the river water flowing from the upstream to the downstream about the structure 200 is concentrated to a specific position, that is, the aberration 100 is disposed. It is preferable to form a separate drain hole 210 by partially cutting the upper portion of the structure 200 is disposed. Due to this, the river water will use the drain 210 as much as possible to flow from the upstream to the downstream through the structure 200, and the aberration 100 disposed in the drain 210 is as much as possible due to the concentration of the river water concentrated. It has a high kinetic energy.

Subsequently, the fixing rods 130 and 130 'are disposed to face each other at both upper ends of the drain holes 210, and the fixing shaft portions 131 and 131' are protruded from the opposite surfaces thereof. At this time, the fixed shaft portion (131, 131 ') is rotatably inserted into both sides of the rotating shaft portion 110, respectively, to minimize the friction force generated when the rotating shaft portion 110 rotates to block the inflow of river water It is preferable that the waterproof member (141, 142) also serves as a bearing.

The rotating shaft portion 110 is a cylindrical portion formed in the inner space and both sides are connected to the fixing rods (130, 130 '), respectively. On the other hand, the cover 111 has a through-hole formed so that the waterproof member 142 and the fixed shaft portion 131 is inserted and fixed, and serves to open and close the opened one surface of the rotary shaft portion 110. Permanent magnets 161 and 162 necessary for power generation are interpolated into the space part, and the cover 111 may be further functionally included to allow the permanent magnets 161 and 162 to enter and exit.

The connecting rod 121 and the wing 120 are disposed along the outer circumferential surface of the rotating shaft 110 so as to be resistant to the force of the river water. That is, the connecting rod 121 having the wing 120 attached to the other end is radiated about the fixed shaft portions 131 and 131 ′, while the river water pushes the wing 120 to rotate the shaft portion 110. ) Can be rotated.

Solid lines in FIG. 1 indicate the direction of the stream water flowing from the upstream, and the dotted line indicates the rotation direction of the aberration 100 according to the direction of the river water.

The power generation unit is composed of permanent magnets (161, 161 '), the energizing ring 162, and the rectifier 150.

The permanent magnets 161 and 161 'generate a magnetic field in a predetermined space, and are inserted into the space portion of the rotating shaft part 110 and rotate together with the rotation of the rotating shaft part 110. In this case, the permanent magnets are spaced apart from each other to face two polarities having different polarities such that a constant magnetic field is generated in the space.

The energizing ring 162 is disposed inside the permanent magnets 161 and 161 'and rotates relatively according to the rotation of the permanent magnets 161 and 161'. Thus, an induced current is generated in the energizing ring 162. do. On the other hand, the energizing ring 162 is connected to the rectifying unit 150 via a conducting member, the generated induced current flows into the rectifying unit 150.

The rectifier 150 converts an induction current flowing in an alternating current into a direct current and rectifies the flow of current, and a structure of a well-known direct current generator may be applied as it is, and a detailed description of the rectifier 150 is omitted here. do.

As a result, the stream water introduced from the upstream rotates the aberration 100 through the wing 200, and the aberration 100 rotated in this way is the permanent magnets 161 and 161 'built in the rotation shaft 110. Rotate to generate an induction current in the energizing ring 162, the induced current is introduced into the rectifier 150 is rectified to a DC current.

FIG. 3 is a view showing a partial cross section taken along line AA ′ of FIG. 1, which will be described with reference to FIG.

A predetermined space is formed inside the structure 200, and a bubble generator 300 is mounted in the space to exhaust air into the water of the river.

The bubble generator 300 includes a transformer 310, 310 ′, a charger 320 for charging the rechargeable battery 330 with electricity provided from the transformer 310, 310 ′, a rechargeable battery 330, and a rechargeable battery 330. It is composed of a pump 340 for sucking and exhausting air from the outside using electricity provided from the power supply as a power source. In addition, exhaust pipes 341 and 342 disposed in the water to exhaust the air discharged from the pump 340 into the water of the river are further included.

The transformers 310 and 310 ′ receive the electricity supplied from the power generation unit, transform the voltage into a voltage required for driving the charger 320, and continuously supply the same.

