KR20110130621A - A movable weir with variable type fishway - Google Patents

Abstract

PURPOSE: A movable weir having an environment-friendly peristaltic escalator is provided to minimize damage of overflow and flood by keeping the balance of a movable weir. CONSTITUTION: A movable weir having an environment-friendly peristaltic escalator is composed like next. A fishway guide(20) is installed between the upper and lower sides of the movable weir at a tilt. One end of the fishway guide is connected on the top of the movable weir to rotate. A driving roller is composed on the end part of the fishway guide. A fishway guiderail for guiding the movement of the driving roller of the fishway guide is composed on the ground. A conveyor chain(25) is connected with the fishway guide. A fishway box(40) is connected to the conveyor chain at a regular interval.

Description

Eco-friendly interlocking escalator type movable beams {A MOVABLE WEIR WITH VARIABLE TYPE FISHWAY}

The present invention relates to a movable beam which is provided with a linkage variable variable, more specifically, to configure the fish to escalator type to improve the mobility of the fish and flooding by allowing the movable beam to be interlocked or standing together. The present invention relates to a movable beam structure capable of reducing flood damage during occurrence.

In general, dams, beams, dams, etc. act to block the flow of water to trap the water, but because of the ecological protection should not block the flow of fish is installed fish can go back.

It is known that such fish can be provided with a stepped fish when the height of the beam or dam is 20 m or less.

The slope of the estuary is gentler to fish, but is usually designed in the range of 1/10 to 1/30 for economic or spatial limitations.

Here, the length of the esophagus depends on the height of the beam. The higher the height of the beam, the longer the length of the fish is 10-30 times.

For example, if the height of the beam is 2m, the length of the fish can be 20-60m or more.

Therefore, when the height of the beam is high, the total jump distance is long, there is a problem that the fish feels fatigue while climbing the esophagus.

In addition, when the movable beam is inverted and opened for flood control, the existing fish can act as an obstacle to the flow velocity, causing floating and sediment jams, and damage caused by rocks. There was this.

SUMMARY OF THE INVENTION The present invention has been proposed to improve the above problems in the prior art, and an object of the present invention is to provide fish that are rotated and driven by an escalator type so that fish can be easily moved upstream without swimming.

In addition, by providing a variable-adjustable movable beam structure that can be interlocked with the esophagus when opening and closing the movable beam, the movable beam and the fish can be inverted at the same time during flood control to achieve a horizontal state. The aim is to ensure that damage is minimized.

In order to achieve the above object, the present invention provides a movable guide that is erected and inverted to adjust the water level, wherein an guide is inclined between the upper portion of the movable beam and the ground, and one end of the guide is formed of the movable beam. Connected to be freely rotated by the hinge at the upper portion; The other end of the guide is configured with a moving roller; An air guide rail configured to guide the movement of the roller for movement of the guide on the ground; The guide chain includes a conveyor chain which is circulated in a predetermined trajectory by driving gears and driven gears at both ends; The conveyor chain is characterized in that the adobe box is configured at a predetermined interval.

Such an eco-friendly fish operation of the present invention, the angle of inclination of the fish is variable as the fish is operated together during the standing / conducting operation of the movable beam, and the movement path of the fish through the fish is rotated by the escalator system. It can be secured at all times.

In particular, it is possible to reduce driving energy by providing an airway structure through which the air box is circulated under the action of hydraulic pressure flowing from the upper side to the lower side.

In addition, when the water level in the upstream side of the beam maintains 50% of the water level, the movable beam can be inverted by 50% and the fish can be operated.

In addition, the deposit can be prevented from entering the guide when fully opened and closed.

In addition, when the movable beam is inverted, the esophagus forms a horizontal state with the floor, thereby preventing damage to the esophagus without impeding the flow rate during flooding.

In addition, by installing a separate guide rail on the ground it is possible to make the flow of the guide even in the stable.

