KR20030063267A - Automatic water gate for removing floating matters easily and discharging water without opening water gate by function of siphon passage and the composition method - Google Patents

Abstract

PURPOSE: An automatic water gate is provided to promote the conservation of a natural ecosystem by making fishes move easily, to protect swimmers in a river, to improve the water quality by discharging the deposited pollutant and to remove floating matters easily. CONSTITUTION: The automatic water gate for removing floating matters easily and discharging water without opening a water gate by the function of a siphon passage comprises bearing structures(100) installed horizontally on a channel, a water gate body(1) placed between the bearing structures(100) to be inclined, an inlet formed on the lower side of the drainage side of the water gate body(1) to let the lower part of a river flow in and discharge, and a siphon passage formed on the upper side of the inlet to be connected with an outlet to let the water flew in from the upper stream of a river discharge toward the rear side of the water gate body(1) through the siphon passage at the closed state of the water gate body(1).

Description

An automatic guard gate configured to facilitate the removal of suspended solids and to discharge the influent without opening the gate by the role of the siphon passageway and its construction method

The present invention relates to a floating automatic floodgate for adjusting the water storage upstream by opening and closing the waterway by a hydrologic main body operated by hydraulic pressure or power, and a configuration method thereof, and a cylinder for opening and closing the hydrologic main body (1). (4) is installed in the enclosed space 11 of the body 100 to greatly reduce the risk of failure of the cylinder (4) by impurities such as a few seconds, the fish moving from the downstream to the upstream through the lower end of the water gate The water stream (1) is not opened even when the water gate (1) is not opened due to the function of discharging the inflow water through the siphon passage (16) configured to suck up the lower waters of the hydrologic main body (1) while promoting the preservation of the natural ecosystem by easily scratching. Since it is configured to discharge the amount of inflow from the upstream of the stream is an invention that can promote the safety of swimmers playing in the river.

It is configured to preferentially discharge heavy water having a specific gravity in the lower layer on the reservoir side even in the state in which the hydrologic main body 1 is closed through the siphon passage 16 formed in the hydrological main body 1.

The present invention relates to a floating automatic security gate configured to enable the discharge of contaminants deposited in the lower layer to exert a water quality improvement effect on the contaminated water and its construction method.

In addition, suspended solids floating upstream of the river at the time of flooding are caught at the top of the floodgate, and there are significant problems that must be removed artificially.

The present invention relates to an automatic guard gate and a method for constructing the automatic flood gate configured to easily remove the suspended solids by constituting the suspended solids removal plate at the top of the sluice to easily remove the suspended solids floating in the upper stream during the flood. .

The water gate of the present invention has the function of the esophagus which can facilitate the movement of the fish from the downstream to the upstream because the hydrological operation is a floating type, and the water quality contaminated by the action of the siphon discharge system that exerts the water quality improvement action. It is related to the floating automatic guard gate that naturally forms the fish while it is naturally purified and its construction method.

Underwater channel is installed to control the low water upstream of the channel, taking into account the flood control function, securing the agricultural water, or the aesthetics of the upstream channel.

There are many types of water gates provided in the related art, and there are many ways of operating them. In most water gates, a water body is placed between supporting structures such as concrete, which is constructed at predetermined intervals on both sides of the channel in the width direction. With the arrangement, the upper or lower part of the sluice body is rotatably supported on the support structure through the shaft, and the sluice body is rotated around the shaft by a motor or a cylinder to discharge the influent, thus seriously affecting the safety of swimmers playing in the water. There were problems that caused problems, namely that when the gates were only slightly opened due to injury, those who were sucked into the lower part of the gate could drown because they could not overcome the power of hydraulic pressure.

By the way, most of the water gate as described above is a problem that causes frequent failures because the opening and closing of the water gate is made by an electric motor that is vulnerable to water, if the cylinder is due to the operating gap of the cylinder exposed to water impurities such as plants, sand There is a problem that is caused to flow into the. In addition, due to gravity pressure during flooding, the critical problem is that the hydrology is not fully opened due to the lever phenomenon caused by sediment, such as sand gravel, which is pushed to the lower part of the back of the main body. It is.

In addition, since the water gate provided in the related art is oriented only to the function of exerting only the opening and closing function of the waterway, consideration is required to facilitate the movement of fish or to help the natural improvement of the contaminated water quality.

