KR101067728B1 - Environment-friendly weir fishway structure - Google Patents

Abstract

The present invention relates to an environmentally friendly underwater beam structure that allows the angle of the partition wall to be arbitrarily set according to the slope of the fish. The semicircular groove 22 formed in the left and right directions on the bottom surface 21 of the fish 20 is formed by the fish ( A plurality of predetermined intervals are formed in the vertical direction of 20), and a latent extension path 23 leading to each semi-circular groove 22 is formed at the center of the bottom surface 21 of the esophagus 20, and the latent extension path 23 A gentle curved protrusion protrusion 24 is formed in the middle of the upper surface of the tilting partition wall 30 having a cross-sectional shape of the pentagonal shape, and the overflow portion 31 and the non-flowing portion 32 are formed in a semicircular groove ( 22 is installed by fitting the linear packing (40) (41) in close contact with the tee groove (33) (34) formed at the lower end of the tilting partition wall (30), the arc-shaped locking hole (23) and the arc-shaped extension groove (23) 35 is formed at the lower end of the tilting partition 30, and the O-ring interposed between the inner surface of the fishery side wall 25 and the end surface of the tilting partition 30 ( 42 and 43 are inserted into the packing grooves 36 and 37 formed at both end surfaces of the tilting partition 30, and one end of the rotating shaft 50 fixed to the center of the tilting partition 30 is inserted into the esophagus side wall 25. Protruding outward through the coupling to engage with the rotational arm (51), connecting each rotational arm (51) to the connecting rod (53) by a pin (52), and a screw hole (54) formed in the rotational arm (51). Sector hole 56 for penetrating the fixed clamp (55) coupled to the rod formed in the connecting rod 53, since the angle of the tilting partition wall can be arbitrarily changed according to the inclination of the esophagus to help the injury of the esophagus It can give an effect.

Description

Environment-friendly Weir fishway structure

The present invention relates to an environmentally friendly underwater beam structure for providing a moving passage of upstream and downstream fish families in small and medium rivers, and more particularly, in order to achieve a smooth small profile of the fish family, the partition wall according to the height or slope of the underwater beam It also relates to an environmentally friendly underwater bore that allows the angle of the beam to be set arbitrarily.

Typically, small and medium-sized rivers are constructed with various types of transverse structures that control the water flow by blocking the flow of water across both eyes. The most widely constructed of these cross-sections is the concrete underwater beam (Barrage).

These underwater beams are easy to understand when considering them as small concrete dams that block the flow of water.The role of underwater beams is to flow water from upstream to downstream, but to maintain the same surface level as the height of the underwater beams upstream. It is in charge of water storage function so that it can be used for agricultural or industrial water by confining a certain amount of water in the tank.

However, underwater submarines installed in rivers have the same net function as above, but they have the reverse function of destroying fish ecosystem.

In other words, when constructing underwater beams with concrete, the upstream and downstream streams are separated by high step and steep slope, which makes it difficult to move upstream of downstream fish, which leads to the ecological disruption of the fish family. .

As a result, the ecological environment of various species of fish in the rivers is disturbed and the habitat environment is severely restricted. In particular, the anadromous fish returning to spawn cannot go back and upstream. There is a problem that results in the destruction.

In view of the above problems, in recent years, the fish way is connected to the downstream side of the underwater beams to promote free movement of fish.

Fish ponds are classified as cascading fish, lockfish, mechanical (elevator) fish, etc. In the case of small and medium rivers, cascading fishes are mainly installed in consideration of harmony with the surrounding landscape while preventing riverbed scrubbing due to water flow.

Such cascading fish can be installed as an appropriate slope according to the height of the underwater beams, the river water level to function as a fish. However, the general cascading fish can only adjust the inclination of the fish, there was a problem that is hampered because of the technology of the fish can not adjust the angle of the partition wall.

The present invention has been made to solve the above problems, an object of the present invention is to provide an environmentally friendly underwater beam structure that can arbitrarily vary the angle of the partition wall according to the inclination of the fish.

In order to achieve the object of the present invention, a plurality of semicircular grooves formed in the left and right directions on the bottom of the esophagus are formed at regular intervals in the vertical direction of the esophagus, and a lock air extension path leading to each semi-circular groove is the vertical direction at the center of the bottom of the esophagus. It is formed in the form of, and in the middle of the lattices elongated to form a smooth curved projection jaw, and the overhang portion and non-overflow portion on the upper end of the tilting partition having the cross-sectional shape of the ottoman form, the linear close contact with the semi-circular groove The packing is inserted into the tee groove formed at the bottom of the tilting bulkhead, and the arc-shaped locking hole is formed at the bottom of the tilting partition wall, and is interposed between the inner surface of the fishery side wall and the end surface of the tilting partition wall. The O-ring is inserted into the packing grooves formed at both ends of the tilting bulkhead, and one end of the rotating shaft fixed to the center of the tilting bulkhead is formed through the fish's side wall. It protrudes into the connecting arm and connects with the rotating arm, and each rotating arm is connected to the connecting rod by a pin, and a sector hole for penetrating the fixed clamp coupled to the screw hole formed in the rotating arm is formed on the connecting rod. Is provided.

As described above, the present invention can help to reduce the angle of the tilting bulkhead according to the inclination of the fishery, which can help to injure the fishery, and the lower end of the lock-dwelling extension path and the tilting bulkhead formed on the bottom of the fishery. The submerged groove formed in the water helps to injure the fish by forming an underwater passage, and the water flowing in a straight line in the water is aerated to purify the stagnant water in the fishery by the projection jaw formed in the middle of the subterranean extension passage. It can be effective.

