KR101010045B1 - Warer-gate apparatus of hydraulic elevater type - Google Patents

Abstract

PURPOSE: A hydraulic lifting type floodgate device is provided to reduce construction costs because an upper structure is not required and to accurately open and close multiple gates. CONSTITUTION: A hydraulic lifting type floodgate device comprises a gate(10), lifting guides(20), hydraulic cylinders(30), first wires(40), and second wires(50). The gate opens and closes a waterway. The lifting guides are formed in both ends of the gate and lift the gate. The hydraulic cylinders are securely fixed to the top of the lifting guides and draw in/out piston rods downward. One end of the first and second wires is fixed to the bottom end of the piston rods, and the other ends are fixed to the top of the gate.

Description

Warer-gate apparatus of hydraulic elevater type

The present invention relates to a hydraulic lifting hydrologic device, and more particularly, the hydraulic lifting hydrologic device which can operate the precise opening and closing operation and a plurality of gates simultaneously while greatly reducing the construction cost by omitting the upper structure. It is about.

In general, various types of hydrologic devices are installed in dams, reservoirs, and sewage treatment plants in rivers or rivers to discharge a certain amount of water and discharge them if necessary.

The sluice device is usually connected to a mechanical or hydraulic drive to automatically open and close the waterway by simple switch operation.

As such a hydrological device, a mechanical type mainly uses a winch, and a hydraulic type uses a hydraulic cylinder.

The hydrological device using a winch is formed so that a structure for installing the winch at a predetermined height to the upper portion of the gate provided to be elevated, and then the winch and the gate is connected by the rack bar.

Therefore, when the rack bar is lifted by the drive of the winch, the gate integrally connected to the lower end of the rack bar is lifted at the same time.

Such a hoisting machine has to be provided with a hoisting device for each structure construction and each gate, so the installation cost is considerably uneconomical.

On the other hand, since the hydraulic device using the hydraulic cylinder is directly connected to the gate to open and close directly, there is a closed end to increase the height and size of the structure by the opening and closing height to secure the opening and closing height of the gate.

Meanwhile, a method of using a rack while using a hydraulic cylinder has recently been proposed, but it is made of a very complicated configuration, and thus there is a problem that maintenance is difficult and economical is also low.

Accordingly, the present invention is to solve the above problems and closed ends, the present invention is to provide a hydraulic lifting type hydrological device for precise opening and closing by operating the wires connected to the upper and lower ends of the gate by hydraulic pressure at the same time. There is a main purpose.

It is another object of the present invention to provide a hydraulically elevated hydrological device that enables economical installation by simplifying the gate drive structure as much as possible.

Hydraulic lifting device of the present invention for achieving the above object, the gate while opening and closing the water channel while lifting a predetermined height; Lifting guides provided at both ends of the gate for lifting and lowering, respectively; A hydraulic cylinder firmly fixed to an upper side of the lifting guides on both sides to draw the piston rod downward; A first wire having one end fixed to a lower end of the piston rod of the hydraulic cylinder and the other end fixed to an upper end of the gate via a first roller mounted on an upper end of the lifting guide; One end is fixed to the lower end of the piston rod of the hydraulic cylinder together with one end of the first wire, and the other end is fixed to the side of the gate via a second roller mounted on the lower end of the lifting guide. It is provided as a 2nd wire which moves in the same direction, and it is the structure which raises the said gate to a predetermined height so that the said 1st wire and the said 2nd wire may move similarly by the drive of the said hydraulic cylinder.

In the above configuration, it is more preferable that the first roller and the second roller are each provided with at least one on the same horizontal line.

In the above configuration, it is most preferable that the position where the second wire of the gate is fixed is positioned above the position of fixing the second roller fixed to the lifting guide.

According to the above-described configuration, the hydraulic lifting hydrologic device of the present invention allows the first wire and the second wire to always elevate the gate while acting in a tension state by driving the hydraulic cylinder, so that foreign matter or external force is applied to the gate. This provides accurate operability to prevent the occurrence of operating errors such as loosening of the wires or wires off the rollers.

