KR20120005221A - Apparatus for opening/closing a wide floodgate - Google Patents

Abstract

PURPOSE: A long-span turnover type water gate opening/closing apparatus is provided to ensure stable and accurate opening/closing, convenient maintenance and improved durability. CONSTITUTION: A long-span turnover type water gate opening/closing apparatus comprises a long-span water gate body(11), a housing, a guide frame(21), a roller bracket(23), and a driving unit. The housing is laid in the ground under the water gate body. The guide frame is coaxially coupled with the rotary shaft of the water gate body and faces the housing. The roller bracket is located inside the housing to roll along a roller guide(21a) and erect and turn over the guide frame. The driving unit rotates the roller bracket.

Description

Long span conducting water gate opening and closing device {Apparatus for opening / closing a wide floodgate}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a conductive hydrogate opening and closing device, and more particularly, to an opening and closing device of a long span conductive hydrogate as a conductive hydrogate installed in a river or the like.

In general, rivers are provided with automatic guard gates for opening and closing the channel by a hydrologic body operated by hydraulic pressure or power to adjust the low water upstream of the channel, particularly in the case of a hydraulic gate using a hydraulic cylinder as a power source, When the opening of the gate is turned to the lower side with the rotating shaft of the gate to be reversed by the hydraulic pressure when it is opened, and the gate body is raised by the hydraulic cylinder when the valve is closed, and the reverse side of the gate is lifted by the rotary shaft to the upper side. There is a floating ceremony.

However, in the case of the conducting water gate, first, a sealed housing was installed at both sides of the water gate for the watertightness of the water gate opening and closing device, and an opening and closing device such as a hydraulic cylinder was built into the housing. That is, in the case of the first prior art, as shown in FIG. 1, the support structure 10 is constructed on both sides of the river, and the rotation shaft 21 located at the lower end of the water gate 20 is attached to each support structure 10. It is installed to be rotatable, the interior of the support structure 10 is provided with a sealed space 12, the operating link 22 is provided in the rotation shaft 21 portion of the water gate 20 located inside the sealed space 12. Respectively fixed to the operation link 22, and the front end of the piston rod 31 of the operation cylinder 30 is rotatably connected, and the rear end of the operation cylinder 30 is rotatably fixed to one side of the sealed space 12. In this configuration, as the operation link 22 rotates around the rotation shaft 21 according to the expansion and contraction of the operation cylinder 30, the water gate 20 to which the rotation shaft 21 is fixed is rotated between the support structures 10. To open and close the channel 13.

However, in the structure in which both sides of the water gate 20 is fixed as described above, the middle portion of the water gate 20 is inevitably vulnerable to water pressure, so that the water gate 20 is not a problem at all to the length of the water pressure. However, in the case of manufacturing the water gate to a long extent beyond the limit, the middle portion of the water gate 20 is bent like a bow by water pressure, and thus there is a problem that the index is not properly made when the water gate 20 is closed.

Therefore, when the width of the river is wide, due to the above problems, as shown in FIG. 2A, a support 10 'having a separate cylinder room in the middle of the river is constructed, and the water gate (between these supports 10') is used. 20) In the case of the second conventional technology, a plurality of supports 10 'and a plurality of water gates 20 are installed in a river, so that the appearance thereof becomes poor, and the amount of inflow water is suddenly increased. When the large foreign matters such as tree branches float up through the rivers, these large foreign matters are caught in the support, causing the inoperable state of the sluice 20.

In view of this, in the state in which the water gate 20 is formed in a long span structure as shown in FIG. 2B without forming the support 10 'in the middle of the river, both sides thereof are rotatably connected to the support structure 10, and the water gate ( While connecting the front end portions of the piston rod 41 of the auxiliary cylinder 40 to the middle portion of the drain side side of each of the predetermined intervals, each of the auxiliary cylinder 40 is rotatably fixed to the bottom surface of the water channel 13, In the case of the third conventional technology, the water gate 20 may not be completely conducted due to the height of the auxiliary cylinder 40 and the operation angles of the piston rod 41 and the water gate, so that water and foreign substances in the reservoir space may not be smoothly discharged. There is a disadvantage that can not be, because the plurality of auxiliary cylinders 40 are installed on the drain side of the sluice 20 to be seen from the outside, there was also a problem that the appearance is significantly poor.

There is a conventional technology for solving this problem, such as Korean Patent Publication No. 2008-84899, which will be described with reference to FIG. The operation cylinder is installed directly, but sealed with a case having a corrugated pipe to embed a cylinder therein.

