KR101367005B1 - An ecology river - Google Patents

Abstract

The present invention is to maintain a certain amount of water in the river and to form a freshwater reservoir with fish and aquatic plants and to have the self-cleaning ability of contaminants, and buffer water storage that flows rapidly into the regular generation and rainwater by the river water In order to prevent the loss of the lower part of the dike when the level of freshwater reservoir is raised.
That is, the present invention, in the river, forming a wall of the water at regular intervals in the river to form a fresh water reservoir having a certain level at equal intervals, and the freshwater river reservoir is equipped with a freshwater reservoir is an ecological river provided with fresh water reservoir Form the
In an ecological river equipped with freshwater river reservoir, the reservoir is provided with a power generation reservoir having an esophagus at 500 to 10,000m intervals.
In an ecological river provided with freshwater reservoir, the antistatic ground reservoir is formed on the outer side of the dike formed on both sides of the freshwater reservoir.
Therefore, the present invention forms a fresh water reservoir at a predetermined interval in the river to form a fresh water reservoir at a certain level in the river, so that the fish and plants are always inhabited, and the eco-friendly river that absorbs organic matter and cleanses the pollutants midnight. Formed,
By providing a power generation support having fishes at regular intervals in the rivers with freshwater reservoirs, it is possible to carry out power generation in the rivers at all times, and the rainwater flowing into the rainy season is buffered and stored.
When the water level rises in the freshwater stream reservoir, the antistatic ground reservoir stores the river water to support the water pressure acting on the lower part of the bank to prevent the loss of the lower part of the bank. To be prevented.

Description

An ecology river

The present invention relates to a multi-functional ecological river, and more particularly, to form an ecological river in which the freshwater reservoirs having a predetermined level are formed at equal intervals by forming a water order wall at a predetermined interval, and the water level interlocking gate is formed on the water order wall. By forming a fresh water reservoir at a certain level in the river, fish and aquatic plants can be inhabited at all times, and also to create an eco-friendly river that absorbs organic matter and purifies pollutants. The purpose is to make the sediment discharge smoothly from the bed.

Another object of the present invention is to provide a power generation reservoir having a fishery at intervals of 500 ~ 10,000m in an ecological river equipped with freshwater river reservoir to form a power generation reservoir, so that the constant power generation is made at a constant water level It aims to secure the amount of electricity generated through the power generation report and to store the amount of water sequentially from the upstream to buffer the sudden inflow of rainwater.

Still another object of the present invention is to form a deterrent support reservoir on the outer side of the embankment formed on both sides of the freshwater reservoir, so that when the water level of the desalination reservoir rises to the bank, the river water of the deep reservoir is introduced into the deterrent reservoir. The purpose is to support the loss of the embankment.

Generally, rivers are rich in fish and plants.

As mentioned above, rivers inhabiting various fishes and aquatic plants fluctuate according to the amount of precipitation.

In addition, the river has a small amount of precipitation, even though the water does not flow, Shenzhen is formed on the bottom of the river to maintain the flow of water.

On the other hand, as mentioned above, water is maintained at a certain level to maintain the habitat environment of fish and aquatic plants even in the rainy season where the precipitation is small.

In addition, on both sides of the river, a bank having a height higher than that of the river is installed to prevent the bank collapse due to the flooding of the river water during the rainy season.

However, there is a problem in that it is not easy to maintain the proper level in the dry season without the installation of a beam for maintaining a certain level in the river as described above, the fish is impossible to grow as the water level is lowered.

In addition, most of the existing rivers are exposed to the bottom during the dry season, so there is a problem in the survival of the fish.

In addition, the rivers as described above can not store the rainwater flowing in large quantities to the rainwater flows directly to the downstream or if the rainwater flows in excess of the capacity of the river, the loss of soil from the leakage from the bottom of the dike occurs, There was a problem of collapse.

