KR20100032640A - Fishway apparatus - Google Patents

Abstract

PURPOSE: A fishway device is provided to conveniently form a fishway in a pre-established beam using different water pressures and to prevent flowing river water from being cut off. CONSTITUTION: A fishway device comprises a conveying pipe(20), a water pipe(30), a drain pipe(40), and a variable unit(50). The conveying pipe is installed in a beam and a conveying space is formed inside. The water pipe is connected to one side of the conveying pipe, and a water inlet of the water pipe is submerged into river water. The drain pipe is connected to the other side of the conveying pipe. The variable unit varies the length of the drain pipe.

Description

Adobe Device {FISHWAY APPARATUS}

The present invention relates to a fishery device, and more particularly, to a fishery device for forming a fishery by using the difference in the water pressure according to the water level difference between the river upstream / downstream generated by the beam to overflow the river will be.

In general, rivers are provided with beams that cross river banks and banks in order to store water and use it for agricultural or industrial water.

These beams function to store water so that the water level in the reservoir is always within a certain range, and a floodgate is formed to control the water level during flooding or drought.

However, when the beam is installed in the stream, the downstream and the upstream of the stream are disconnected. This makes it difficult for fish to go up and down streams, and the habitat environment of various fishes in the rivers is changed.

In particular, there is a problem that the fish returning for spawning can not be moved backwards upstream, resulting in the destruction of the fish ecosystem.

Therefore, at least one waterway is formed in the beam during the installation of the beam, and the fish is used as a fish that can move. In recent years, various studies on the esophagus installed to move fish in the beam have been conducted.

As a conventional technique of forming a waterway in a beam and using it as an airway, there is an underwater fishing device for a river disclosed in Korean Utility Model Publication No. 0277591.

The prior art is provided with a water gate to form a waterway in the beam and shield the waterway, the water gate is installed to be elevated according to the level of the river water is stored, the entrance is formed in the water gate so that the river water is stored.

However, this conventional technology has a problem in that the construction of the waterway and the gate together when constructing the beam. In addition, there is a problem that can not function as an esophagus in the event of malfunction of the hydrology due to prolonged use, the function of the beam when the hydrology is damaged by external force.

And, if you want to install in the pre-built beams, it is difficult to form a fishery in the pre-built beams, such as the need to cut a portion of the beam to form a waterway to form the waterway, and to install a water gate. there was.

The present invention is to solve the problems of the prior art, an object of the present invention is to provide a fishery device that can be easily installed in the pre-built beam, and can function as a fish in a variable water level.

The present invention for achieving the above object is installed in the beam, the transport pipe formed with a transport space for flowing river water therein; An inlet pipe communicating with the transport space on one side of the transport pipe, the water pipe being introduced into the high water side river water upstream with respect to the beam, and into which the high water side river water flows; The drainage port formed at one end of the high water side river water is in communication with the transport space on the other side of the transfer pipe, and is located at the low water side river water downstream of the beam so that the high water side river water flows into the low water side river water by a level difference. A drain pipe installed with a variable length so as to be at a position lower than the water level of the variable means; It is installed in the beam, and includes a drain pipe length control unit for controlling the variable means so that the drain pipe is in a position lower than the water level of the high water-level river water in accordance with the water level change of the high water-side river water.

In addition, in the present embodiment, the drain pipe is introduced into the surface of the beam on which the drain pipe is installed, the high water side river water discharged from the drain pipe is stored in a predetermined amount, and the flow rate of the high water side river water is stored to control the flow of the high water side river water. A fish tank member having a water gate for controlling a flow rate, and a plurality of fish tanks extending from one side of the fish tank member along the flow direction of the high water side lower water discharged from the water gate, and allowing the high water side river water to flow a certain amount It is further provided with a fish guide member formed.

The variable means includes a rack member having a pleat formed on the outer surface of the drain pipe so that its length is variable, connected to one side of the drain hole, extending in the longitudinal direction of the drain pipe, and having a gear tooth formed on a side thereof; A pinion member engaged with the gear teeth of the rack member; It includes a drive motor for transmitting a rotational force to the pinion member.

In addition, the present embodiment is installed in the transfer pipe, the discharge valve for discharging the bubbles contained in the high water side stream water passing through the transfer space, and connected to the discharge valve pressure in the transfer space at the opening of the discharge valve Preventing the introduction of external air to the drop, the pressure tank for introducing the bubble; is further provided.

And, the water inlet pipe is formed on the outer surface of the pleats formed on the outer surface so that the length is variable, the weight is provided in the inlet of the inlet pipe into which the high water side river water flows, so that the inlet can be obtained in the high water side river water; A buoyancy member is provided at a position spaced apart in the longitudinal direction of the water inlet from the water inlet so that the water pipe is variable in length according to the water level of the high water side river water.

A water level measuring sensor installed in the beam and measuring the water level of the high water side river water; And a control unit for receiving the water level value of the high water level river water measured by the water level measurement sensor to control the driving motor to vary the length of the drain pipe.