Figure 1 is a side cross-sectional view showing an environmentally friendly underwater beam structure according to the present invention
Figure 2 is an exploded perspective view showing the structure of the tilting bulkhead according to the present invention
3 is a bottom exploded perspective view showing the structure of the tilting bulkhead according to the present invention;
Figure 4 is an exploded perspective view showing a connecting structure of the connecting rod and the rotary arm according to the present invention
Figure 5 is a cross-sectional perspective view showing the structure of the fisheye in accordance with the present invention
Figure 6 is an exploded perspective view of the environmentally friendly underwater beam structure according to the present invention
Figure 7 is a perspective view showing a state in which the eco-friendly underwater underwater fish according to the present invention is installed in the underwater beam

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

As shown in FIGS. 1 to 7, a plurality of semicircular grooves 22 formed in the left and right directions on the bottom surface 21 of the fisherman 20 are formed at regular intervals in the up and down direction of the fisherman 20, and each semicircular member is formed. A latent extension path 23 leading to the groove 22 is formed in the vertical direction at the center of the bottom surface 21 of the fishery 20.

A gentle curved protruding jaw 24 is formed in the middle of the latent extension path 23, and the overflowing portion 31 and the non-flowing flow portion 32 are formed at the upper end of the tilting partition wall 30 having a cross-sectional shape of an otute shape. And a linear packing (40) (41) in close contact with the semi-circular groove (22) is inserted into the tee groove (33) 34 formed at the lower end of the tilting partition wall (30).

An arc-shaped locking hole 35 is formed at the lower end of the tilting partition wall 30, and is interposed between the inner surface of the fishery side wall 25 and the end surface of the tilting partition wall 30. O-rings 42 and 43 are inserted into packing grooves 36 and 37 formed at both end surfaces of the tilting partition 30, and one end of the rotating shaft 50 fixed to the center of the tilting partition 30 is formed. It protrudes outwards through the side wall 25 and engages with the rotational arm 51, and connects each rotational arm 51 to the connecting rod 53 by the pin 52, and the screw hole formed in the rotational arm 51 A sector long hole 56 for penetrating the fixing clamp 55 coupled to the 54 is formed in the connecting rod 53.

Here, the O-rings 42 and 43 may be configured as a rubber ring having a circular cross section, and the fixed clamp 55 may be configured as a known fixed clamp 55 provided with a handle which is convenient to hold and turn by hand.

In the drawings, reference numeral 60 denotes an underwater beam.

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

As shown in FIGS. 1 to 7, when the angle of the tilting bulkhead 30 needs to be changed according to the inclination of the fish 20, the fixing clamp 55, which is fixing the tilting bulkhead 30, is loosened. Holding the connecting rod 53 and moving up and down, all the rotational arms 51 connected to the connecting rod 53 through the pin 52 is moved at the same time.

At this time, the tilting partition 30 is rotated about the rotation axis 50 by the rotation of the pivoting arm 51. When the tilting partition 30 is adjusted at an appropriate angle and then the fixing clamp 55 is tightened again, the tilting partition 30 is fixed.

In addition, the fixed clamp 55 that moves as the pivot arm 51 rotates does not interfere with the connecting rod 53 by the sector hole 56.

On the other hand, when water flows from the upstream side to the downstream side of the river through the fishery 20, the overflowing portion 31 formed in the tilting partition 30 overflows and the overflowing portion 32 is blocked and the small fish are blocked behind. It will provide a pool-type rest area where you can relax for a while.

In addition, since the interlocking passage 23 formed on the bottom surface 21 of the fish 20 and the interlocking groove 35 formed on the lower end of the tilting partition 30 form a passage connected to each other, It acts as a normal lock air to allow the water flowing along the) flows into the water, in particular, the protruding jaw (24) formed in the middle of the lock air extension passage (23) in a straight line along the lock air extension (23) It acts to raise the flowing water for a while, causing aeration.

This aeration will facilitate the supply of oxygen to the water in the fish (20) to help the ecological activity of the fish staying in the fish (20) for a while.

20: degree 21: bottom surface
22: semi-circular groove 23: Jamgong Elder
24: protruding jaw 25: fisheye side wall
30: tilting bulkhead 31: overflow part
32: intersected part 33,34: tea home
35: Locking groove 36,37: Packing groove
40,41: Linear packing 42,43: O-ring
50: rotation axis 51: rotational arm
52: pin 53: connecting rod
54: screw hole 55: fixing clamp
56: sector long

Claims (1)

A plurality of semicircular grooves 22 formed in the left and right directions on the bottom surface 21 of the fishery 20 at regular intervals in the vertical direction of the fishery 20, and the latent extension passages 23 leading to the respective semicircular grooves 22. It is formed in the vertical direction in the center of the bottom surface 21 of the fishery 20, and forms a smooth curved projection jaw 24 in the middle of the interlocking extension path 23, and has a cross-sectional shape of the Ottogi The upstream part 31 and the non-flowing part 32 are formed at the upper end of the tilting partition 30, and the linear packings 40 and 41, which are in close contact with the semicircular grooves 22, are formed at the bottom of the tilting partition 30. It is inserted into the tee grooves 33 and 34, and an arc-shaped lock hole 35 is formed at the lower end of the tilting partition wall 30. The O-rings 42 and 43 interposed between the end faces of the tilting bulkhead 30 are inserted into the packing grooves 36 and 37 formed at both end faces of the tilting bulkhead 30, and the center of the tilting bulkhead 30 is provided. One end of the fixed rotating shaft 50 is projected to the outside through the side wall 25 to be coupled with the pivoting arm 51, each pivoting arm 51 is connected to the connecting rod 53 by a pin 52 And an environmentally friendly underwater beam structure, which is formed by forming a sector long hole 56 in the connecting rod 53 for penetrating the fixed clamp 55 coupled to the screw hole 54 formed in the pivoting arm 51. .

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