Therefore, the present invention as described above, the problem that the river and the habitat environment of fish and plants in the dry season as the above-mentioned problems and the problem that does not maintain sufficient low water, can not accommodate the rainwater flowing into the rainwater, if the capacity exceeds the embankment This is to solve the problem of the loss collapse from the bottom.

That is, the present invention relates to the formation of freshwater reservoirs having a constant water level at equal intervals by forming order walls at a predetermined interval in the stream.

In addition, the present invention is provided with a power generation unit having an esophagus with an interval of 500 ~ 10,000m in an ecological river provided with fresh water reservoir.

In addition, the present invention is to form the antistatic ground reservoir on the outer side of the embankment is formed on both sides of the ecological river provided with fresh water reservoir.

Therefore, the present invention forms a fresh water reservoir at a predetermined interval in the river to form a fresh water reservoir at a certain level in the river, so that the fish and plants are always inhabited, and the eco-friendly river that absorbs organic matter and cleanses the pollutants midnight. It is formed.

In addition, the present invention by having a power generation support having a fishery at a predetermined interval in the river provided with fresh water reservoir, it is possible to generate power in the river at all times and the rainwater flowing into the rainy season is buffer storage.

In addition, the present invention by forming a deterrent prevention reservoir on the outer side of the bank with a freshwater reservoir, the deterrent support reservoir to store the river water when the water level rises to support the water pressure acting on the lower part of the bank Loss of the underside of the bank is prevented.

1 is a side cross-sectional view showing an embodiment according to the present invention.
Figure 2 is a side cross-sectional view showing that a freshwater shallow water gate on the water barrier wall in another embodiment according to the present invention.
3 shows an exemplary perspective view of the order wall according to FIG. 2;
4 is an exemplary side cross-sectional view of the order wall according to FIG. 2;
Figure 5 is an exemplary view of the opening process of freshwater cheonsu gate and freshwater cheonsu assistant gate in accordance with the present invention.
Figure 6 is an exemplary view of the closing process of freshwater cheonsu gate and freshwater cheonsu assistant gate in accordance with the present invention.
Figure 7 is an illustration of the forced opening of freshwater spring gate according to the present invention.
Figure 8 is a side cross-sectional view showing that the power generating section with another embodiment according to the present invention.
9 is an exemplary perspective view of a power generating unit according to the present invention.
10 is a detailed side cross-sectional view of the power generating beam according to the present invention.
Figure 11 is a cross-sectional view illustrating an example of a power generation opening process of a development beam according to the present invention.
12 is an exemplary side cross-sectional view of an airway opening process of a development beam according to the present invention.
Figure 13 is an illustration of the forced opening of the power generating beam according to the present invention.
14 is a cross-sectional view showing an example equipped with an ecological block according to another embodiment of the present invention.
15 is an illustrative perspective view of an ecological block in accordance with the present invention;
Figure 16 is an exemplary sectional view showing another embodiment according to the present invention having an antistatic index reservoir.
FIG. 17 is a cross-sectional view illustrating an antistatic paper process by storage of an antistatic finger storage unit according to FIG. 16; FIG.
18 is an exemplary view showing a side having a myelin sheath as another embodiment according to the present invention.
19 is a side cross-sectional view showing an example of another embodiment according to the present invention.
20 is an exemplary opening process of the freshwater cheonsu gate and freshwater cheonsu gate according to FIG.
21 is a perspective view illustrating a barrier wall according to another embodiment according to the present invention.
22 is a side cross-sectional view showing an example of another embodiment of the present invention.
FIG. 23 is a view illustrating an opening process of the freshwater cheonsu gate and the freshwater cheonsu gate according to FIG.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is to maintain a certain amount of water in the river and to form a freshwater reservoir with fish and aquatic plants and to have the self-cleaning ability of contaminants, and buffer water storage that flows rapidly into the regular generation and rainwater by the river water And to prevent the loss of the bottom of the embankment when the water level rises in freshwater reservoir.

