KR102017861B1 - Hydrailic floodgate apparatus - Google Patents

Abstract

The present invention relates to a hydraulic hydrological device, the floor support (10); Vertical support 20 of the channel structure spaced apart to face each other on both sides of the floor support (10); A water gate 30 disposed between the vertical supports 20; Hydraulic cylinders 40 respectively installed on the inside of the vertical support 20; A connection table 50 connected to the water gate 30 and the hydraulic cylinder 40 and interlocked with the hydraulic cylinder 40; Rack 60 is installed in the vertical direction on both front sides of the water gate (30); It is installed on the vertical support 20 in a horizontal direction, and comprises a rack guide 70 having pinions 72 engaged with the rack 60 at both ends. Thereby, the functionality and usability of the hydraulic hydrological device can be improved.

Description

Hydraulic Hydro Device {HYDRAILIC FLOODGATE APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic hydrological device, and more particularly, to a hydraulic hydrological device capable of easily opening and closing a water gate by using hydraulic pressure.

In general, a water gate is a door installed in a waterway to adjust a flow rate or to maintain a depth of water. Such a water gate is classified into a mechanical and hydraulic type according to its opening and closing method.

In particular, the hydraulic type can be used to increase the use of the stable opening and closing operation of the gate.

As shown in FIG. 1, a conventional hydraulic hydrological device is composed of a hydrological gate 1, a driving cylinder 2, and a driving force transmission means 3. The driving force transmission means 3 is connected to the drive cylinder 2, the first rack (4) to be elevated by the operation of the drive cylinder (2); A second rack 5 installed perpendicular to the water gate 1; And a pinion 6 meshed with the first rack 4 and the second rack 5 to rotate by lifting the first rack 4 to lift the second rack 5.

Since the hydraulic hydrological device is disclosed in Korean Patent Publication No. 10-1458582, a detailed description thereof will be omitted.

However, the hydraulic hydrologic device as described above has a structure that opens and closes the gate 1 through the coupling structure of the first and second racks 4 and 5 and the pinion 6, so that the limit of the stable operation of the gate 1 is limited. have.

In addition, when the weight of the sluice gate 1 is heavy, there is a disadvantage that the operation is not made smoothly.

This, in turn, results in deterioration of the functionality and usability of the hydraulic hydrological device.

The present invention was created in order to solve the above problems, the problem to be solved in the present invention is to provide a hydraulic hydrological device that can smoothly and stably implement the opening and closing operation of the gate.

Hydraulic sluice device according to the present invention for solving the above problems, the floor support; Vertical supports of the channel structure spaced apart to face each other on both sides of the floor support; A water gate disposed between the vertical supports; Hydraulic cylinders respectively installed in the vertical support; A connecting rod connected to the water gate and the hydraulic cylinder and interlocked with the hydraulic cylinder; Racks are installed in the vertical direction on both sides of the front of the water gate; It is installed in the horizontal direction in the vertical support, characterized in that it comprises a rack guide having a pinion is engaged with the rack on both ends.

The hydraulic hydrological device according to the present invention can realize the smooth opening and closing operation of the water gate by elevating the water gate by the hydraulic cylinder and guiding it through the rack and the rack guide.

Therefore, the functionality and usability of the hydraulic hydrological device can be relatively improved.

1 is a schematic view showing a conventional hydraulic hydrological device,
Figure 2 is a perspective view showing a closed state of the hydraulic watermark device according to the present invention,
3 is a perspective view showing an open state of the hydraulic hydrological device according to the present invention;
Figure 4 is a side view showing the structure of a hydraulic hydrological device according to the present invention,
Figure 5 is a perspective view showing a support roller and the roller engaging portion coupling structure of the hydraulic hydrological device according to the present invention,
Figure 6 is a cross-sectional view showing the internal structure of the door of the hydraulic hydrological device according to the present invention,
7 is an installation state diagram of the hydraulic hydrological device according to the present invention.

