KR200312863Y1 - Opening and shutting structure for hydraulic-type floodgate - Google Patents

Abstract

The present invention relates to the opening and closing structure of the hydraulic water gate is installed in the dike of the embankment to control the water storage. The present invention installs the operation opening and closing the water gate to control the low water volume on the left and right sides of the water gate and sealed with the housing so that the operation opening does not get wet when discharged, so it is large in terms of safety, economy or post maintenance. This has the effect of gaining an advantage.

Description

Opening and shutting structure for hydraulic-type floodgate}

The present invention relates to a hydraulic water gate opening and closing structure installed in the drainage channel of the bank to control the low water amount, and in particular, the operation door for operating the water gate is installed on both left and right sides with respect to the water gate and sealed to prevent water from getting wet with the housing. Hydraulic hydraulic door opening and closing structure that has gained a great advantage in terms of post maintenance.

In general, it is well-known that water gates are installed in drainage dikes constructed for the purpose of storing water. This sluice gate is usually installed in a movable manner, and serves to control the amount of water stored in the dike by storing or discharging water. This opening and closing operation of the gate is mainly performed by operating the hydraulic cylinder.

As a conventional technique, the hydraulic hydrological device known as Korean Utility Model Publication No. 20-0301103 has a hydraulic cylinder which is operated by the driving of a motor at the front of the hydrological gate, and is opened and closed by turning the hydrological gate with the expansion and contraction of the hydraulic cylinder. It is. Therefore, the water gate discharges the water when it is turned forward by the hydraulic cylinder, and stores the water when the water gate is placed vertically in the dike of the dike.

However, such a hydraulic gate opening and closing structure has a big problem in terms of safety, economical efficiency or post maintenance. That is, since the operating tool including a hydraulic cylinder is exposed to the front of the water gate, the operating tool is submerged in water when the discharged water is discharged, so that the operating tool is easily broken.

In addition, the wet operation tool was easily corroded, so that the operation of the hydraulic cylinder was frequently stopped due to infiltration of water and stopped frequently, and sometimes the motor was wet, causing an electrical short circuit or an electric shock.

Therefore, the conventional hydraulic hydrological opening and closing structure is unable to function due to the above reasons, the expense of maintenance costs due to frequent replacement is increased, and it was necessary to spend more time than necessary for maintenance.

Therefore, the present invention has been devised to solve such a problem, and the object of the present invention is to install the operation tool for activating the sluice on both sides of the sluice and sealing it with water so that it does not get wet with the housing. It is to provide a hydraulic gate opening and closing structure, which has a great advantage in terms of maintenance.

1 is a perspective view showing a state in which the hydraulic hydrograph according to the present invention is installed on the embankment,

FIG. 2 is a partially enlarged perspective view of part A of FIG. 1;

3 is a front view of FIG. 2;

Figure 4 is a side view showing the operating state at the time of water storage in the hydraulic hydrogate opening and closing structure according to the present invention,

Figure 5 is a side view showing the operating state at the time of discharge in the hydraulic hydrogate opening and closing structure according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: sluice 11: shaft

13: fixing bracket 20: operating port

21: connecting link 23: hydraulic cylinder

30: housing 40: index member

The hydraulic hydrogate opening and closing structure of the present invention for achieving the above object is installed in the waterway of the embankment in the hydraulic hydrological opening and closing structure having a water gate for storing or discharging water for the control of the low water amount, respectively installed on both sides of the water gate An actuating tool configured to hydraulically operate the water gate to pivot, thereby storing or discharging water; And a hollow housing which is installed at both sides of the water gate to seal and seal the operation port and closes the operation port so that it is not wet by discharged water.

In this opening / closing structure, the actuating tool is supported from the bottom to be rotated by fixing brackets protruding from both lower sides of the water gate, and one side of the link is fixedly installed on an axis extending into the housing, and one side of the other side of the link. It is preferable to include a hydraulic cylinder which is connected to the pivot and the other side is pivotally installed from the bottom to rotate the shaft through the connecting link by the expansion and contraction through the hydraulic to pivot the water gate integrated with the shaft. .

In addition, the housing is installed on both sides of the water gate in the same shape and size as the embankment, it is preferable that the water supply member to prevent leakage of the water gate when the water along the rear edge of the water gate is further installed on the embankment.

The above objects, advantages and other features will become apparent from the following description with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

1 is a perspective view showing a state in which the hydraulic sluice according to the present invention is installed on the embankment, Figure 2 is a partially enlarged perspective view showing a portion A of Figure 1, Figure 3 is a front view of Figure 2, Figure 4 is a hydraulic sluice according to the present invention Figure 5 is a side view showing the operating state when the water storage in the opening and closing structure and Figure 5 is a side view showing the operating state when discharged in the hydraulic hydrogate opening and closing structure according to the present invention.

As shown in the figure, the hydraulic hydrogate opening and closing structure (1) of the present invention is installed in the drainage path of the embankment (3) to store or discharge the water to control the amount of storage. The hydraulic door opening and closing structure 1 of the present invention has a water gate 10, an operation tool 20 for operating the water gate 10 and turning, and a housing 30 accommodating and accommodating the operation tool 20. It is roughly divided into.

The sluice gate 10 is installed in the drainage path of the embankment (3) serves to store or discharge water to control the amount of storage. Such a sluice 10 is installed in the drainage path of the embankment 3 in such a way that the shaft 11 protruding integrally long from each of the lower parts of the two sides pivots through the fixing bracket 13 fixed to the bottom. 10) is supported on the fixing bracket 13 and can pivot and pivot from the bottom of the drain.