That is, the present invention is provided with a fresh water reservoir 11, which is separated from the order wall 100 provided at a predetermined interval on the river as shown in FIG. 1 and forms a step toward the downstream side.

2 to 6, when the water level rises as shown in FIGS. 2 to 6, the water level is interlocked so as to maintain the flow of water from the upstream freshwater reservoir 11 to the downstream freshwater reservoir. It can be performed with a sluice gate.

2 and 3 and 4, the water level interlocking gate is a fresh water spring gate 121 and the fresh water spring gate 121, the upper end of which is hinged to the order wall body 110 and is opened by water pressure. Water level interlocking in accordance with the rotation of the hydrological sheet 111 formed in the curvature corresponding to the rotational curvature of the freshwater spring gate 121 and the freshwater spring gate 121 provided at the lower side of the freshwater spring gate 121 It consists of freshwater spring auxiliary sluice 131 that is interlocked by the opening means.

The water level interlocking opening means is an auxiliary sluice protection type tooth portion 132, the partial teeth 132a is formed on the order wall body 110, and protruded from the hinge side of the freshwater shallow water gate 121, the auxiliary sluice protection type teeth 132 Auxiliary sluice driving gear 133 to be engaged with), an auxiliary sluice rope 134 wound around the auxiliary sluice driving gear 133 to open the freshwater shallow auxiliary gate 131, and the opening of the freshwater squid gate 121 Sluice lock key 141 and freshwater spring are inserted into the fixed groove 131a formed in the freshwater spring auxiliary sluice 131 by its own weight to maintain an open state of the freshwater spring auxiliary sluice 131 When the door 121 is closed by the auxiliary sluice driving gear 133 in the closing process, and the freshwater shallow water gate 121 is completely closed, the hydrostatic fixing key 141 is pulled and pulled out of the fixing groove 131a to remove the freshwater spring auxiliary floodgate. It consists of the key release rope 142 which makes 131 close.

On the other hand, the auxiliary sluice rope 134 and the key release rope 142 released in the open state of the freshwater sluice gate 121 in the open and maintained state of the freshwater spring auxiliary sluice 131 are respectively provided to the weight pulley 151. The sag is absorbed by.

In addition, in the practice of the present invention, as shown in Figure 7 can be carried out by having a freshwater spring gate opening means to artificially open the freshwater spring gate 121 in the rainy season to facilitate the discharge of rainwater. will be.

The freshwater spring gate opening means is a manual operation tool or an electric motor such as a worm gear and an electric coupling means to selectively open and open the freshwater spring gate hinge shaft 121a by the clutch 122b as shown in FIG. 7A. It can be carried out by having a freshwater spring gate forced opening (122a) made of any one of the electric operation tool such as.

Another embodiment of the freshwater shallow water gate opening means is to form the opening and closing guide hole 172a for restraining the opening and closing hinge 173 provided in the freshwater spring gate 121 as shown in Figure 7b the freshwater spring gate 121 Freshwater Thousand Opening / closing Hydraulic Actuator (172), which is fixed to the freshwater gate opening / closing link (172) that is constrained, and constrains the Freshwater Thousand Gate opening / closing link (172) to open and close the freshwater spring gate (121). 171) can be implemented.

On the other hand, in the practice of the present invention as shown in Fig. 19 and 20, the water level interlocking gate is a fresh water spring gate 121, the upper end of which is hinged to the order wall body 110 is opened by water pressure and According to the rotation of the freshwater spring gate 121 provided on the lower side of the freshwater spring gate 121 is composed of a freshwater spring auxiliary floodgate 131 that is interlocked by the water level interlocking opening means.

The water level interlocking opening means that the hydrological buoyancy body 181 and the hydrological buoyancy body 181 on the upper side of the freshwater spring gate 121 when the buoyancy rises to a certain height to pull open the freshwater shallow water gate 121 It can be implemented by the draw bar 182.