The present invention has been invented in view of the above-described various problems, and its object is to facilitate the movement of fish from the downstream to the upstream without the need to form a separate fishnet in the hydrologic main body or its lower part. Promote the preservation of the ecosystem, prevent the accumulation of sand and gravel on the lower part of the hydrologic main body to facilitate the opening and closing of the hydrologic main body, and to discharge the pollutants settled in the water, and to release the cyphon that can exert the water quality improvement effect. The purpose of the present invention is to provide a floating automatic floodgate that naturally forms when the waterway is opened while the water quality is naturally purified by the passage.

In addition, even if the suspended solids flowing from the upstream of the river during the flood is caught unsightly at the top of the hydrology, it is a major technical task to configure the suspended solids to float to the downstream of the river by quickly operating the floating material removal plate.

In addition, a large number of fish migration guide strings are formed on the upstream and downstream floors of the apron where the sluice is installed as a means to help the fish that submerged upstream and downstream from the stream when the sluice is normally open. The main technical problem of the present invention is to exert an effect of restoring the river ecosystem.

1 is a perspective view showing a closed state of the automatic guard gate configured to discharge the influent without opening the gate by the role of the siphon passage of the present invention;

2 is a perspective view showing an open state of the automatic guard gate configured to discharge the influent without opening the gate by the role of the siphon passage of the present invention;

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along line B-B of FIG.

5 is a perspective view showing an open state of a water gate constructed in accordance with a second embodiment of the present invention.

6 is a perspective view showing a closed state of a water gate constructed in accordance with a second embodiment of the present invention;

7 is an internal perspective view showing the internal structure of a sluice gate constructed in accordance with a second embodiment of the present invention.

8 is a cross-sectional view of the hydrological "B1-B1" line in FIG. 7 constructed in accordance with the second embodiment of the present invention.

9 is a plan view of a sluice gate constructed in accordance with a second embodiment of the invention.

FIG. 10 is a cross-sectional view showing the hydrological "C-C" line in FIG. 7 constructed in accordance with the second embodiment of the present invention.

11 is a cross-sectional view of the hydrological "A1-A1" line constructed in accordance with the second embodiment of the present invention.

12 is an enlarged cross-sectional view of FIG.

13 is an enlarged cross-sectional view of FIG.

14 is an internal perspective view of a sluice gate constructed in accordance with a fourth embodiment of the present invention.

15 is a cross-sectional view of the hydrological B2-B2 line constructed in accordance with the fourth embodiment of the present invention.

16 is a cross-sectional view of the water gate A4-A4 constructed in accordance with the fourth embodiment of the present invention.

17 is a cross-sectional view of the hydrological D-D line constructed in accordance with the fourth embodiment of the present invention.

FIG. 18 is an enlarged cross-sectional view of FIG. 15 showing line B2-B2 of the hydrologic gate constructed in accordance with the fourth embodiment of the present invention.

19 is a front view of a sluice gate constructed in accordance with a fourth embodiment of the present invention.

20 is a rear view of a sluice gate constructed in accordance with a fourth embodiment of the present invention.

<Description of Signs of Major Parts of Drawings>

1. Sluice body 11. Cylinder sealed space, 16. Cylindrical passage 22. Hydraulic cylinder 33. Inflow inlet 34, Floating material removal plate 35. Roller 36. Cylinder rod 37. Elastic member and flow white 38. Cylinder (rotating member) 39. Cylinder seal 44.Inflow outlet 551.Hydraulic guide plate 552.Fish guide rope 55.Sluice bottom skin plate 56.Sluice top skin plate 66.Block 100.Unlock and apron

The sluice gate provided by the present invention is a floating automatic flood gate that forms the esophagus naturally while the contaminated water is naturally purified by the action of the cyphon exhaust system which exerts the function of the esophagus and the natural improvement of the contaminated water. It relates to a configuration method.

The support of the sluice is constructed at regular intervals in the width direction of the channel, and the sluice body in the shape of a hollow square plate is inclined between the support structures, and the upper portion of the sluice body is rotatably fixed to the supporting structure by the central axis. In one embodiment, a sealed space portion for storing a cylinder is formed in an unmounted portion formed on both sides of the sluice body, and in the sealed space portion, a cylinder is disposed on a support shaft for supporting the sluice and a support bracket for supporting the cylinder. The upper end is rotatably fixed to the support bracket fixed to the upper side of the sealed space, and the lower end of the cylinder is rotatably fixed to the other end of the link connected to the central axis. Characterized in that it can be rotated to the center.

In the above, the siphon drain passage is formed in the lower side of the water main body through the upper portion of the water body from the lower side of the water body main body.

According to the present invention, since the cylinder for opening and closing the hydrological main body is installed in a closed space in the unsealed portions of both sides of the hydrological main body, the possibility of failure of the cylinder due to impurities such as a few seconds is greatly reduced. And durable.