The present invention has the advantage that it is possible to easily form the esophagus in the keyed beams by allowing the river water to flow over the beams by using the pressure difference according to the water level difference of the up / downstream without deforming the keyed beams.

In addition, since the present invention prevents the flow of the stream water to be disconnected by maintaining the water level difference between the upstream and downstream even in the variable water level, there is an advantage that can be always formed in the variable upstream water level.

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

1 and 2 show an embodiment of the fishery apparatus according to the present invention.

1 and 2, the present embodiment is to use the siphon principle to flow the high water side stream upstream to the low water side river downstream.

This, the fishery device is installed in the beam 10 and the transfer pipe 20 is formed with a transport space 21 through which the river water flows, and the inlet 31 is connected to one side of the transport pipe 20 to obtain the high water side river water. The water supply pipe 30 is connected to the other side of the water supply pipe 20, and the drain hole 41 is formed so as to be located at a position lower than the water level of the high water side river water.

The water inlet pipe 30, the transport pipe 20, and the drain pipe 40 connected as described above form a transport passage of the river water so that the high water side river water overflows the beam 10 and flows into the low water side river water.

And, in order to ensure that the drain port 41 of the drain pipe 40 is always lower than the water level of the high water side river water according to the water level fluctuation of the high water side river water, the drain pipe 40 is variable in length by the variable means 50. Is formed. In addition, the drain pipe length control unit 60 is provided to control the variable means 50 to vary the length of the drain pipe 40 according to the change in the water level of the high water side river water.

The variable means 50 forms a pleat 42 on the outer surface of the drain pipe 40 so that its length is variable, and is connected to one side of the drain hole 41 to extend in the longitudinal direction of the drain pipe 40 and the gear teeth on the side. The formed rack member 51, the pinion member 52 which meshes with the gear tooth of the rack member 51, and the drive motor 53 which rotates the pinion member 52 are comprised.

The variable means is not limited to the above, and the drain pipe may be provided with a plurality of unit pipes, such as an antenna, and the length of the variable pipes may be varied by allowing the plurality of unit pipes to be drawn in or drawn out from each other. In addition, the length of the drain pipe can be varied by advancing one side of the drain pipe in the longitudinal direction by the hydraulic / pneumatic actuator.

The drain pipe length control unit 60 is installed in the beam 10 and receives the water level measurement sensor 61 for measuring the water level of the high water level river water, and the water level value of the high water level river water measured by the water level measurement sensor 61. The control unit 62 is configured to control the driving motor 53 according to the length of the corresponding drain pipe 40 so that the length of the drain pipe 40 is variable.

The controller 62 measures an extended or reduced distance of the drain pipe 40 from the rotational axis of the drive motor 53 and the rotational speed of the pinion member 52 using the encoder 63, and stores the water level of the pre-stored high water level side river water. The driving motor 53 is controlled in comparison with the length of the drain pipe 40 according to the value.

On the other hand, the inlet pipe 30 also has a wrinkle 32 is formed on the outer surface so that the length is variable. In addition, the water inlet 31 is provided with a weight 33 so that the water inlet 31 is received in the high water side river water.

The buoyancy member 34 is provided at a position spaced a predetermined distance away from the inlet 31 in the longitudinal direction of the inlet tube 30, so that the length of the inlet tube 30 is variable in accordance with the fluctuation of the water level of the high water side river.

The transfer pipe 20 is connected to the discharge valve 70 and the discharge valve 70 installed in the transfer pipe 20 to discharge the air bubbles collected in the transfer space 21 to the outside when the discharge valve 70 is opened. The pressure tank 80 for introducing the bubbles discharged from the discharge valve 70 while preventing a pressure drop in the transfer space 21 is provided.

This is due to the siphon principle when bubbles are collected in the transfer space 21 or the transfer space 21 communicates with the atmosphere when the discharge valve 70 is opened for bubble discharge, so that the pressure in the transfer space 21 drops. This is because the high water side stream is no longer flowing.

The pressure tank 80 is filled with a certain amount of water inside and sealed, and an outlet 81 for discharging the introduced air bubbles is formed at an upper side thereof. The opening of the outlet 81 should be made with the outlet valve 70 shielded.

On the other hand, the drain pipe 40 is introduced to the surface of the beam 10 is provided with a drain pipe 40 is provided with a fish tank member 90 to store a certain amount of high water-side river water discharged from the drain pipe 40. Of course, the high water-level river water supplied to the fish tank member 90 is overflowed.

In addition, the fish tank member 90 is provided with a sluice gate 91 for controlling the discharge of the stored high water level river water. The flow rate of the high water side river water is controlled in accordance with the discharge of the river water controlled by the water gate 91.

A fish guide member 100 extending from one side of the fish tank member 90 is provided along the flow direction of the high water side river water discharged from the water gate 91. On the bottom of the fish guide member 100, a plurality of pools 101 are formed to allow the high water-level river water to flow over a certain amount.

The tub 101 is formed such that the amount of water is less than the amount of the fish tank member 90.

Unexplained reference numeral 22 is a bracket for fixing the transfer pipe 20 to the beam 10, 54 is a housing in which the pinion member 52 and the drive motor 53 is built.