Meanwhile, in the embodiment of the present invention, as shown in FIGS. 21 and 23, the water level interlocking gate is towed by the upper end of the rope to the towing elevating motor 135 provided at the upper end of the order wall body 110. The fresh water interlocked by the water level interlocking opening means according to the rotation of the freshwater spring gate 121 and the freshwater spring gate 121 provided at the lower side of the freshwater spring gate 121 are opened and operated by the lifting motor 135. Thousands of auxiliary floodgates (131).

The water level interlocking opening means that the hydrological buoyancy body 181 and the hydrological buoyancy body 181 on the upper side of the freshwater spring gate 121 when the buoyancy rises to a certain height to pull open the freshwater shallow water gate 121 It can be implemented by the draw bar 182.

In addition, in the practice of the present invention, as shown in Figures 8 to 10 is to provide a power generation reservoir having a power generation in the ecological river equipped with the freshwater reservoir reservoir at intervals of 500 ~ 10,000m to form a power storage reservoir. .

The power generation unit 200 is provided on both sides of the power generation unit 211 and the power generation unit 211 provided in the central portion of the river as shown in Figures 9 and 10 to support the opening and closing of the power generation unit 211 The holding wall 220, the power generation channel 231 provided below the holding wall 220, the power generation gate 232 provided in the power generation channel 231, and the holding wall wall ( 220, which is provided on the upper side of the power generation opening means for opening the power generation sluice 232 in conjunction with the water level, and the esophagus 241 is formed in the center of the holding wall 220 to form a passage through which the fish can move It is composed of.

Hydroelectric generator 233 that is generated by the water drained on the downstream side of the power generation channel 231 is provided.

The power generation gate opening means is lowered by the load of the water overflowed through the power generation operation channel 234 and the power generation operation channel 234 in which fresh water flows over a certain level to the upper side of the retaining wall 220. It is composed of a power generation sluice opening bucket 235 that is rope-bonded to be operated to open the power generation sluice 232 and formed lighter than the power generation sluice 232.

On the other hand, the waterway 241 may be provided with a waterway door 242 and the waterway door opening means for opening the waterway door 242 to open the water level, wherein the waterway opening means is a holding wall Freshwater flows to the upper side of the fresh water flows over a certain level, the water flows through the waterway flow channel 243 and the water flow through the waterway flow passage 243 is lowered by the load of the water flowing through the water gate 242 opening operation Rope-bound to be able to be made is composed of a waterway open water container 244 formed lighter than the waterway door 242.

The waterway open water bucket 244 and the power generation water open water bucket 235 are each when the water inflow into the waterway is not the water gate open drainage hole 251 to allow the natural water is discharged so that each waterway is closed in its own It is formed on the side.

Meanwhile, in the embodiment of the present invention, as shown in FIG. 13, a power generation hinge provided at a lower side of the power generation unit 211 on one side of the holding wall 220 to forcibly open the power generation unit 211 in the rainy season. In order to rotate the shaft 211a, a power reinforcement reinforcement opening 212 made of any one of a manual operation tool such as a worm gear and an electric engagement means or an electric operation tool such as an electric motor can be provided.

In addition, in the practice of the present invention, as shown in FIGS. 14 and 15, the ecological block is laid on the freshwater reservoir to form a layered stone 12 to prevent the loss of the sidewall and the river, and the layered stone ( 12) and can be carried out by forming a space so that Shenzhen (13) is formed between the lower bed.

As shown in FIG. 15, the ecological block is passed through the bottom in all directions, and the vegetation hole for the vegetation of plants is formed in the upper surface.

In addition, in another embodiment of the present invention, as shown in Fig. 16 and 17, the antistatic ground water reservoir 310 is formed on the outer side of the embankment 1 formed on both sides of the fresh water reservoir 11, A river water supply well 330 formed at the same depth as the bottom of the river is formed on the river blunt 2, and the river water inflow well 320 formed at the same depth as the bottom of the river is formed at the deterrent index reservoir 310. The stream water supply well 330 and the stream water inlet well 320 are formed to be connected to the river water flow hose 340.

