KR101822332B1 - Turning Type Floodgate - Google Patents

Abstract

The present invention relates to a floodgate, and more specifically relates to a turning type floodgate having a structure capable of removing sediment. In an opening process of a water gate, sediment accumulated at a discharge side can be removed such that the water gate can be smoothly operated by preventing interference in opening and closing of the water gate due to the sediment. In addition, by frequently removing sediment in opening and closing the water gate, the foreign substance accumulation at the discharge side is prevented. Accordingly, abrasion or failure of a hydraulic cylinder at the discharge side due to sediment can be prevented so that failure of a water gate opening and closing device is prevented and a life of the water gate opening and closing device can be extended.

Description

{Turning Type Floodgate} with a sediment removal structure

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a movable beam, and more particularly, to a movable beam capable of effectively removing sediments deposited in a rearward direction during the operation of a sluice gate, .

In general, weir refers to a kind of clam fence that regulates the water level of a river, which is widely used nowadays because it plays a very important role in securing agricultural, industrial and domestic water. In addition, when several beams are installed in the river where the dam can not be installed, the water quantity can be adjusted, and thus it is used as an alternative structure of the middle and large dams.

The types of beams are divided into high information and moving beams, and moving beams are divided into high beam beams and mechanical beam beams. In general, various types of waterways are installed in various related waterways such as rivers and rivers, for use as agricultural or industrial waters, or to reduce the damage caused by floods, either manually, automatically, semi-automatically or in combination.

Three types of elevator type, revolving type, and conducting type are commonly used according to the opening and closing type of the gates, and a specific type of gates are installed depending on the purpose of installation and purpose of use.

Particularly, the conduction type water gate is advantageous in that it can maintain a certain level of water source even if it does not require any operation, and can open the entire water channel when the water level such as concentrated rainfall sharply rises, The installation is being actively carried out in many places due to its advantages.

In the conventional conduction type water gate, a water gate is formed between the supporting structures on both sides. At the bottom of the related water channel, a bracket protruding upward is formed. The water gate is hinged to the bracket, And is configured to be openable and closable by operation of a hydraulic cylinder.

At this time, the hydraulic cylinder installed as described above is configured to be installed on the support structure at both ends of the watercraft in the case of relatively wide watercraft. In the case of the watercraft having a relatively large width, A plurality of hydraulic cylinders are installed.

However, in the conventional operation as described above, when the water gate is opened, a discharge blind spot is formed on the discharge side of the water gate and no foreign matter such as dust or waste is deposited on the blind spot , These sediments are interfered with the opening and closing of the watercraft, and the opening and closing of the watercraft are not properly performed.

Further, there is a serious problem that when the hydraulic cylinder is installed on the discharge side, the hydraulic cylinder is corroded or broken.

Korean Utility Model Registration No. 20-0359160.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for removing sediments accumulated on a discharge side during opening of a sluice gate, The present invention is directed to a movable movable beam having a sediment removing structure for enabling a movable movable beam.

In addition, by removing sediments from time to time when opening and closing the water gate, it is possible to prevent foreign matter from accumulating on the discharge side and to prevent corrosion or failure of the hydraulic cylinder on the discharge side due to the deposit, Another object of the present invention is to provide a movable movable beam having a sediment removing structure for bringing the movable movable beam.

In order to accomplish the above object, a concrete base is formed on the floor, a supporting structure is formed on both sides of the concrete base to form a relation channel, a lower bracket is protruded from the bottom of the concrete channel, In the movable beam which is opened at the front of the lower bracket and opened and closed by the operation of the hydraulic cylinder by the control panel control,

And an air injection device that injects high-pressure air to the lower part of the discharge side in the opening process of the watercraft,

The air-

An air supply unit formed in the control panel to generate and supply air at a high pressure;

An air supply pipe formed at the fresh water side of the lower bracket so as to have a length in the width direction of the water inlet and supplied with high pressure air from the air supply unit; And

A plurality of air injection nozzles formed at a predetermined interval in the air branch pipe and protruding toward the discharge side of the lower bracket to jet high pressure air to the discharge side to remove deposits,
In the air injection device,
At the bottom of the concrete foundation part on the discharge side,
An air distribution pipe of a plurality of rows drawn out from the air supply pipe is further included,
Each of the air branch pipes may further include a second air injection nozzle for spraying high-pressure air to the upper portion of the bottom portion to float the deposit.

As described above, the conduction type movable structure having the structure for removing deposits according to the present invention is formed with an air injection device for injecting high-pressure air to the discharge side of the bracket. In the process of opening the sluice gate, It is possible to smoothly operate the watercraft at any time by removing the foreign matter during the operation of the watercourse such as the removal of foreign matter.