In addition, even when the suspended solids flowing from the upstream of the river are unsightly caught at the top of the floodgate, the floating material removal plate is operated quickly so that the suspended solids float down through the downstream portion of the river.

In addition, a large number of hydraulic induction plates are formed on the upstream and downstream floors of the epron where the floodgates are installed as a way to help the fish that flow upstream and downstream from the stream when the floodgates are normally open. Afterwards, the rear end of the hydraulic guide plate is configured to exhibit a function of restoring the river ecosystem by constructing a fish migration guide string composed of a member such as a brush.

Hereinafter, a specific first embodiment of the present invention will be described in detail with reference to the drawings.

Figure 1 shows a perspective view showing a closed state automatic gate is configured to discharge the influent without opening the gate by the role of the siphon passage configured in the interior of the gate, Figure 2 is in the present invention Accordingly, a perspective view showing an open state of the automatic repair door configured to discharge the influent without opening the water gate by the role of the siphon passage formed inside the water gate. 3 is a cross-sectional view taken along the line A-A of FIG. 2, and FIG. 4 is a cross-sectional view taken along the line B-B of FIG.

FIG. 5 is a perspective view illustrating an open state of a sluice gate constructed in accordance with a second embodiment of the present invention, and FIG. 6 is a perspective view illustrating a closed state of a sluice gate constructed in accordance with the second embodiment of the present invention. FIG. 7 is an internal perspective view showing the internal structure of a sluice structure constructed in accordance with a second embodiment of the present invention, and FIG. 8 is a sluice line "B1-B1" of FIG. 7 constructed in accordance with a second embodiment of the invention. It is a cross section. FIG. 9 is a plan view of a hydrological gate constructed in accordance with a second embodiment of the present invention, and FIG. 10 is a cross-sectional view showing the gate “CC” line in FIG. 7 constructed in accordance with the second exemplary embodiment of the present invention. FIG. 11 is a sectional view of the sluice line "A1-A1" constructed in accordance with the second embodiment of the present invention, FIG. 12 is an enlarged sectional view of FIG. 8, and FIG. 13 is an enlarged sectional view of FIG. FIG. 14 is an internal perspective view of a hydrological gate constructed in accordance with a fourth embodiment of the present invention, and FIG. 15 is a cross-sectional view of the hydrological gate B2-B2 constructed in accordance with the fourth exemplary embodiment of the present invention, and FIG. A cross-sectional view of a sluice line A4-A4 constructed in accordance with an embodiment, and FIG. 17 is a cross-sectional view of a sluice line DD constructed in accordance with a fourth embodiment of the present invention, and FIG. 18 is a sluice gate constructed in accordance with a fourth embodiment of the present invention. 15 is an enlarged cross-sectional view of FIG. 15 showing line B2-B2, and FIG. 19 is a front view of a water gate constructed in accordance with a fourth embodiment of the present invention, and FIG. 20 is a water gate constructed in accordance with a fourth embodiment of the present invention. Back view.

Automatic beam gate (AW) of the present invention is disposed inclined between the support structure 100 of the concrete structure constructed at regular intervals in the width direction of the waterway as in the prior art.

The sluice body (1) has a rectangular plate shape and a central shaft (55) is formed on the upper portion of the sluice body (1), and the central shaft (55) is a body (100) formed at both sides of the sluice (1). The white paper is fixed to the support shaft 24 formed in the interior of the shaft. By the above configuration, the hydrologic main body 1 is rotatable about the central axis 55.

An elongated closed space 11 is formed starting from the support shaft 24 supporting the sluice main body 1, and the cylinder 22 is disposed up and down by the white paper in the closed space 11.

The upper end of the cylinder 22 is rotatably fixed to the support bracket 24 of the sluice 1 fixed above the sealed space 11 by the link 99, and the lower end of the cylinder 22 is fixed at one end to the cylinder. The pin 72 is fixed to the shaft 71 so as to be rotatable.

When the cylinder 22 is stretched and contracted as described above, as shown in FIGS. 1 and 2, the sluice main body 1 can rotate about the central axis 55 to open and close the waterway, and in this operation, the cylinder ( 22) is accommodated in both sides of the unsealed body space 11 of the sluice body (1), so that foreign matters do not flow into the cylinder sealed space 11, there is no fear of failure due to foreign matters.

In the above operation, the water body 1 is closed in the closed state as shown in FIG. 1.