The stream canal hose 340 is buried to the top of the embankment.

On the other hand, the antistatic ground reservoir 310 may be provided with a buoyancy lifting dilution portion support wall 350 that is adjusted in height by buoyancy increases in accordance with the level of the river water introduced into the river water inlet well 320.

In addition, in the practice of the present invention, as shown in Figure 18 can be carried out by having a myelin sheath island 410 configured to float on the water surface by the panda graft 420, which is elevated by the water level interlocking towing means in the river It is.

The water level interlocking tow means is provided with a towing structure 431 on one side of the towing object and tow to form a tow water channel (431a) for discharging fresh water for towing at a certain level of the tow object to the tow structure 431 And, the downstream side of the traction structure 431 is provided with a traction bucket 432 to drop the water drained through the traction channel 431a and induces traction, the traction bucket 432 is a rope It is configured to be connected to the towing object, the lower portion of the tow bucket 432 is a recovery drain hole (432a) is discharged to a certain amount of water contained therein is formed.

Hereinafter, the process of the present invention will be described.

As described above, when the present invention is applied to the river having a fresh water reservoir 11 separated from the water-order wall 100 provided at regular intervals on the river, the ecological river is formed, a sudden increase in the quantity due to heavy rain. City fresh water reservoir 11 is absorbed by the water level is minimized to ensure the safety of the embankment.

In addition, in the practice of the present invention, as shown in Figures 2 to 4 and 5 and 6, the water level wall 100 is a water level consisting of a freshwater shallow water gate 121 having a freshwater spring auxiliary gate 131. When implemented with an interlocking sluice, the auxiliary sluice driving gear (132) by the auxiliary sluice protection type protection part 132 by the rotational operation of the freshwater shallow water gate 121 as shown in FIG. 133 is rotated by winding the secondary hydrological rope 134, when the freshwater stream auxiliary gate 131 is opened and the continuous water flows to increase the water pressure acting on the freshwater stream gate 121 further increases the freshwater stream gate 121 This leaves the sluice sheet 111 so that the actual freshwater spring is opened.

In addition, when the amount of water flowing in the open state of the freshwater shallow water gate 121 is reduced, the freshwater shallow water gate 121 is closed as shown in FIG. 6, and the auxiliary hydrological driving gear 133 is the secondary hydrological protection type teeth 132. ), And the auxiliary hydrological rope 134 wound up is released, but is operated by its own weight in the process of opening the freshwater shallow water gate 121 by tilting it to restrain the freshwater spring auxiliary floodgate 131 by being inserted into the fixing groove 131a. When the fixed state of the sluice lock key 141 is maintained so that the freshwater stream auxiliary gate 131 is not closed, and the freshwater stream auxiliary gate 131 is not closed, the freshwater stream gate 121 is not subjected to flow velocity resistance. It is closed.

At this time, the hydrologic fixing key 141 is pulled by the key release rope 142 wound up in the closing process of the freshwater spring gate 121 and is separated into the fixing groove 131a of the freshwater spring auxiliary gate 131, thereby supporting the freshwater spring. The water gate 131 is to be closed.

On the other hand, the auxiliary sluice rope 134 and the key release rope 142 released in the open state of the freshwater sluice gate 121 in the open and maintained state of the freshwater spring auxiliary sluice 131, respectively, to the weight pulley 151 The sag is absorbed by.

As the river water level rises as described above, the freshwater stream auxiliary sluice 131 is opened to maintain the flow of water from the riverbed, so that the riverbed of the freshwater river reservoir 11 is kept clean and flows into the freshwater river reservoir 11. When the number of freshwater springs 121 is opened and is actively operated according to the inflow of water to maintain the flow of water from the upstream freshwater reservoirs 11 to the downstream freshwater reservoirs 11.