In addition, the present invention does not need to have any structure on the upper part of the gate, and greatly simplifies the installation of the lift drive structure of the gate.

1 is a perspective view showing an embodiment of a hydraulic lifting device according to the present invention,
Figure 2 is a front view showing a configuration without the lifting guide according to the present invention,
3 is a perspective view showing a connection configuration of a first wire according to the present invention;
4 is a perspective view showing a connection configuration of a second wire according to the present invention;
5 is a perspective view showing a configuration in which the waterway is opened by the hydraulic lifting device according to the present invention;
Figure 6 is a front view of the configuration in which the water gate is opened in the hydraulic lifting device of the present invention.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the hydraulic lifting device according to the present invention will be described in detail as follows.

1 is a perspective view showing an embodiment of the hydraulic lifting device according to the present invention.

As shown in the drawing, the hydraulic lifting type hydrological device of the present invention is composed of the gate 10, the lifting guide 20, the hydraulic cylinder 30, the first wire 40, and the second wire 50.

In the configuration of the present invention, the gate 10 is configured to open and close the water channel, and the gate 10 is provided to vertically lift a predetermined height.

And the lifting guide 20 is configured to be provided on both sides to guide each of the two ends of the gate 10, respectively, wherein the height of the lifting guide 20 is formed to be higher than when the gate 10 is raised as much as possible Most preferred.

2 is a front view showing a configuration in which the lifting guide according to the present invention is omitted.

The hydraulic cylinder 30 of the present invention is configured to be firmly fixed to the upper side of the lifting guide 20 provided on both sides of the gate 10 so that the piston rod 31 can be pulled in and out downward.

As shown in FIG. 3, one end of the first wire 40 is fixed to the lower end of the piston rod 31 drawn out from the hydraulic cylinder 30, and the other end of the first wire 40 is fixed to one side of the upper end of the gate 10.

At this time, the first wire 40 is wound between the piston rod 31 of the hydraulic cylinder 30 and the gate 10 to the first roller 41 to be mounted on the upper end of the lifting guide 20.

As shown in FIG. 4, one end of the second wire 50 is fixed to the piston rod 31 of the hydraulic cylinder 30, and the other end of the second wire 50 is fixed to the gate 10. The 40 is fixed to one side of the upper end of the gate 10, whereas the second wire 50 is fixed to the side of the gate 10.

However, the first wire 40 passes through the first roller 41 which is mounted between the piston rod 31 and the gate 10 at the upper end of the elevating guide 20, while the second wire 50 has the piston rod. Between 31 and the gate 10, it is wound up via the 2nd roller 51 attached to the lower end part of the elevation guide 20. As shown in FIG.

On the other hand, it is more preferable that each of the first roller 41 and the second roller 51 is provided on at least one on the same horizontal line.

In particular, the first roller 41 is more preferably such that the upper end can be fixed to a separate bracket 21 provided on the upper end of the lifting guide 20.

On the contrary, it is most preferable that the second roller 51 is provided at the lower end of the elevating guide 20 so that the formation height of the second roller 51 is necessarily located below the side fixing position of the gate 10.

In addition, the second wire 50 penetrates the lifting guide 20 of the second roller 51 horizontally so as to be connected between the piston rod 31 and the gate 10.

However, the first wire 40 connected to the upper end of the gate 10 from the piston rod 31 via the first roller 41 and the second roller 51 from the piston rod 31 via the first roller 41. The second wire 50 connected to the side is maintained as being in tension with each other.

Meanwhile, since the hydraulic cylinder 30 attached to the elevating guide 20 should be protected from the outside, the upper portion of the elevating guide 20 including the hydraulic cylinder 30 may be opened or closed to cover the cover. It is more preferable to maintain the equipment so that the back is covered.