In addition, it is possible to prevent accumulation of foreign matter such as soil or trash on the discharge side of the water jetting nozzle by the air jetting, and prevent the hydraulic cylinder from being damaged due to corrosion or breakdown of the hydraulic cylinder installed on the discharge side. The effect of extending the service life can be obtained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side cross-sectional view of a conductive movable beam having a deposit removal structure of the present invention. FIG.
2 is a plan sectional view of a movable movable beam having a sediment removal structure according to the present invention.
3 is a main part view of a conductive movable beam having a deposit removal structure of the present invention.
4 is a cross-sectional view of another embodiment of a movable movable beam having a sediment removal structure of the present invention.
5 is a sectional view showing another embodiment of a movable movable beam having a sediment removal structure according to the present invention.
Fig. 6 is an operational view of a movable movable beam having a sediment removal structure according to the present invention. Fig.
FIG. 7 is an operational view of a movable movable beam having a sediment removal structure according to the present invention. FIG.
Fig. 8 is an operating state diagram according to another embodiment of a movable movable beam having a deposit removal structure of the present invention; Fig.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

FIG. 1 is a side cross-sectional view of a movable movable beam having a structure for removing sediments according to the present invention, FIG. 2 is a horizontal sectional view of a movable movable beam having a sediment removal structure of the present invention, It is the main part of movable beam.

1 to 3, a conductive movable beam 1 having a deposit removing structure according to the present invention has a concrete foundation 10 at the bottom and a support structure 20 at both sides of the concrete foundation 10, And a lower bracket 40 is protruded from the base portion 10 of the concrete at the bottom of the water channel 30. The lower bracket 40 is provided with a control panel 70 From a normal movable beam whose shaft 51 is opened, the water gate 50, which is opened and closed by the operation of the hydraulic cylinder 60,

And an air injector 100 for injecting high-pressure air to the lower part of the discharge side in the process of opening the water gate 50. [

The air injecting apparatus 100 firstly comprises an air supplying unit 110 for generating and supplying air of a high pressure and the air supplying unit 110 is configured in a control panel 70 of the movable beam 1, A compressor, and the like.

An air supply pipe 120 is formed in the air injection device 100.

At this time, the air supply pipe 120 is formed on the fresh water side of the lower bracket 40, and is configured to have a length in the width direction of the water gate 50, so that high pressure air is supplied from the air supply unit 110.

The air injection device 100 is provided with a plurality of air injection nozzles 130 and 130 'for injecting high-pressure air.

Each of the air injection nozzles 130 and 130 'is formed at a predetermined interval in the air supply pipe 120 and protrudes through the lower bracket 40 to the discharge side.

On the other hand, it is most preferable that the air injection nozzles 130 and 130 'formed at regular intervals are preferably arranged at intervals of about 1 m.

That is, the air injection apparatus 100 receives high-pressure air from the air supply unit 110 through the air supply pipe 120, and supplies high-pressure air to the lower part of the discharge side through the air injection nozzles 130 and 130 ' So that sediments can be dispersed and discharged together with water to be discharged.

4 and 5, in the air injection apparatus 100, the concrete base 10 is provided with the discharge side (air side) And a plurality of air branch pipes 140 and 140 'drawn out from the air supply pipe 120 at the bottom.

The air distribution pipes 140 and 140 'may further include a plurality of second air injection nozzles 150 and 150' which are protruded to the upper portion of the bottom of the concrete foundation 10. have.

That is, when the high-pressure air is injected, the air injection apparatus 100 injects high-pressure air horizontally from the lower bracket 40 toward the discharge side through the air injection nozzles 130 and 130 ' The high pressure air is simultaneously injected in the vertical direction from the bottom portion of the concrete foundation portion 10 through the air injection nozzles 150 (150 ') so as to further increase the dispersion of the sediment.

On the other hand, the air injection apparatus 100 is configured to be signal-connected to a control panel 70 that controls the operation of the movable beam 1.

That is, the air injection nozzles 130 and 130 'and the second air injection nozzles 150 and 150' are operated by the operation of the hydraulic cylinder 60 under the control of the control panel 70 when the water gate 50 is opened And is configured to be capable of discharging sediments together with water to be dispersed and discharged.

Hereinafter, the operation of the movable movable beam having the structure for removing sediments of the present invention will be described in detail with reference to the accompanying drawings.

The conductive movable beam 1 having the deposit removing structure of the present invention discharges sediments such as soil and foreign matter deposited on the rear side of the water inlet, that is, the discharge side, along with the discharged water in the course of opening operation of the water gate 50 Thereby enabling the smooth operation of the water gate 50.

To this end, referring to FIG. 1 to FIG. 3 and referring to FIG. 6, the movable door of the present invention is pivotally opened and closed by the operation of the hydraulic cylinder 60, And detailed description thereof will be omitted.