The charger 320 and the rechargeable battery 330 are driven by receiving electricity supplied from the transformers 310 and 310 ′, and stably supply the electricity required to drive the pump 340. In general, the charger 320 and the rechargeable battery 330 may be variously modified, and its internal structure is not a right scope of the present invention, so a detailed description thereof will be omitted.

The pump 340 is to suck the air from the outside to exhaust the water through the exhaust pipes 341 and 342, and generally can be applied to any device having a structure that can suck and discharge the air, specific to this The description will also be omitted here.

The exhaust pipes 341 and 342 are connected in communication with the pump 340 to perform a passage function so that the air provided from the pump 340 in the water can be exhausted in the form of bubbles. Therefore, a plurality of exhaust pipe lines may be formed according to the capacity of the pump 340 to allow air to be supplied in a wider range. Meanwhile, a plurality of exhaust ports 342a are formed in the exhaust pipes 341 and 342, and bubbles having a minimized diameter are discharged thereto.

On the other hand, the suction pipe 353 is to communicate the outside with the pump 340 so that the pump 340 mounted on the structure 200 can suck the air.

Unexplained withdrawal symbols "301" and "302" is a tube to protect the conductive wire member 354, 354 'conducting electricity flowing from the power generation unit 150 to the transformer 310.

Unexplained withdrawal symbols "305" and "306" are bushes.

Unexplained withdrawal symbol "303" is a through-cover, is mounted in the structure 200 so that the bubble generation unit 300 is mounted so as not to be exposed in appearance to allow the communication with the outside, breakage to the bubble generation unit 300 Objects capable of applying the protection protect the components of the bubble generator 300 from being damaged.

Unexplained withdrawal code "304" is a waterproof blocking plate, even if the river water flows into the bubble generating unit 300 through the through cover 303 while passing over the upper surface of the structure 200 to the bubble generating unit 300 inside Block from flooding.

Unexplained withdrawal numerals "351" and "351 '" are first conducting members, and energize the transformers 310 and 310' and the charger 320 with each other.

Unexplained withdrawal code "352" is a second conducting member, and the rechargeable battery 330 and the pump 340 are energized with each other.

According to the present invention as described above, it is generated by using the power of the naturally generated river water, the electricity generated in this way by charging the rechargeable battery and using the air as a power source of the pump that sucks air from the outside and exhausts it underwater, As long as it does not occur, it can be used semi-permanently without a separate power supply and frequent management is unnecessary. Therefore, it provides continuous oxygen supply to rivers in areas where mountain power is difficult to draw power, such as mountainous inland areas, or rivers in wet-contaminated areas. Purification of polluted rivers is possible.

Claims (1)

In the river blow-in beam of the structure installed in the cross direction of the river to control the amount of stream upstream, The structure has a drain formed on its top incision corresponding to the direction of the stream; A fixing rod arranged / fixed in the drain, a rotating shaft portion formed therein and a rotatable shaft portion rotatably connected to the fixing rod via a fixed shaft portion, and a connecting rod formed radially around the fixed shaft portion on an outer circumferential surface of the rotating shaft portion, An aberration consisting of a plate-shaped wing portion attached to an end of the water flow resistance; Two poles are arranged so as to be spaced apart from each other, the permanent magnet is inserted into the space portion to be rotated with the rotational movement of the rotary shaft portion, and the electricity is fixed to both ends of the stator to be disposed between the space of the permanent magnet A power generation unit including a ring and a rectifying unit which is energized with the energizing ring to rectify the electricity induced in the energizing ring; And A transformer for transforming electricity introduced from the power generation unit, a charger for charging the rechargeable battery with electricity introduced from the transformer, a rechargeable battery, a pump driven to suck air with electricity supplied from the rechargeable battery, and one end is in communication with the pump and the other end Is composed of an exhaust pipe is disposed so that the intake air is exhausted in the water, the bubble generating unit mounted on the inside of the structure; Self-powered stream blower to supply oxygen to the river, characterized in that consisting of.