Hereinafter, the hydraulic hydrological device according to the present invention will be described in more detail with reference to the accompanying drawings.

As shown in Figures 2 to 4, the hydraulic hydrological device according to the present invention is a floor support (10); Vertical support 20 is installed on both sides of the floor support (10); A water gate 30 disposed between the vertical supports 20; Hydraulic cylinders 40 respectively installed on the inside of the vertical support 20; A connecting rod 50 connected to the water gate 30 and the cylindrical actuator 40; Rack 60 is installed in the vertical direction on both front sides of the water gate (30); A rack guide 70 installed in the vertical support 20 in a horizontal direction and having a pinion 72 engaged with the rack 60 at both ends; It comprises a horizontal support 80 for firmly supporting the rack guide 70.

The bottom support 10 serves to stably support the vertical support 20, the sluice 30, and the hydraulic cylinder 40. The floor support 10 has a bar shape and is made of a metal material.

On the other hand, the shape, material and the like of the floor support 10 can be appropriately changed as necessary.

The vertical support 20 has a channel structure, that is, a cross-section having a 'c' shape, and are spaced apart from each other so that open portions of the bottom support 10 face each other.

The vertical support 20 is preferably made of a metal material excellent in durability and water resistance.

And the pinion hole 22 through which the pinion 72 penetrates is formed at one side of the vertical support 20.

In addition, at least one support roller 90 is provided on the inner surface of the vertical support 20 in close contact with the rear surface of the water gate 30, and the support roller 90 has a bar shape as shown in FIG. It consists of a body portion (90a) and the support portion (90b) is elastically rotatably coupled to both ends of the body portion (90a). Due to the structural features of the support roller 90 as described above, it is possible to implement the lifting operation according to the opening and closing of the water gate 30 more smoothly and stably, as well as close the water gate 30 to the inner surface of the vertical support 20 Watertightness can be improved.

On the other hand, the structure of the support roller 90 may selectively apply a variety of known structures within the range that can implement the elastic operation. For example, a structure for implementing an elastic operation of the support part through a spring in the support part or for connecting a separate spring to the support part may be applied.

The sluice gate 30 has a rectangular plate shape, and both ends thereof are accommodated in the bottom support 20.

Such a sluice gate 30 has a main body 34 formed with an inlet 32 and an outlet 33 as shown in FIG. A door 35 for selectively opening and closing the inlet 32 of the main body 34: an underwater pump 36 provided inside the main body 34; It is composed of a discharge pipe 37 connected to the water pump 36 and in communication with the discharge port 33.

The main body 34 has a casing shape in which a predetermined inner space portion is formed. And the inlet 32 is formed at the lower front of the main body 34 to allow the water to flow into the inside, the outlet 33 is formed at the upper end of the rear of the main body 34 to discharge the water to the outside.

The door 35 selectively opens and closes the inlet 32 of the main body 34, and is lifted and operated by the cylinder 38. The operation structure of the door 35 can be selectively applied to various kinds of known ones.

The submersible pump 36 is for discharging water introduced into the main body 34 through the inlet 32 to the outside, and the water pumped by the submersible pump 36 is moved along the discharge pipe 37. The discharge port 33 is discharged.

Due to the constitutional features of the water gate, when there is a large flow rate in the waterway, the inlet 32 is opened through the door 35 to introduce water into the body 34, and the water pump 36 and the discharge pipe ( 37) water can be discharged to the outside to prevent flooding of the channel efficiently.

On the other hand, the inlet 33 is provided with a foreign matter prevention cover 33a for preventing the inflow of large foreign matter.

And the support roller 90 is latched and supported by the water gate 30, the roller engaging portion 31 to prevent the arbitrary drop of the water gate 30 is formed. As shown in FIG. 5, the roller catching part 31 includes a first catching part 31a having a cylindrical shape and a second catching part 31b having a groove shape.

