KR100765894B1 - Composition mode automatic floodgate - Google Patents

Abstract

A composite automatic floodgate apparatus is provided to discharge irrigation water through an upper part of a floodgate or to a lower end of the floodgate by turning the floodgate supported by a housing part through a crank rotating part. A composite automatic floodgate apparatus comprises a floodgate(110), a housing part(120), a rotary shaft(114), and a coupling shaft(115). The floodgate has a front part, a rear part, and a connecting device, and is installed with a waterway pipe. The housing part is installed with a first shaft flange(128a), a second shaft flange(128b), and a crank rotating part(150) placed between the first and second shaft flanges. The rotary shaft is coupled with a connecting device(116) of the floodgate. The coupling shaft is inserted in the second shaft flange. The crank rotating part includes a fixing link(152), a cylinder(154), and first and second rotary links(158a,158b). The other end of the first rotary link is fixed to the other end of the rotary shaft. The other end of the second rotary link is fixed with the coupling shaft.

Description

Compound mode automatic floodgate

1 is a perspective view showing a partially cut composite automatic hydrological device according to the present invention.

2 is a plan view of the composite automatic hydrological device shown in FIG.

3 is a side view of the composite automatic hydrological device shown in FIG.

4 and 5 is a schematic diagram showing a state of use of the composite automatic hydrological device shown in FIG.

Explanation of symbols on the main parts of the drawings

100: composite automatic hydrogate 110: hydro gate

114: rotating shaft 115: coupling shaft
116: connecting rod 120: housing portion
128a: first shaft flange 128b: second shaft flange
150: crank rotating part 152: fixed link
154: cylinder 156: cylinder rod
158a: first rotary link 158b: second rotary link

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The present invention relates to a composite automatic hydrological device mixed with a conductive discharge and a bottom discharge, and more particularly, it can be arbitrarily selected to discharge the stored irrigation water to the top of the hydrological discharge or to the bottom of the hydrological in various environments The present invention relates to a composite automatic hydrological device that can be easily installed, has both the advantages of conduction and bottom discharge, as well as a simple structure for easy maintenance.

In general, irrigation canals, rivers and reservoirs, etc. are used for the purpose of storing a certain amount of water when needed to properly use farmland management or irrigation water. Such waterways are equipped with irrigation water management, i.e., a hydrological device that opens and closes the gate to discharge water when the drought is stored in large quantities.

Such a hydrological device is divided into a conductive type in which the water gate is conducted in the same direction as the discharged water and a lower discharge type in which the flowing water is discharged to the lower part of the water gate.

The conduction hydrograph has the advantage that foreign substances can be discharged completely without flooding when the flood occurs, and the lower drainage hydrograph does not need sewer dredging because sediment does not accumulate, and because the fish naturally forms, There is no need for construction, which not only reduces construction period and construction cost but also has excellent advantages in improving water quality because it discharges water at the bottom.

In addition, the conducting hydrologic device and the bottom discharge hydrological device have advantages such as minimizing flood damage by horizontal opening during rapid water level increase.

Recently, hydrological devices have been developed that combine the advantages of the above-described conductive hydrological device and the lower discharge hydrological device.

However, since such a hydrological device is composed of a plurality of components, that is, a plurality of link connecting rods, the cost of manufacturing the hydrological device increases, and there is a problem in that the link connecting rod is damaged by the hydraulic pressure acting on the hydrological gate.

The present invention has been proposed to solve the conventional problems as described above, can be selected to be discharged to the upper portion of the water gate to discharge the irrigation water stored in the conductive way to the bottom of the water gate can be installed in a variety of environments and conductive In addition to having all the advantages of the bottom discharge type and its purpose is to provide a complex automatic hydrological device that is simple in structure and easy to maintain.