In the present invention, the siphon drain passage 16 is formed in the lower side of the water main body 1 through the upper portion of the water main body 1 at the bottom of the water side of the water body 1, and the water drain side passage 16 is formed. The white paper is configured to automatically block the siphon passage 16 when the water gate 1 is opened by the blocking plate 66. At this time, when the sluice body 1 is closed as shown in FIG. 3, the blocking plate 66 is opened by an external operation, and when the sluice body 1 is opened as shown in FIG. 4, the blocking plate 6 is opened. The inlet 44 is closed automatically.

In order to artificially manipulate the blocking plate 66, the combining of the blocking plate 66 with the rotating member is also possible, since a person skilled in the art can easily change the design is within the scope of the present invention.

In addition, to achieve the effect of the present invention even if the position of the blocking plate 66 is configured to arbitrarily change the amount of inflow flowing in the upstream of the stream when passing through the siphon passage [16] Even if the position is different, it is natural to belong to the scope of the present invention.

As the siphon drainage passage 16 is formed in the water gate 1 as described above, the low water level is reduced by the pressure action of water pressure generated when the water level is increased when the water main body 1 is closed. After reaching the top of the main body, the water in the lower layer, which is stored by the pressure of natural water pressure, is stored at the back of the water storage side through the inlet 44 of the siphon discharge passage 16 configured in the hydrologic main body 1. Due to being discharged to the rear portion of the sluice [1] by the inlet water discharge port 33 is configured to prevent the phenomenon of stagnation (腐敗) while stagnating in the lower water side. Here, since the siphon drain passage 16 is kept closed by the blocking plate 66 when the water main body 1 is in an open state, the cyphon drain passage 16 does not have to be blocked by sand or gravel. .

Referring to a second embodiment of the present invention, a method for configuring a cyphon passageway is as follows.

FIG. 5 shows an open state of a sluice formed in accordance with a second embodiment of the present invention, and FIG. 6 shows a closed state of a sluice constructed in accordance with a second embodiment of the present invention. FIG. 8 is an internal perspective view showing the internal structure of a sluice formed in accordance with a second embodiment of the present invention, and FIG. 8 is a cross-sectional view of the sluice line "B1-B1" in FIG. 7 constructed in accordance with the second embodiment of the present invention. 9 shows a plan view of a sluice gate constructed in accordance with a second embodiment of the invention, and FIG. 10 shows a sluice "CC" line in FIG. 7 constructed in accordance with a second embodiment of the invention. 1 is a cross-sectional view, and FIG. 11 shows a cross-sectional view of the hydrological "A1-A1" line constructed in accordance with the second embodiment of the present invention.

12 is an enlarged cross-sectional view of FIG. 8, and FIG. 13 is an enlarged cross-sectional view of FIG.

Referring to each code shown in accordance with the second embodiment is as follows.

Indication 1 indicates the hydrograph, indication 22 the hydraulic cylinder, indication 24 the support shaft of the hydrology, indication 16 the cyphon passage, indication 33 the influent inlet, indication 44 the influent outlet, Reference numeral 21 denotes the white color of the sluice, reference numeral 25 denotes the cylinder support shaft, reference numeral 26 denotes the cylinder rod white axis, indication 27 denotes the exponential packing, and reference numeral 51 denotes the circular pipe formed at the bottom of the hydrology. 52 is for the c-beam, 53 is the H-beam, 54 is the cische corridor, 55 is the lower skin plate of the sluice, and 56 is the upper skin plate of the sluice, and 59 Shows the shaft pipe of the sluice, reference numeral 58 denotes the exponential packing tightening bolt, reference numeral 65 the siphon passage divider, and reference numeral 100 the body part which supports the hydrologic gate.

Referring to the hydrological structure of the second embodiment according to the present invention.

The second embodiment is a modification of the configuration of the cyphon passage 16 constituted according to the first embodiment of the present invention more simply than the first embodiment.

As the structure of the water gate [1] fixed to the support shaft [24] formed on one side and the other side of the body [100], the upper end of the support shaft [24] is composed of a cylinder support shaft [25], 1] the lower end of one side and the other end surface is coupled with the water gate [1] by the cylinder rod white shaft [26] connected to the cylinder [22] and the white paper, and the hydraulic pressure generated by the hydraulic cylinder operating device configured at the top of the embankment The hydraulic piping line [not shown] is coupled so that it can be delivered to the cylinder 22, and the hydraulic cylinder operating device [not shown] is a structure that is automatically operated by the instruction of the automatic control system [not shown].

Since the structure of the shaft and the cylinder of the sluice and the automatic control system connected to the hydraulic piping line can be used using a known member, it is not described and not shown.

The second embodiment is configured as follows.