Referring to the operation of the gate using the hydraulic lifting device of the present invention according to the above configuration in more detail as follows.

5 is a perspective view showing a configuration in which a water channel is opened by a hydraulic lifting type hydrological device according to the present invention, and FIG. 6 is a front view of a configuration in which a water gate is opened in the hydraulic lifting type hydrological device of the present invention.

As shown in the drawing, the hydraulic lifting type hydrological device of the present invention is operated by driving the hydraulic cylinder 30 fixedly mounted to the lifting guides 20 on both sides.

That is, when the piston rod 31 is drawn into the hydraulic cylinder 30 as much as possible by the hydraulic cylinder 30, the first wire 40 is in a stretched state as much as possible, and the second wire 50 is in the maximum pulled state.

When the piston rod 31 is lowered by driving the hydraulic cylinder 30 in this state, the gate 10 is gradually pulled up by the first wire 40, and at the same time, the second wire 40 is also the gate ( Pull up along 10).

Naturally, the first wire 40 and the second wire 50 at this time will always maintain a tense state.

If the piston rod 31 is lowered as much as possible by the driving of the hydraulic cylinder 30, the first wire 40 is pulled as much as possible, and the second wire 50 is pulled by the first wire 40. As it is pulled as much as possible to raise the gate 10 to the maximum, the channel is in a state of being opened to the maximum.

By driving the hydraulic cylinder 30 so that the piston rod 31 can be pulled in and out, the first wire 40 and the second wire 50 are pulled upwards or downwards simultaneously. It can be raised and lowered by driving of) so that the channel can be opened and closed stably.

However, since the gate 10 is raised and lowered in a state where the first wire 40 and the second wire 50 are always tense, by pulling up the first wire 40 when the gate 10 is raised. Similarly to open up the waterway by forcibly raising the gate 10, even when the gate 10 is lowered, it is not simply caused by its own weight, but is lowered by forcibly pulling the second wire 50 downward to the bottom of the gate 10. Even if very high hydraulic pressure is applied or foreign matter or obstacles are interposed, the gate 10 will never be closed.

Meanwhile, the first wire 40 and the second wire 50, which are connected between the gate 10 and the piston rod 31 of the hydraulic cylinder 30, are always kept in tension and are operating as before. The loosening of the wires ensures safe operation at all times from the accidental release of the wires from the rollers.

10: gate
20: lifting guide
21: bracket
30: hydraulic cylinder
31: piston rod
40: first wire
41: first roller
50: second wire
51: second roller

Claims (3)

An elevating guide 20 provided to elevate and guide both ends of the gate 10 provided to open and close the water channel while elevating a predetermined height;
A hydraulic cylinder (30) firmly fixed to an outer upper portion of the elevating guide (20) on both sides to draw out the piston rod (31) downwardly;
One end is fixed to the lower end of the piston rod 31 of the hydraulic cylinder 30, the other end is fixed to the upper end of the gate 10 via the first roller 41 mounted to the upper end of the lifting guide 20. A first wire (40) to raise the gate (10);
One end is fixed to the lower end of the piston rod 31 of the hydraulic cylinder 30 together with one end of the first wire 40, and then through a second roller 51 mounted to the lower end of the elevating guide 20. A second wire (50) for lowering the gate (10) while moving in the same direction as the first wire (40) so that the other end is fixed to the side of the gate (10);
It is provided as a hydraulic lifting type to raise and lower the gate 10 to a certain height by moving the first wire 40 and the second wire 50 the same by the drive of the hydraulic cylinder 30 Hydrological devices. The hydraulic lifting device of claim 1, wherein the first roller (41) and the second roller (51) are each provided on at least one on the same horizontal line. 2. The hydraulic lifting type hydraulic door of claim 1, wherein the fixing position of the gate 10 side of the second wire 50 is located above the fixing position of the second roller 51 on the lifting guide 20 side. Device.

Images