In addition, in the practice of the present invention, as shown in Figures 8 to 12 is applied to the present invention formed a power generation reservoir by having a power generation section at intervals of 500 ~ 10,000m in an ecological river provided with the fresh water reservoir. In this case, the power generation gate 232 is opened by the power generation gate opening means, and the power generation is performed, and the fish 241 is opened by the air gate opening means, thereby allowing the movement of meat freely.

On the other hand, in the practice of the present invention is provided with a freshwater spring opening means as shown in Figure 7 and the development reinforcement opening 212 as shown in Figure 13, freshwater spring gates in the rainy season, such as the rainy season By safely opening the 121 and the power generation unit 211, the water can be smoothly passed.

In addition, in the practice of the present invention, as shown in Figure 19 and 20, the water level interlocking gate is a fresh water spring gate 121 and the upper end is hinged fixed to the order wall body 110 is opened by water pressure and the According to the rotation of the freshwater spring gate 121 provided at the lower side of the freshwater spring gate 121, the freshwater spring auxiliary gate 131 is opened and interlocked by the water level interlocking opening means, and the water level interlocking opening means is freshwater spring water. The hydrological buoyancy body 181 and the hydrological buoyancy body 181 on the upper side of the door 121 is composed of a hydrological opening and closing dog bar 182 to pull open the freshwater spring gate 121 when buoyancy rises to a certain height When implemented, the freshwater shallow water gate 131 is buoyancy lifting open by the hydrological buoyancy body 181.

In addition, as shown in FIGS. 14 and 15 of the present invention, when the layered stone 12 is formed in the fresh water reservoir 11 to be spaced apart from the lower bed to form Shenzhen 13, the habitat of the fish and the vegetation of plants The space is formed and the river has a natural purification process.

In addition, water is stored in Shenzhen 13 formed in the lower part of the layered stone tank 12 without evaporation during the dry season to maintain the habitat of the fish and the water plants.

In addition, as shown in FIGS. 16 and 17, when the antistatic ground water reservoir 310 is formed on the outer side of the bank 1 formed on both sides of the freshwater reservoir 11, the freshwater reservoir 11 is provided. When the water level of the up to the dike (1) rises, the river water from the river water supply well (330) flows into the river water inflow well (320) and is stored in the deterrent ground water reservoir (310) and the fresh water By forming a support water pressure against the water pressure of the water reservoir 11 side, the collapse is prevented by the outflow of the soil from the lower bank (1).

In addition, in the practice of the present invention, as shown in Figure 18, if the river is equipped with a myelin island 410 configured to float on the surface by the panda graphft 420 is elevated by the water level interlocking means; In accordance with the water level of the river, the myelin sheath 410 is raised and inhabited to purify the water quality of the river.

1: levee 2: blunt
11 Freshwater Reservoir 12 Double Stones 13 Shenzhen
100:
110: body wall body 111: watermark sheet
121: freshwater spring gate 121a: freshwater spring gate hinge
122a: freshwater spring gate forced opening 122b: clutch
131: freshwater spring auxiliary gate 131a: fixed groove
132: auxiliary hydrological protection type teeth 132a: partial teeth
133: auxiliary hydro-driven gear
134: auxiliary hydro rope 135: towing motor
141: hydro lock key 142: key release rope
151: weight pulle
171: Freshwater Thousand Opening Hydraulic Actuator
172: freshwater spring gate opening and closing link 172a: opening and closing guide hole
173: opening and closing hinge
181: hydrological buoyancy body 182: hydrological opening and closing bar
200: development supplement
211: Development Report 211a: Development Support Axis
212: Development reinforcement opening
220: support wall
231: Power generation channel 232: Power generation hydro
233: hydroelectric generator 234: power plant
235: Power generation hydro open bucket
241: Fish 242: Fish Gate
243: Edo-dong dongsu-ro 244: Edo-rogate open water bucket
251: open water drainage
310: antistatic ground water reservoir 320: river water inflow well
330: water supply well 340: water flow hose
350: buoyant lifting diligent support wall
410: myelin island
420: Panther Graphift
431: Traction structure 431a: Traction channel
432: towing bucket 432a: restoration drainage