In the circular pipe 51 formed at the lower end face of the upper plate skin plate [56], which is the main component of the sluice [1], Section steel [52] Inverted in this form and bonded to the horizontal to the circular pipe [51], Square pipe [52] bonded to the circular pipe in the form of a siphon passage separation plate [65] consisting of a flat plate in the form of a joint pipe and [54] ] Is placed so that the upper and lower sides overlap, and the upper part of the upper tube of the tube [54], which is configured to overlap and simultaneously overlap the upper part of the siphon passage separation plate [65] at the middle of the overlapping tube [54]. The top of the tube [54] is joined with the H beam [53], while the siphon passage [16] is configured in the shape of a □ so as to serve as the siphon passage [16] at the position of the H beam [53]. ] Joins the circular pipes [59] constituting the main axis of the sluice [1]. In this way, the skeleton of the sluice [1] and the siphon passages [16], which are formed inside the sluice [1], have a number of square tubes [ 54] and circular pipes [51] [59] and c-beams [52] and H-beams [53] to form longitudinal hydrographs [1] and cross-gates of hydrologic gates [1] The frame [86] is constructed by cutting a plurality of H beams [86] to a predetermined length between a plurality of pipes [54] formed in a transverse direction. Inserted vertically between them, and then joined the lower part of the vertical H beam [86] to the rear part of the c-beam [52] formed at the bottom of the sluice [1], and then the horizontal frame [86] The upper part is composed of the inner frame of the sluice [1] by joining with the H beam [53]. The upper skin plate [56] and the lower skin plate [55] can be placed on the upper part of the skeleton of the sluice [1]. The upper and lower surfaces of the sluice [1] are completed by joining the inner skeleton of the door. The role of the siphon passage [16] in the lower skin plate [56] and the lower skin plate [55] of the sluice [1] is completed. The inlet inlet [44] and the inlet outlet [33] are perforated in a rectangular rectangular shape. A structure in which to configure the phone passage [16].

The method for constructing the cyphon passage 16 according to the second embodiment can be designed and changed by any person skilled in the art.

As described above, it is explained that the method for constructing the siphon passage according to the first and second embodiments can be variously modified.

For example, by bending and joining the plate in such a form without using a square pipe which is a constituent member of the cyphon passage configured according to the second embodiment, or The first embodiment and the second embodiment may be constructed by bending two pairs in the form so that the opposite parts of the upper plate overlap, or by continuously bending the two pairs of plates in the form of a "R" and joining them to overlap each other horizontally or by using a circular pipe. Since it can be configured by modifying the configuration of the siphon passage according to the example it is natural to configure the siphon passage in such a modified form also falls within the scope of the present invention.

In addition, after removing the one-way part from the K-shaped tube part to change the length of the tube to be joined to the rear part of the c-beam or to serve as a siphon passage. So that the parts that remain in this form overlap By configuring in this form, you can configure the role of the smartphone.

As such, it is natural to belong to the scope of the present invention as the modified configuration can be changed by any person skilled in the art.

Referring to the operation according to the first embodiment and the second embodiment configured as described above are as follows.

When the water flows up to the upper part of the sluice [1], the pressure of the pressure of clean water and sedimentation sludge stored in the lower part of the sluice layer through the siphon passage [16] is composed of about 60% to 70% of the inside of the sluice. By passing through the influent inlet 44 by the over the siphon passage 16 is to be automatically discharged through the rear portion of the water gate [1] through the inlet outlet 33

The reason is that clean water, which has a high specific gravity contained in the water, is deposited in the lower part of the stream, and because the clean water and sedimentary sludge are discharged first, the contaminated water is continuously raised.

In addition, by acting as a siphon passage, it is possible to promote the safety of swimmers who play in the water by releasing the amount of river water inflow without opening the gate.

In the present invention, since the cyphon passageway of the present invention can be configured by modifying the position of the cyphon passageway according to the situation, the method for configuring the cyphon passageway at a point of about 60% to 70% is limited. The reason is that if the inflow control plate (not shown) and the discharge control plate (not shown) are freely applied or modified by using technologies that can be developed and developed, the storage water level can be freely stored in the inside of the cyphon passage. It is possible to control the position of the siphon passage so that not only can be controlled but also the amount of inflow and outflow inflow from the upstream of the stream can be adjusted.

Therefore, it is natural that such modified technology also falls within the scope of the present invention.

Next, a third embodiment combined with the present invention is configured as follows.

The third embodiment of the present invention relates to the configuration of the fish movement guide string 552 constituted in the hydraulic guide plate 551 in the upstream and downstream parts of the hydrologic main body, the configuration of which is as follows.