First, when the water gate 50 is opened by the operation of the control panel 70, the air injection device 100 operates simultaneously with the opening of the water gate 50, 110 are supplied to the air supply pipe 120 and are injected at high pressure to the discharge side through the plurality of air injection nozzles 130, 130 '.

Accordingly, the high-pressure air blows out the sediments deposited on the lower part of the discharge side by blowing out and discharging the sediment to the rear, and interference with the lower part of the water gate 50 is prevented so that the water gate 50 can smoothly operate do.

7, in the case of a movable beam in which a hydraulic cylinder 60 is formed behind the water gate 50, the bottom surface of the concrete foundation 10 is recessed to provide the hydraulic cylinder 60 The cylinder installation groove 80 is formed and the hydraulic cylinder 60 is formed in the cylinder installation groove 80. In this case, fresh water is generated in the cylinder installation groove 80 and foreign matters such as dust, However, when the movable movable beam having the deposit removing structure of the present invention is applied, the water gate 50 periodically discharges the sediment of the cylinder installation groove 80 when the water gate 50 is opened, .

On the other hand, the sediments dispersed through the high-pressure air as described above are moved to the discharge side, and are discharged together with the water discharged overflow to the upper part of the water gate 50, so that the sediments can be removed.

That is, foreign matter such as tobacco or various trash is deposited on the concrete foundation 10 at the lower part of the discharge side during the long period of time when the water gate 50 does not operate, and interference with the shaft 51 of the water gate 50 occurs, 60 of the floodgate 50, it is impossible to smoothly operate the floodgate 50. In the present invention, when the floodgate 50 is opened, high-pressure air is used to blow the sediment So that interference with the water gate 50 is prevented, and smooth operation of the water gate 50 is enabled.

On the other hand, in constructing the conductive movable beam 1 having the above-described deposit removing structure according to the present invention, as shown in FIG. 4 and FIG. 5, the bottom portion of the concrete foundation 10 When the second air injection nozzles 150 and 150 'are further formed, the second air injection nozzles 150 and 150' can be horizontally injected rearward through the air injection nozzles 130 and 130 ' So that the vertical spraying from the bottom to the top through the spray nozzle is performed simultaneously.

That is, when the second air injection nozzles 150 and 150 'are further formed, the sediment deposited on the floor is blown up and dispersed by using high-pressure air, It is possible to remove more efficient and complete sediments such as being discharged horizontally backward through the openings 130 and 130 '.

As described above, when the sediment is generated in the back of the watercourse due to long-term operation of the watercourse, the conductive operation having the structure for removing sediments according to the present invention is sprayed and removed during the operation of the watercourse, It is possible to smoothly operate the watercraft at any time and to prevent a gap from being generated due to the fact that the watercleaner is not completely closed due to the interference with the sediment when the watercleaner is closed. When the hydraulic cylinder is constructed, the hydraulic cylinder can be protected.

10: concrete foundation 20: support structure
30: Relative waterway 40: Lower bracket
50: Hydraulic cylinder 60: Hydraulic cylinder
70: Control panel 80: Cylinder installation groove
100: air injection device 110: air supply part
120: air supply pipe 130, 130 ': air jet nozzle
140,140 ': Air branch 150, 150': Second air jet nozzle

Claims (3)

The support base 20 is formed on both sides of the concrete foundation 10 to form the waterway 30 and the concrete base 30 is formed at the bottom of the waterway 30, The lower bracket 40 protrudes from the lower bracket 40 and a water gate 50 opened and closed by the operation of the hydraulic cylinder 60 under the control of the control panel 70 is provided at the front of the lower bracket 40, In the movable beam,
And an air injection device (100) for injecting high pressure air to the lower part of the discharge side in the opening process of the water gate (50)
The air injection device (100)
An air supply unit 110 formed in the control panel 70 to generate and supply high-pressure air;
An air supply pipe 120 formed at the fresh water side of the lower bracket 40 in the width direction of the water gate 50 and supplied with high pressure air from the air supply unit 110; And
A plurality of air injection nozzles 130 and 130 'formed at a predetermined interval in the air supply pipe 120 and protruding toward the discharge side of the lower bracket 40 to discharge high pressure air to the discharge side to remove deposits And,
In the air injection device 100,
(140 ') of a plurality of rows drawn out from the air supply pipe (120) to the bottom portion of the concrete foundation portion (10) to the discharge side,
Wherein each of the air branch pipes (140) and (140 ') further comprises a second air injection nozzle (150) (150') for spraying high-pressure air to the upper part of the bottom to float the deposit. Conductive moving beam with removal structure.
delete The method according to claim 1,
The air injection device (100)
And a control panel (70) for controlling the operation of the movable beam (1)
Wherein the hydraulic cylinder (60) is operated to open the gate when the gate is opened to discharge high-pressure air to the discharge side, and to discharge the discharged water together with the discharged water.

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