Accordingly, when the roller catching portion 31 is moved along the water gate 30 to come into contact with the support roller 90 installed on the vertical support 20, the support roller 90 is elastically deformed to catch the roller. It is latched and supported by 31.

The shape of the roller engaging portion 31 can be appropriately changed within the range in which the support roller 90 can be stably supported.

The hydraulic cylinder 40 is for raising and lowering the water gate 30 stably, and the connecting table 50 is connected to the upper end of the hydraulic cylinder 40 and the upper end of the water gate 30 to interlock with the hydraulic cylinder 40. Accordingly, by connecting the connection table 50 in accordance with the operation of the hydraulic cylinder 40, the water gate 30 is lifted operation.

The rack 60 is for guiding the operation of the water gate 30 smoothly and stably when the water gate 30 is lifted through the hydraulic cylinder 40, and is preferably detachably coupled to the water gate 30.

The rack guide 70 is provided with a pinion 72 engaged with the rack 60 at both ends thereof, and the pinion 72 is preferably detachably coupled to facilitate replacement.

The horizontal support 80 is for supporting the rack guide 70 firmly and stably.

The operating state of the hydraulic hydrological device described above will be described with reference to FIG.

First, when the hydraulic cylinder 40 is elongated while the hydraulic hydrograph is fixed to the waterway F, the water gate 30 connected to the hydraulic cylinder 40 is raised by the connecting table 50.

At this time, the water gate 30 is raised in a state in which the rack 60 installed on the front thereof is engaged with the rack guide 70, and at the same time, the support roller 90 installed on the vertical support 20 is the water gate 30. By rotating in close contact with the), the lifting operation of the water gate 30 can be smoothly and stably implemented.

And when the water gate 30 is fully raised, the support roller 90 is supported by the roller engaging portion 91 is supported to prevent the water gate 30 from descending arbitrarily even if a problem occurs in the hydraulic cylinder (40). Can be.

10: floor support 20: vertical support
30: sluice 31: roller engaging portion
32: inlet 33: outlet
34: main body 35: door
36: submersible pump 37: discharge pipe
40: hydraulic cylinder 50: connecting rod
60: rack 70: rack guide
72: pinion 80: horizontal support
90: support roller

Claims (4)

Floor support (10); Vertical supports 20 of a channel structure spaced apart from each other to face each other on the bottom support 10; A water gate (30) disposed between the vertical supports (20); Hydraulic cylinders 40 are respectively installed on the inner side of the vertical support (20); A connection table 50 connected to the water gate 30 and the hydraulic cylinder 40 and interlocked with the hydraulic cylinder 40; Rack 60 is installed in the vertical direction on both front sides of the water gate (30); A rack guide 70 installed in the vertical support 20 in a horizontal direction and having a pinion 72 engaged with the rack 60 at both ends; A horizontal support 80 supporting the rack guide 70; It is installed on the inner surface of the vertical support 20 includes a support roller 90 that is rotated in a state in close contact with the back of the water gate 30,
The sluice gate 30 includes a main body 34 formed with an inlet 32 and an outlet 33; A door (35) for selectively opening and closing the inlet (32); An underwater pump (36) provided inside the main body (34); A discharge pipe 37 connected to the submersible pump 36 and in communication with the discharge port 33; It is made of a cylinder 38 for elevating the door 35,
The inlet 32 is provided with a foreign matter prevention cover (33a) to prevent the inflow of foreign matter large particles,
The main body 34 is provided with a roller catching portion 31 to hold the support roller 90, the roller catching portion 31 is the first engaging portion 31a having a cylindrical shape; It is made of a second locking portion 31b having a groove shape,
The support roller 90 has a bar-shaped body portion (90a); Coupled to both ends of the body portion (90a), the hydraulic hydrological device, characterized in that consisting of a support portion (90b) that is elastically rotatable through the spring. delete delete delete

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