Induce fish movement in the hydraulic guide plate 551 in the form of a brush made of a flexible material, such as a rope made of a cloth or poly ethylene such as a cloth to help the fish easily move from the drain side to the reservoir side as a support medium The string 552 is structured to be fixed in a zigzag form on the bottom portion 552 and the upstream portion of the sluice 1 and the bottom portion of the slug (1) apron 100.

As described above, a plurality of hydraulic guide plates 551 and fish movement guide strings 552 are formed on the apron bottom and the upstream portion of the hydrologic main body 1 and move upwards in the open state of the hydrological main body 1. In spite of the strong hydraulic pressure of the fish, the fish fins can be easily moved by relying on the fish moving string 552 configured in the form of a brush to enable the preservation of the natural ecosystem. The shape of the fish migration string 552 is configured to form a chimney cleaning brush on the rope or As a structure in which a brush is formed in the shape of a child, the fish moving string 552 can be configured and used. However, the form may consist of these forms Is a shape It is not possible to limit the shape and form as it can be configured in various ways in this form.

Next will be described the structure according to the fourth embodiment of the present invention.

Referring to the structure of the foreign material remover coupled to the water gate according to the present invention.

3 and 4 show a cross section of the cyphon passageway and a cross section of the foreign matter remover according to the first embodiment.

The reason for displaying only the cross section without showing the details is that the deformation can be made depending on the length of the water gate.

In the flooding, suspended solids flowing from the upstream of the stream are caught at the upper end of the sluice gate (1). A structure for easily removing such suspended solids is constructed as follows.

The upper surface of the sluice (1) is composed of a semi-circular U-shaped floating material removing plate 34 is composed of white paper, the lower portion of the floating material removing plate 34 is composed of a white paper 37 is combined with the elastic member 37 The position of the elastic member 37 and the white paper 37, which are coupled to the water gate 1 by the floating material removing plate 34, can increase or decrease the number, so that the number is not fixed.

The cylinder 38 configured to operate the suspended solids removing plate 34 is joined by a white paper 60 configured at the rear portion of the cylinder chamber 39 and operated to remove suspended substances caught on the water gate 1. The reverse operation of the floating material removing plate 34 is operated by the cylinder rod 36 coupled with the cylinder 38 constituted at the upper center of the water gate 1, and the cylinder 38 and the cylinder rod 36 The floating material removing plate 34, which has been driven backward by force, is returned to the water gate 1 by the elastic force of an elastic member 37 (not shown), such as a spring that fixes the floating material removing plate 34 to the white paper 37. It is configured to repeat the close contact with,

The cylinder rod 36 coupled with the cylinder 38 configured to operate the suspended solids removing plate 34 is configured to reciprocate only, and the inner surface of the suspended solids removing plate 34 is formed at the end of the cylinder rod 36. The rotating roller 35 is configured to be in close contact with the part to enable the rolling.

Hydraulic or pneumatic pipe line and automatic control system for operating the floating material removing plate 34 configured as described above is not shown because it can be changed and used as much as possible by using a variety of well-known or application development machines In addition, since the member that can be configured to rotate the floating material removing plate 34 can be configured to be modified in thousands, it is natural that even if the configuration is wrong, it belongs to the scope of the present invention.

Referring to the structure of the hydrological gate according to the fourth embodiment of the present invention is as follows.

The fourth embodiment is a slightly modified method of constructing the water gate [1] according to the first and second embodiments.

FIG. 14 is an internal perspective view of a hydrological gate constructed in accordance with a fourth embodiment of the present invention, and FIG. 15 is a cross-sectional view of the hydrological B2-B2 line constructed in accordance with the fourth exemplary embodiment of the present invention, and FIG. A cross-sectional view of a sluice line A4-A4 constructed in accordance with an embodiment, and FIG. 17 is a cross-sectional view of a sluice line DD constructed in accordance with a fourth embodiment of the present invention, and FIG. 18 is a sluice gate constructed in accordance with a fourth embodiment of the present invention. 15 is an enlarged cross-sectional view of FIG. 15 showing line B2-B2, and FIG. 19 is a front view of a water gate constructed in accordance with a fourth embodiment of the present invention, and FIG. 20 is a water gate constructed in accordance with a fourth embodiment of the present invention. Back view.