Claims (12)

In rivers;
It is provided with fresh water reservoirs separated from the order walls 100 provided at regular intervals on the lower side and forming a stairway to the downstream side.
The water level wall 100 is provided with a water level interlocking gate to maintain the flow of water from the upstream freshwater reservoir to the downstream freshwater reservoir when the river level rises,
The water level interlocking gate is the upper curvature of the rotational curvature of the fresh water spring gate 121 and the fresh water spring gate 121 at the lower portion of the fresh water spring gate 121 and the top is hinged to the water wall body 110 is opened by water pressure Freshwater spring auxiliary sluice which is interlocked and opened by the water level interlocking opening means according to the rotation of the freshwater sheet 111 formed at the curvature corresponding to the curvature sheet 111 and the freshwater spring gate 121. 131) multifunctional ecological river, characterized in that consisting of.

The method of claim 1, further comprising:
The water level interlocking opening means is an auxiliary sluice protection type tooth portion 132, the partial teeth 132a is formed on the order wall body 110, and protruded from the hinge side of the freshwater shallow water gate 121, the auxiliary sluice protection type teeth 132 Auxiliary sluice driving gear 133 to be engaged with), an auxiliary sluice rope 134 wound around the auxiliary sluice driving gear 133 to open the freshwater shallow auxiliary gate 131, and the opening of the freshwater squid gate 121 Sluice lock key 141 and freshwater spring are inserted into the fixed groove 131a formed in the freshwater spring auxiliary sluice 131 by its own weight to maintain an open state of the freshwater spring auxiliary sluice 131 When the door 121 is closed by the auxiliary sluice driving gear 133 in the closing process, and the freshwater shallow water gate 121 is completely closed, the hydrostatic fixing key 141 is pulled and pulled out of the fixing groove 131a to remove the freshwater spring auxiliary floodgate. A teapot characterized by consisting of a key release rope (142) for closing (131) Twill ecological river.
The method of claim 1, further comprising:
Multi-functional ecological river, characterized in that the fresh water spring gate opening means for artificially opening the fresh water spring gate 121 in the rainy season to facilitate the discharge of rainwater.
4. The method of claim 3, further comprising:
The freshwater spring gate opening means
Freshwater spring gate forcing made of either a manual operation tool such as a worm gear and an electric engagement means or an electric operation tool such as an electric motor to selectively open and open the freshwater spring hinge shaft 121a by the clutch 122b. With the provision 122a,
The freshwater shallow water gate opening and closing link 172 which binds the freshwater shallow water gate 121 to form an opening and closing guide hole 172a for restraining the opening and closing hinge 173 provided in the freshwater shallow water gate 121 and the water body wall body 110 Multi-functional ecological river, characterized in that the selection of any one consisting of a freshwater stream opening and closing hydraulic actuator 171 that is fixed to the confinement of the freshwater stream opening and closing link 172 to open and close the freshwater spring gate 121 .
The method of claim 1, further comprising:
In the ecological river equipped with the freshwater river reservoir is provided with a power generator having a fishing space at intervals of 500 ~ 10,000m to form a power generation reservoir,
The power generation unit 200 is provided on both sides of the power generation unit 211 and the power generation unit 211 provided in the central portion of the river holding wall 220 to support opening and closing the power generation unit 211, and the beam A power generation channel 231 provided below the support wall 220, a power generation gate 232 provided in the power generation channel 231, and a power generation gate provided at an upper side of the holding wall 220. And a waterway 241 which is formed at a central portion of the holding wall 220 to form a passage through which fish can move, and the power generation channel 231. Multi-functional ecological river, characterized in that the hydroelectric generator 233 is generated by the water drained on the downstream side.