Hereinafter, the operation and effects of the present embodiment configured as described above will be described.

After the present embodiment is installed in the beam, the pump is connected to the drain port 41 side of the drain pipe 40, and the high water side stream water is supplied to the water supply pipe 30, the transfer pipe 20, and the drain pipe 40 by using the pump. In order to flow into the low water side river water sequentially. As such, when the pump is stopped and the pump is disconnected from the drain 41 while the high water side river water is transferred, the flow of the high water side river water is continued by the siphon principle.

The high water-side river water discharged from the drain pipe 40 is stored in the fish tank member 90 in a predetermined amount, and the water gate 91 is opened to be discharged from the fish tank member 90 to the fish guide member 100 to flow. Then, the discharge amount of the high water side river water is controlled by the opening amount control of the water gate 91 to control the flow rate of the high water side river water flowing through the fish guide member 100.

The high water-level river water flowing through the fish guide member 100 is formed by the holding portion 101 and flows while being overflowed by a certain amount.

Accordingly, the fish of the low water side river water is upstream through the fish guide member 100 and the fish tank member 90, the drain pipe 40, the transfer pipe 20, the inlet pipe 30.

The fish tank member 90 provides a space for the fish, which dates back through the fish guide member 100, to store power.

In addition, the fish tank member 90 controls the flow rate of the high water side river water flowing to the fish guide member 100 to facilitate the movement of the fish back through the fish guide member 100.

On the other hand, if the water level of the high water level river water fluctuates, the changed high water level river water level is measured by the water level measurement sensor 61. The measured water level value is received by the controller 62. The controller 62 determines the length of the drain pipe 40 corresponding to the measured water level value from previously stored data. Then, by controlling the variable means 50 to the length of the predetermined drain pipe 40 to vary the length of the drain pipe (40).

Therefore, even if the water level of the high water level river water fluctuates, the length of the drain pipe 40 is variable so that the drain port 41 of the water drain pipe 40 is located at a position lower than the water level of the high water side river water, thereby, by the siphon principle, Is continuously flowing over the beam (10).

The embodiments of the present invention described above should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and modify the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

1 is a view showing an embodiment of an adobe device according to the present invention,

2 is a view showing the structure of the fishery apparatus of FIG.

3 is a control block diagram for controlling the length of the drain pipe in the fishery device of FIG.

<Description of Symbols for Main Parts of Drawings>

10: beam 20: feed pipe

30: inlet pipe 40: drain pipe

50: variable means 60: drainage pipe length control unit

70: discharge valve 80: pressure tank

90: fish tank member 100: fish guide member

Claims (5)

A transport pipe installed in the beam and having a transport space through which river water flows; An inlet pipe communicating with the transport space on one side of the transport pipe, the water pipe being introduced into the high water side river water upstream with respect to the beam, and into which the high water side river water flows; The drainage port formed at one end of the high water side river water is in communication with the transport space on the other side of the transfer pipe, and is located at the low water side river water downstream of the beam so that the high water side river water flows into the low water side river water by a level difference. A drain pipe installed with a variable length so as to be at a position lower than the water level of the variable means; And a drain pipe length control unit installed in the beam and controlling the variable means so that the drain hole is positioned at a position lower than the water level of the high water side river water according to the water level change of the high water side river water. Fishery made. The method of claim 1, The drainage pipe is drawn into the surface of the beam on which the drainage pipe is installed, and the high water side river water discharged from the drain pipe is stored in a predetermined amount, and a water gate controlling the flow rate of the high water side river water stored therein controls the flow rate of the high water side river water. Fish apparatus characterized in that the provided fish tank member is further provided. 3. The method of claim 2, A fish guide member is formed that extends from one side of the fish tank member along the flow direction of the high water-side river water discharged from the water gate, the fish guide member is formed with a plurality of high seam flows a certain amount high Fishery device. The method according to claim 1 or 3, The variable means The drain pipe is wrinkled on the outer surface so that the length is variable, A rack member connected to one side of the drain and extending in the longitudinal direction of the drain pipe and having gear teeth formed on a side thereof; A pinion member engaged with the gear teeth of the rack member; An apparatus comprising a drive motor for transmitting a rotational force to the pinion member. The method of claim 4, wherein A discharge valve installed in the conveying pipe and discharging bubbles contained in the high water side river water passing through the conveying space; A pressure tank connected to the discharge valve to prevent external air from flowing into the pressure drop in the transfer space when the discharge valve is opened; The water inlet pipe is formed on the outer surface so that the length is variable, A weight weight provided at an inlet of the inlet pipe into which the high water side river water flows, and allowing the inlet port to be received in the high water side river water; And a buoyancy member provided at a position spaced apart in the longitudinal direction of the water inlet from the water inlet so that the water pipe is variable in length according to the water level of the high water side river water. The drain pipe length control unit A water level measuring sensor installed in the beam and measuring the water level of the high water side river water; And a control unit for receiving the water level value of the high water level river water measured by the water level measurement sensor to control the driving motor to vary the length of the drain pipe.

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