In the fourth embodiment, the method of constructing the siphon passage 16 according to the first embodiment of the present invention is modified in a simpler manner than the first and second embodiments, and the upper plate of the sluice [1] is constituted. The circular skin 51 is joined to the lower end of the upper skin plate [56]. Turn the c-section upside down to join the [52] After the circular pipes [51] and the c-sections [52] are joined horizontally in the shape of a ruler, an intermediate frame [77] consisting of steel, such as H-beams, is attached to the upper skin plate [56]. 56, and act as a siphon passageway [16] in the middle of the intermediate frame [77] consisting of steel such as H beam. [16] In the middle of the siphon passage [16], which is perforated in a rectangular shape with a rectangular perforation in the rectangular form, a reinforcement plate [78] consisting of a member such as braid [78] in an intermediate frame [77] At the upper end of the upper skin plate [56] and the upper frame [53] consisting of another H beam [53] to the upper skin plate [56]. At the top of the rear, a horizontal frame [59] consisting of a circular pipe [59] is joined to the H beam [53], and the space between the rear part of the horizontally shaped c steel [52] and the space of the intermediate H beam frame [77]. In addition, a plurality of H beams [79] constituted vertically are inserted between the upper H beam frames [53], and between the rear portion of the c-beam [55] and the space of the intermediate frame [77] and the upper frame [53]. H-beams [79] inserted between them are continuously joined to form a horizontal frame [79], and then H-beams [79] A plurality of horizontal frames [79] made of the same member are again joined with the upper skin plate [56] and zoomed together with c-beams [52], intermediate frames [77], and top frames [53] and horizontal frames [79]. After joining the lower skin plate [55] consisting of steel on the upper end of the lower skin plate [55] in the rectangular inlet shape of the inlet inlet [33] connected to the siphon passage [16] In addition, the inlet water outlet [44] is perforated in a rectangular shape in the middle of the upper portion of the skin plate [56], which forms the rear part of the sluice [1].

The method for constructing the cyphon passage according to the fourth embodiment configured as described above is a structure in which only the first embodiment and the second embodiment are modified in another form.

The structure of the water gate according to the first embodiment, the second embodiment, and the fourth embodiment, enumerated as above, can be modified in various ways.

For example, changing the member of the c-beam [52] and the intermediate frame [77], which are the main structural members used to construct the interior of the sluice [1], to the b-beam or c-beam will produce the effects of the present invention. It is natural that the number falls within the scope of the present invention.

In addition, the structure of the present invention can be completed even if the configuration of the cyphon constituent member is changed to H-shaped steel or by changing the cyphon passage using a braided member, such a modification of the structure is also within the scope of the present invention. It is natural.

The configurations enumerated as described above have been described in accordance with the embodiments of the present invention and are not intended to limit the technical scope of the present invention. That is, the present invention can be variously modified within the technical scope and it is natural that such variations belong to the scope of the present invention. In addition, it is very easy to change the structure according to the present invention by those skilled in the art using the various known members of the cyphon constituent components of the present invention, therefore, the design of the present invention may be completed through a slight design change. Since it is possible to combine the configuration and structure of the siphon passage to the conductive hydrologic method, it is natural that it is also slightly modified to fall within the scope of the present invention.

In addition, the arc-shaped index member and the packing member constituted in the closed space portion formed on both side portions of the sluice can be configured using any known member. It is natural to fall within the scope. In the construction of the siphon drainage passage configured in the present invention, even if a person skilled in the art can open and close the siphon configuration method according to the present invention, it is possible to manufacture and apply such a configuration to the hydrology of another method. It is natural that the combination configuration also falls within the scope of the present invention.

In addition, the shape and shape of the hydraulic guide plate configured in the present invention and the fish migration guide string is configured so that the fish moving upstream of the river can rely on the fins to guide the fish migration guide, even if the material is different Since it is possible to change the configuration so that different materials or different shapes and shapes, it is natural to belong to the scope of the present invention.

Hydrologic production techniques deformed to exhibit the function proposed by the present invention, even if it is configured so that the shape and shape are not the same, it is natural that the function proposed by the present invention falls within the scope of the present invention. In addition, it is natural that civil engineering works related to the present invention also fall within the scope of the present invention.

According to the present invention, since a cylinder for opening and closing the water main body is provided with a sealed space at both sides of the body of the water body, greatly reducing the risk of failure of the cylinder due to impurities such as a few seconds, the opening and closing of the water body without any problems. It can be performed easily and durable.

In addition, through the siphon drainage passage formed in the hydrologic main body, only the inflow water flowing in the upstream of the stream is discharged, thereby enabling the discharge of contaminants deposited in the water on the reservoir side even when the hydrologic gate is closed. Can exert.

In addition, when the water gate is opened, the fish to move upstream can easily move upstream of the river by relying on the fins on the hydraulic guide plate and the fish moving guide string formed at the lower portion of the water gate, the upstream portion of the apron and the downstream apron. There is a significant action to restore the river ecosystem.