As shown in Fig. 3, the actuating tool 20 is a structural portion that is provided on both sides of the gate to pivot the gate 10, respectively. That is, the actuating tool 20 is connected to the connecting link 21, one side is fixedly installed on the shaft 11, one side is pivotally connected to the other side of the connecting link 21 and the other side is installed to rotate from the bottom It is comprised by the hydraulic cylinder 23, and turns the gate 10. Here, although not shown, the hydraulic cylinder 23 is operated by a motor provided outside the bank 3.

The connecting link 21 and the hydraulic cylinder 23 are installed so that the upper surface of the floodgate 10 is flush with the upper surface of the housing 30, which will be described later, when the floodgate 10 is placed vertically from the floor. Preferably, the sluice gates 10 are installed in relation to one another so as to be inclined at a predetermined angle from the floor. That is, when the inclination angle of the water gate 10 with respect to the floor is 60 degrees, the drag force of the hydraulic cylinder 23 is minimized.

As shown in Fig. 4, when the hydraulic cylinder 23 is completely extended by the motor, the water gate 10 is vertically entered from the bottom of the drainage path of the bank 3 to store water.

In this state, when the hydraulic cylinder 23 is gradually reduced, the connecting link 21 is also gradually rotated toward the hydraulic cylinder 23, that is, the front of the water gate 10, and the shaft 11 is also connected to the connecting link 21. It rotates gradually in the same direction as (21). As a result, the water gate 10 integrally coupled with the shaft 11 is also supported by the fixing bracket 13 and its upper surface is gradually turned from the bottom in the same direction as the shaft 11.

Thus, as shown in Fig. 5, when the hydraulic cylinder 23 is completely reduced, the water gate 10 is also fully pivoted and parallel to the bottom, and the drainage passage is through the top of the water gate 10 in a state where the stored water is laid down. Along the stream is discharged to the river.

On the other hand, by stopping the discharge and extendingly driving the hydraulic cylinder 23 so that the water gate 10 enters vertically from the bottom for water storage, the water gate 10 is pivoted so as to be placed perpendicular to the drainage path of the bank 3.

In this operation, the water gate 10 is vertically laid or laid down to store or discharge water.

When the operation tool 20 for the water gate 10 is installed as described above, the hollow housing 30 accommodating and accommodating the operation tool 20 is installed at both sides of the water gate 10, respectively. The housing 30 accommodates the operation tool 20 in such a manner as to open and cover the bottom thereof, and a hole or a groove through which the shaft 11 penetrates is formed on the opposite surface to the water gate 10. In this hole or groove, for example, rubber packing or the like is further sealed with the shaft 11 penetrated to seal the housing 30.

In addition, although not shown, a plurality of reinforcing bars, such as an H beam, may be further provided inside the housing 30 to withstand the side pressure of the water, and the housing 30 may be formed by bottoming a member made of the same material as the reinforcing bar. It can be fixed to the floor by embedding in the welding method to the reinforcement to this member, it can be fixed to the floor by fastening the bolt through the insert embedded in the floor.

In this way, the portion facing the bottom of the housing 30 installed while receiving the operation tool 20 is preferably further sealed with, for example, liquid silicone or caulking material to seal the housing 30. .

The housing 30 is preferably pre-molded with concrete or metal, and the size and shape of the housing 30 is preferably the same as that of the embankment 3 and is installed at both sides of the water gate 10. In addition, a rubber member is further installed on the side of the housing 30 opposite to the side of the water gate 10 so that the water gate 10 may be placed vertically from the bottom to store water. It is desirable to prevent gaps that may form and to prevent water from leaking through the gaps.

In this way, since the operation tool 20 is installed on both the left and right sides with respect to the water gate 10 and is housed in the sealed housing 30, the operation tool 20 is not wetted with water when the water gate 10 is discharged. Therefore, as a conventional problem that may be caused by wet with water, that is, problems such as corrosion of the operation tool 20 or frequent failure of the hydraulic cylinder 23 is basically solved, Its life can be maintained for a long time.

On the other hand, the water gate 10 is installed vertically to store water by further installing a rubber-water-proof member 40 along the edge of the water gate 10 along the length of the water gate 10 to the embankment 3. When entering, it prevented the water leak through the gap by blocking the gap that can be formed between the embankment (3).

As described above, the present invention is installed on the right and left sides of the water gate to operate the water gate to control the low water amount and sealed by the housing so that the operating device is not wet with water during discharge, safety, economical or post-maintenance management It is effective to get a big advantage in terms of.

Claims (3)

In the hydraulic gate opening and closing structure provided in the drainage of the dike and equipped with a sluice for storing or discharging water for the control of low water volume, An operating tool that is arranged on both sides of the water gate and is hydraulically operated so that the water gate is pivoted to store or discharge water; And a hollow housing which is installed at both sides of the water gate to seal and accommodate the operation port and prevents the operation port from being wetted by the discharged water. According to claim 1, wherein the operating port is protruded from the lower side of the both sides of the water gate is supported from the bottom to be rotated by the fixing bracket and the one side is fixed on the shaft extending on the axis extending into the housing, one side of the connection link It includes a hydraulic cylinder which is connected to the other side and the other side is rotated from the bottom to rotate the shaft through the connecting link by the expansion and contraction through the hydraulic to rotate the water gate integrated with the shaft. Hydraulic hydraulic door opening and closing structure. According to claim 1, wherein the housing has the same shape and size as the embankment is installed on both sides of the sluice, and an index member for preventing the leakage of the sluice when the water along the edge to the rear side of the sluice is further installed on the dike Hydraulic hydro door opening and closing structure characterized in that there is.