The method of claim 5, further comprising:
The power generation gate opening means is lowered by the load of the water overflowed through the power generation operation channel 234 and the power generation operation channel 234 in which fresh water flows over a certain level to the upper side of the retaining wall wall. Rope-bound to allow the water gate 232 to be opened, and consists of a power generation gate opening bucket 235 formed lighter than the power generation gate 232,
In the fish 241 may be provided with a fish sluice 242 and the fish sluice opening means for opening the fish sluice 242 open to the water level, the fish sluice opening means is the upper portion of the holding wall Freshwater flows to the side of the fresh water flows over a certain level, the water flows through the waterway flow passage 243 and the water flow through the waterway flow passage 243 is lowered by the load of water flowing through the waterway gate 242 can be opened operation Rope ties to be configured and consists of a waterway open bucket 244 formed lighter than the waterway door 242,
The waterway open water bucket 244 and the power generation water open water bucket 235 are each when the water inflow into the waterway is not the water gate open drainage hole 251 to allow the natural water is discharged so that each waterway is closed in its own Formed on the side,
The worm gear and the electric engagement means to rotate the power generation bore shaft 211a provided in the lower portion of the power generation unit 211 to one side of the holding wall 220 so as to forcibly open the power generation unit 211 during the rainy season. Multifunctional ecological river, characterized in that provided with a power generation reinforcement opening (212) made of any one of a manual operation tool, such as an electric motor or an electric operation tool.

The method of claim 1, further comprising:
Laying the ecological block on the fresh water reservoir 11 to form a double stone 12 to prevent the loss of the side and the river side, and the space formed so that Shenzhen (13) is formed between the double stone 12 and the river bed Multifunctional ecological river, characterized in that.
The method of claim 1, further comprising:
A water resistant well reservoir 310 is formed on the outer side of the embankment 1 formed on both sides of the freshwater stream reservoir 11, and the river water supply well 330 formed at the same depth as the bottom of the river in the river ditch 2. ) And the formed river water inflow well 320 having the same depth as the bottom of the river in the antistatic ground reservoir 310, and the river water supply well 330 and the river water inflow well 320 It is formed to be connected to 340, the water flow hose 340 is a multifunctional ecological river, characterized in that the buried to the top of the embankment.
The method of claim 8;
Multifunctional ecological river, characterized in that the antistatic ground water reservoir 310 has a buoyancy elevating distillation unit supporting wall 350, the height of which is adjusted by buoyancy increases according to the level of the river water introduced into the river water inlet well 320.
The method of claim 1, further comprising:
Multifunctional ecological river, characterized in that it has a myelin island 410 configured to float on the surface by the panda graphft 420 is elevated by the water level interlocking means.

The method of claim 1, further comprising:
The water level interlocking gate is a freshwater shallow water gate 121 and a freshwater spring gate 121 provided at the bottom side of the freshwater spring gate 121 and the fresh water spring gate 121 which is fixed to the top of the order wall body 110 and is opened by water pressure. In accordance with the meeting of the freshwater spring auxiliary sluice 131 which is interlocked and opened by the water level interlocking opening means,
The water level interlocking opening means that the hydrological buoyancy body 181 and the hydrological buoyancy body 181 on the upper side of the freshwater spring gate 121 when the buoyancy rises to a certain height to pull open the freshwater shallow water gate 121 Multifunctional ecological river, characterized in that composed of a drawbar (182).

The method of claim 1, further comprising:
The water level interlocking gate is a freshwater spring gate 121 and the fresh water that is open by the towing elevating motor 135, the upper end is rope-bound to the towing elevating motor 135 provided on the top of the order wall body 110. According to the rotation of the freshwater spring gate 121 provided at the lower side of the shallow water gate 121, and composed of a freshwater spring auxiliary floodgate 131 that is interlocked and opened by the water level interlocking opening means,
The water level interlocking opening means that the hydrological buoyancy body 181 and the hydrological buoyancy body 181 on the upper side of the freshwater spring gate 121 when the buoyancy rises to a certain height to pull open the freshwater shallow water gate 121 Multifunctional ecological river, characterized in that composed of a drawbar (182).

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