In addition, there is a significant working effect that can keep the top of the floodgate always clean by easily removing the floating material floating upstream of the river during the flood.

Claims (4)

The support structure 100 is constructed at regular intervals in the width direction of the channel, and a hollow square plate-shaped hydrologic main body 1 is inclined between the supporting structures 100, and an upper portion of the hydrologic main body 1 is located at the center axis. Fixed to the support structure 100 by rotation, the lower portion of the river water to the lower side of the drainage side of the hydrologic main body 1 through the upper portion of the hydrological main body 1 from the bottom of the water side of the hydrological main body 1 Inflow water inlet 44 is configured to allow the inlet to be discharged, the inlet water inlet 44 is configured so that the cyphon discharge passage 16 is in continuous communication with the inlet outlet 33, the inflow water from the upstream of the stream Automatic sluice gate and its construction method characterized in that it is configured to be continuously discharged to the rear portion of the sluice gate [1] through the siphon passage [16] in the state that the sluice [1] is not opened by a certain amount of A plurality of hydraulic guide plates 551 are fixed in a zigzag form at the bottom of the upstream portion where the lower portion 552 of the water gate 1 and the water gate 1 are installed and the bottom of the apron 100 at the bottom portion thereof, and the water pressure guide plate 551. In the rear portion of the fish to constitute a brush-like fish movement guide string 552 composed of a flexible material such as cloth or poly ethylene so that can be used as a support medium of the fin, which is the main means of moving upstream of the stream The automatic guard gate configured to discharge only influent without opening the gate by the role of the siphon passages, and the construction method thereof The floating material removing plate 34 is formed in a semi-circular shape in the shape of a semicircular shape at the top of the sluice to remove floating materials flowing from the upstream of the stream during rain or flood. The floating material removing plate 34 formed at the top of the door is coupled to the water gate by the white paper 37 coupled with the elastic member 37, and the cylinder chamber 39 is formed at the center of the water gate 1. In the cylinder and the cylinder rod is configured, the end of the cylinder rod is composed of a roller 35, the rear portion of the cylinder is coupled to the white paper cylinder, and the cylinder is connected to the pipe line (not shown) as a structure If the suspended solids flowing from the upstream of the river are caught at the top of the floodgate during the flood, the cylinder formed inside the upper shaft of the floodgate is extended backward, so that the suspended solids removing plate formed at the top of the floodgate is reversed. The automatic guard gate and its configuration configured to discharge only the influent flowing from the upstream of the stream without opening the gate by the role of the siphon passages characterized in that the suspended substances suspended in the suspended substance removing plate are configured to be removed. Way In floating or conductive floodgates, a circular pipe 51 is joined to the lower end of the upper skin plate constituting the upper plate of the sluice [1] and then to the circular pipe [51]. Turn the c-section upside down to join the [52] After the circular pipes [51] and the c-sections [52] are joined horizontally in the shape of a ruler, an intermediate frame [77] consisting of steel, such as H-beams, is attached to the upper skin plate [56]. 56] and act as a siphon passageway [16] in the middle of the intermediate frame [77] consisting of steel such as H beam. [16] In the middle of the siphon passage [16], which is perforated in a rectangular shape with a rectangular perforation in the rectangular form, a reinforcement plate [78] consisting of a member such as braid [78] in an intermediate frame [77] At the upper end of the upper skin plate [56] and the upper frame [53] consisting of another H beam [53] to the upper skin plate [56]. At the top of the rear, a horizontal frame [59] consisting of a circular pipe [59] is joined to the H beam [53], and the space between the rear part of the horizontally shaped c steel [52] and the space of the intermediate H beam frame [77]. In addition, a plurality of H beams [79] constituted vertically are inserted between the upper H beam frames [53], and between the rear part of the c-beam [55] and the space of the intermediate frame [77] and the upper frame [53]. H-beams [79] inserted between them are continuously joined to form a horizontal frame [79], and then H-beams [79] A plurality of transverse frames [79] composed of silver members are joined again with the upper skin plate [56], with zooming of the c-beams [52] and intermediate frames [77], and the upper frames [53] and the transverse frames [79]. The upper part of the lower skin plate [55] is formed by joining the upper portion of the lower skin plate [55] and the inlet inlet [33] is connected to the siphon passage [16] to form a rectangular rectangular shape. In addition, the role of the siphon passage formed by perforating the inflow outlet [44] in the shape of a rectangular rectangle on the upper part of the upper skin plate [56], which forms the rear part of the floodgate [1], is about 60% to 70%. Automatic flood gate configured to discharge only influent flowing from upstream of the river without opening the gate by