1 is a plan view of the open state of the present invention movable movable beams.
2 is an enlarged view of a portion A of FIG. 1;
Figure 3 is a side structural view (closed) state of the movable fish beam of the present invention.
Figure 4 is a side structural view of the 50% open state of the present invention the movable beams.
Figure 5 is a side structural view of the fully open (conduction) state of the present invention edo movable beams.
6 is an enlarged view of a portion B of FIG. 3.
Figure 7 is an air box driving state by the water pressure of the present invention esophagus.
8 is a plan view of the installation guide islands guide rail according to the application of the present invention.

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

First, looking at the structure of the movable movable beam according to an embodiment of the present invention, the movable beam 10 is a power from the main winch (not shown) in the form of a long shape so as to block the river, as shown in general Figure 1 The delivery is to be constructed so that the movable beam hinge (11) to stand or fall over the axis, the guide 20 on both sides of the movable beam 10 to form a predetermined inclination with the ground even if the hinge (21) One end is connected by the structure.

Particularly, in the present invention guide 20, the conveyor chain 25 is fastened to the drive gear 23 and the driven gear 24 on both sides, and the conveyor chain 25 has a plurality of adobe boxes. 40 is provided with fastening at fixed intervals.

The drive gear 23 is to transmit power through a drive shaft (not shown) from the drive motor 26 on one side.

In addition, since the space is formed in the lower portion of the guide guide 20 so that the up-and-down moving box 40 can be returned downward, as shown in FIG. 7 without separately installing the drive motor 26, the conveyor chain ( 25) may allow the water pressure of the water (W) that flows from the upstream side to the downstream side to act on the adobe box 40 to move downward to allow a natural rotational drive by the water pressure.

That is, at this time, by installing the upper end of the fish guide 20 by 200mm lower than the upstream portion of the movable beam 10 by moving the water (W) through the space formed on the lower side of the fish guide 20, the fish box ( 40) the hydraulic pressure acts to make the driving of the conveyor chain 25 environmentally friendly.

In addition, it can be seen that the energy consumption can be reduced by allowing the hydraulic pressure and the driving motor 26 to work together.

On the other hand, a driving roller 22 is formed at the other end of the driven gear 24 side of the fish guide 20, and a guide rail 30 for guiding the traveling roller 22 is formed in the ground.

The guide rail 30 is seated on a separate support 31 which is a facility fixed to the ground, and both ends of the support 31 to prevent the departure of the guide rail 30 and stopper of the guide 20 The locking jaw 32 is provided to protrude so as to play a role.

In addition, as shown in the enlarged view of FIG. 6, the both side locking jaws 32 are provided with a proximity sensor 33 for detecting an approach state of the driving roller 22, and the movable beam 10 by the controller 34. It is configured to control the standing and conduction angle of).

Meanwhile, as in the application example of FIG. 8, the support 31 provided with the guide rails 30 has two pairs so as to maintain mutually spaced interval d, so that interference with the adobe box 40 is circulated and flowed. It is preferable to prevent the adhesion of foreign matter such as moss on the outer wall surface of the adobe box 40 by configuring the brush (31a) on the mutually opposing surfaces of the support (31).

In the drawings, reference numeral 12 denotes a drive unit housing in which a main motor or the like is installed to drive the standing beams / conductions of the movable beams 10. Since the apparatus for operating the movable beams 10 is a conventional technology, detailed configuration description To be omitted.

The present invention constituting such a structure will be described the operation effect according to the operation of the movable beam.

Typically, the movable beam 10 is erected or driven upright with the movable beam hinge 11 for the upstream side water level adjustment, wherein the guide 20 of the present invention is installed on both sides of the movable beam 10. ) Are operated together to achieve a variable flow of inclination angle.

That is, as shown in FIG. 3, the movable beam 10 is standing up as in FIG. 3 to secure an upstream water source. In this case, the fish box 40 of the fish guide 20 is circulated along the conveyor chain 25. As it is moved, it is possible to move upstream of the fish by using the wall base.