In order to achieve the object of the present invention as described above, the composite automatic hydrological device according to the present invention,
A water gate provided in a drainage passage having a front portion formed to round the contact portion of water during closing, a rear portion formed in a plate shape perpendicular to the opposite side of the front portion, and a connecting rod integrally installed at both sides of the rear portion;
A housing part disposed on both end sides of the water gate to support the water gate, the first shaft flange supporting the water gate rotatably, the second shaft flange spaced apart from and parallel to the first shaft flange, and the A housing part having a crank rotation part disposed between the first shaft flange and the second shaft flange;
A rotating shaft inserted into the first shaft flange and having one end coupled to and fixed to a connecting rod of the sluice; And
And a coupling shaft inserted into and coupled to the second shaft flange.
The crank rotation part, the fixed link is installed in the lower portion of the housing, the cylinder is pivotally installed in the fixed link, the first rotary link is coupled to one end by the coupling pin to the extension end of the cylinder rod extending from the cylinder and It has a second rotary link,
The other end of the rotating shaft is fixedly installed at the other end of the first rotary link, and the coupling shaft is fixedly installed at the other end of the second rotary link.
The composite automatic hydrological device, characterized in that the concave index plate of the same shape as the front portion of the water gate is installed on the bottom of the drainage passage.

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As described above, according to the present invention, the stored irrigation water can be selectively discharged to the top of the water gate or discharged to the bottom of the water gate can be installed in a variety of environments and both the advantages of the conduction and bottom discharge As well as having a simple structure, easy maintenance.

Hereinafter, a composite automatic hydrological device according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a partial cutaway of the composite automatic hydrological device according to the invention, Figure 2 is a plan view of the composite automatic hydrological device shown in Figure 1, and Figure 3 is a side view of the composite automatic hydrological device shown in FIG. to be.

1 to 3, the composite automatic hydrological device 100 according to the present invention is disposed on the drainage path 12 formed between the banks 10 and the water gate 110 to selectively open and close the drainage path 12 and And a housing part 120 disposed on both end sides of the sluice 110 to support the sluice 110.

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The housing part 120 is mounted inside the first shaft flange (128a) for fixing the water gate 110, and the second shaft flange (parallel to the spaced apart from the first shaft flange (128a) ( 128b) and likewise a crank rotating part 150 mounted inside the housing part 120 and disposed between the first shaft flange 128a and the second shaft flange 128b.

First, the water gate 110 may selectively open and close the drainage passage 12.

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The sluice gate 110 has a predetermined thickness, and the water contacting part of the sluice gate has a front portion 312 having a round shape and a rear portion 313 having a vertical plate shape on the opposite side thereof. Has In addition, the connecting rod 116 is integrally formed at both sides of the rear portion 313 of the floodgate 110 to connect the floodgate 110 and the rotation shaft 114.

Preferably, a water stop plate 16 having a predetermined thickness in a round shape having the same shape as the front portion 312 of the sluice gate 110 is installed at the bottom of the drainage passage 12.

The housing portion 120 is hollow inside and the outer shape is manufactured in the same shape as the embankment 10 as a whole.

Preferably, the cover 124 that can be opened and closed may be formed on one side of the upper surface of the housing part 120.

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The first shaft flange 128a and the second shaft flange 128b are spaced apart at predetermined intervals. The rotation shaft 114 is inserted and guided into the first shaft flange 128a, and the coupling shaft 115 is inserted and coupled to the second shaft flange 128b.

As described above, the housing part 120 is provided with a first shaft flange 128a, a second shaft flange 128b, and a crank rotating part 150 therebetween.

On the other hand, the crank rotating part 150 has a fixed link 152 and the cylinder 154.

The fixing link 152 is fixedly disposed on the bottom surface of the housing portion 120. One end of the cylinder 154 is pivotally mounted to the fixed link 152, and the cylinder rod 156 extending from the cylinder 154 extends between the first shaft flange 128a and the second shaft flange 128b. Are arranged.

At this time, the extension end of the cylinder rod 156 extending between the first shaft flange (128a) and the second shaft flange (128b) by the coupling pin 370, the first rotary link 158a and the second rotary link It is coupled to one end of 158b. In addition, the rotating shaft 114 is fixedly installed at the other end of the first rotary link 158a, and the coupling shaft 115 is fixedly installed at the other end of the second rotary link 158b.

The cylinder 154 mounted as described above pivots the first rotary link 158a and the second rotary link 158b by extending or compressing the cylinder rod 156, and thus the first rotary link. The rotating shaft 114 fixed to 158a is rotated.

As a result, the cylinder 154 rotates the sluice 110 connected to the rotation shaft 114 by the connecting rod 116 in one of the one side and the other side of the drainage passage 12 so as to be released from the drainage passage 12. To be.