On the other hand, if a flood occurs in the upstream side and the movable beam 10 is inverted as shown in FIG. 5, the guide 20 connected to the hinge 21 is horizontally moved together with the movable beam 10. By being operated to achieve this, the fish can be prevented from becoming an obstacle to the flow rate during flooding.

In particular, the traveling roller 22 configured at the other end in the process of flowing in the horizontal state of the fish guide 20 is a guide and guide is made along the guide rail 30 configured in the support 31 to the fish guide ( It can be seen that the more stable interlocking operation of 20) is made.

In addition, when the proximity detecting sensor 33 installed at the end of the support 31 detects this and transmits a signal in the process of moving the guide rail 30, the control unit 34 drives the main winches driven by the driving unit housing 12. By sending a control signal to the interlocking operation can be made.

That is, by controlling the driving of the movable beam 10, it is possible to adjust the appropriate standing and conductive angle of the movable beam 10.

Meanwhile, as shown in FIG. 8, when the support 31 forms a predetermined spacing d and the brushes 31a are provided on opposite surfaces, the adobe box 40 circulating flows between the supports 31. As the brush 31a is moved to be in contact with the side wall surface, periodic cleaning operations are performed, thereby preventing foreign matters such as moss from being attached to the adobe box 40, thereby enabling more effective facility management. It can be seen that.

In addition, although specific embodiments of the present invention have been described and illustrated above, it will be apparent that the integrated fishbone structure of the present invention may be variously modified and implemented by those skilled in the art.

It should be understood, however, that such modified embodiments are not to be understood individually from the spirit and scope of the invention, and such modified embodiments are intended to be included within the scope of the appended claims.

10: movable beam 11: movable beam hinge
12: drive unit housing 13: movable beam guide
20: Adobe Guide 21: Adobe Hinge
22: driving roller 23: drive gear
24: Driven Gear 25: Conveyor Chain
30: guide rail 31: support
32: Jam Jaw 33: Proximity Sensor
34: control unit 40: Adobe Box

Claims (5)

In the movable beam (10), which stands and falls to adjust the water level of the reservoir,
The guide 20 is installed to be inclined between the upper portion of the movable beam 10 and the ground, and one end of the guide 20 is free to rotate by the hinge 21 at the upper portion of the movable beam 10. Connection is established;
A driving roller 22 is formed at the other end of the guide 20;
An air guide rail (30) configured to guide the movement of the traveling roller (22) installed in the guide (20) on the ground;
Conveyor chain (25) circulated in a predetermined orbit by drive gear (23) and driven gear (24) installed at both ends is connected to the guide (20);
The conveyor chain 24 is provided with an eco-friendly interlocking escalator-type variable fish characterized in that the adobe box 40, which can be filled with water, is configured at regular intervals. The method according to claim 1,
The fish guide rail 30 is configured to be seated to maintain a horizontal state on a separate support 31, the locking jaw 32 for limiting the movement range of the guide 20 on both sides of the support 31 Eco-friendly interlocking escalator-type variable fish characterized in that the protruding provided with movable beams. The method according to claim 2,
Proximity sensor 33 for detecting the approach state of the driving roller 22 is configured on both sides of the support 31 to control the standing beam and the fall angle of the movable beam 10 by the controller 34.
The airway guide rail 30 is provided in pairs of two, eco-friendly interlocking escalator type, characterized in that it is installed so as to maintain a predetermined interval (d) to prevent interference with the adobe box 40 between each other. Movable beams with variable depth. The method according to claim 1,
A space is formed in the lower portion of the guide 20 so that the water flowing downward from the upstream side and the downstream side of the adobe box 40 can be moved, so that the conveyor chain 25 flows from the upstream side to the downstream side. (W) is a movable beam equipped with an eco-friendly interlocking escalator-type variable fish characterized in that the rotational actuation by natural water pressure is made by acting on the adobe box 40 to move the water pressure downward. The method of claim 4,
The eco-friendly interlocking escalator type variable, characterized in that the brush 31a is configured to friction with the side wall surface when the adobe box 40 flows inside the support 31 on which the fish guide rail 30 is seated. Movable beams equipped with fish.

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