Hereinafter, the operating state of the composite automatic hydrological device 100 formed as described above will be briefly described.

Referring back to FIG. 1, FIG. 1 illustrates a state in which the water gate 110 closes the drainage passage 12.

In order for the water gate 110 to close the drainage passage 12 as described above, the operator first starts the cylinder until the top of the water gate 110 coincides with the top of the housing portion 120 as shown in FIG. 3. The cylinder rod 156 of 154 is extended to close the drainage passage 12.

At this time, the first rotary link 158a and the second rotary link 158b that are rotated by the extending cylinder rod 156 maintain a standing state toward the radially upper side of the rotary shaft 114.

4 and 5 are views showing the state of use of the composite automatic sluice device shown in Figure 1, Figure 4 is compressed by the cylinder rod 156 of the cylinder 154 discharged to the upper side of the sluice gate 110 5 is a bottom opening type discharge state in which the flowing water is discharged to the lower side of the sluice gate 110 by extending the cylinder rod 156 of the cylinder 154.

Referring to FIG. 4, in order to discharge the running water to the upper side of the water gate 110, the operator operates each cylinder 154 to compress the cylinder rod 156.

When the cylinder rod 156 is compressed as described above, the first rotary link 158a and the second rotary link 158b mounted on the extension end of the cylinder rod 156 are pivoted toward the cylinder 154 side.

As the first rotary link 158a and the second rotary link 158b rotate, the rotary shaft 114 fixed to the first rotary link 158a is similarly rotated toward the cylinder 154.

As a result, the water gate 110 opens the drainage passage 12 while turning toward the index plate 16. At this time, by adjusting the compression amount of the cylinder rod 156, the water gate 110 is appropriately opened in a conductive manner.

On the other hand, in order to discharge the running water to the lower side of the water gate 110 under the condition as shown in Figure 1 above, the operator operates the cylinder 154 to extend the cylinder rod 156 to the end as shown in FIG. When the cylinder rod 156 is extended as described above, the first rotary link 158a and the second rotary link 158b mounted on the extension end of the cylinder rod 156 rotate to the opposite side of the cylinder 154. The lower side of the water gate 110 is lifted to the upper side to open the drainage passage 12 in the bottom.

As described above, the composite automatic hydrological device 100 according to the present invention includes a water gate 110 for selectively opening and closing the drainage passage 12, a housing unit 120 for guiding the water gate 110, and the housing. By providing the crank pivot 150 to pivot the water gate 110 supported on the portion 120, the user can selectively open the water gate 110 to the same height as the apron height of the structure, as well as flowing water Can be opened to be discharged to the lower end of the gate 110, the irrigation canal having a variety of forms, there is an advantage that can be installed in the waterways, such as rivers and reservoirs can obtain the economic benefits of construction.

In addition, since the structure of opening and closing the water gate 110 is simpler than the conventional hydrological devices, it is possible to reduce the production period and manufacturing cost according to the production of the hydrological device 100 and to shorten the construction period. There is an advantage that anyone can easily repair the breakdown of the hydrological device 100.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the invention described in the claims. You will understand.

Claims (5)

A water gate provided in a drainage passage having a front portion formed to round the contact portion of water during closing, a rear portion formed in a plate shape perpendicular to the opposite side of the front portion, and a connecting rod integrally installed at both sides of the rear portion; A housing part disposed on both end sides of the water gate to support the water gate, the first shaft flange supporting the water gate rotatably, the second shaft flange spaced apart from and parallel to the first shaft flange, and the A housing part having a crank rotation part disposed between the first shaft flange and the second shaft flange; A rotating shaft inserted into the first shaft flange and having one end coupled to and fixed to a connecting rod of the sluice; And And a coupling shaft inserted into and coupled to the second shaft flange. The crank rotation part, the fixed link is installed in the lower portion of the housing, the cylinder is pivotally installed in the fixed link, the first rotary link is coupled to one end by the coupling pin to the extension end of the cylinder rod extending from the cylinder and It has a second rotary link, The other end of the rotary shaft is fixed to the other end of the first rotary link, the coupling shaft is fixed to the other end of the second rotary link, Complex watermark device, characterized in that the water discharge plate bottom portion is formed of a round plate of the same shape as the front shape of the water gate is installed. delete delete delete delete

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