That is, as shown in Figure 3, the water gate 120 is rotatably fixed to the lower portion of the support structure 110 on both sides of the river through the rotation shaft 121, the lower side of the water reservoir 120 has an equal interval Piston rods of a plurality of operation cylinders are rotatably connected to each other, and a plurality of cases 140 having one side open while being watertight are provided, and operation cylinders in each case are installed, and the open position of the water gate 120 is provided. It is fixed to the bottom portion of the reservoir 112 to face each, each operation cylinder is rotatably connected to one side of the case 140 in a state stored in the case 140, and the open portion of the case 140 and A corrugated pipe 141 is inserted between the piston rod connecting portions of the sluice 120 so that both ends of the pleating tube 141 are watertightly fixed around the piston rod connecting portion of the case 140 and the sluice 120, respectively.

At this time, a plurality of fixing pieces 142 protrude from the lower end of the case 140 so that the case 140 can be fixed to the bottom of the storage space 112, and the fixing pieces 142 through the anchor bolt 143. The case 140 is fixed to the bottom of the reservoir space 112 by penetrating through the pendulum.

Therefore, since each operation cylinder is located in the storage space 112, when the water is filled in the storage space 112, each operation cylinder is naturally immersed in the water, in the present invention, each operation cylinder is in the case 140 It is housed in watertightness, and at the outside of the piston rod, a corrugated pipe 141 is watertightly wrapped between the case 140 and the water gate 120 or the case 140 and the piston rod, so that contact with water is possible even when the working cylinder is located in the water. This source is blocked so that it can operate reliably.

In addition, when the operating cylinder is extended in the closed state of the water gate 120, the water gate 120 may be pushed to the drainage side, and the water gate 120 may be inverted, and the water of the reservoir 112 may be moved upward of the water gate 120. It can be discharged downstream downstream, and there is no structure on the bottom surface of the waterway through which the water gate 120 is conducted, so that the water gate 120 can be completely conducted to the bottom surface of the waterway, thus It can also be discharged to all the lower water including the foreign matter has the advantage of minimizing the pollution of the river.

However, in the case of the fourth conventional hydrology, since the cylinder case 140 is installed at an upstream reservoir bottom, there is a problem in maintenance because it should always be stored in the river water. There is a fatal problem with the durability of the cylinder as it must be kept strong.

As a result, the length of the conductive sluice of the single span as in the first and second prior arts is inevitably limited. Therefore, there is a need for a so-called "long span" sluice having a relatively long length. In the case of the fourth prior art, since the cylinder is installed to the ground anyway, as described above, each case has its own problems.

The present invention has been made to solve the above problems, and its object is to provide a long span conductive hydrogate opening and closing device capable of stable and reliable opening and closing.

In addition, it is to provide a long span conductive hydro gate opening and closing device that is clean in appearance and does not interfere with the flow of river water even during flooding.

In addition, it is to provide a long span conductive hydro gate opening that is easy to maintain and durable.

Janspan conduction hydrological opening and closing device of the present invention for achieving the above object, Janspan hydrological body (11); A housing 29 installed underground below the sluice main body 11 and containing the long span conductive sluice opening and closing device; A guide frame 21 which is coaxially coupled with the rotation shaft 12 of the sluice body 11 and directed toward the housing 29 in an underground direction; A roller bracket (23) positioned in the housing (29) which stands and flips the guide frame while rolling along the roller guide (21a) surface of the guide frame (21); And driving means for rotating the roller bracket (23); Characterized in that it comprises a.

Preferably, the drive means is a hydraulic cylinder 22 in the housing 29,

More preferably, the roller bracket 23 further includes a roller 24 that moves while rotating along the roller guide 21a of the guide frame 21,

Most preferably, the roller bracket 23 is rotatably coupled to the roller link 26 fixed to the bottom of the housing 29, the first operating point is rotatably coupled to the roller 24 The second operating point is characterized in that coupled to the hydraulic cylinder (22).

Also preferably, the driving means and the roller bracket 23 are disposed in the cylinder room 40 space formed of the housing 29, and the upper portion of the downstream side of the cylinder room 40 has a check hole 41. Characterized in that is formed,

More preferably, the central portion of the guide pin 14 is sealed by the pin cover 15 so that the guide pin 14 can be rotated and watertightness is ensured.

According to the long span conductive hydrogate opening and closing device according to the present invention, there is an advantage that can be designed and constructed to the desired length of the customer regardless of the length of the gate.

In addition, the long span conductive hydrogate opening and closing device of the present invention can adopt the power transmission system of the sliding type for preventing overload of the conventional conductive movable beam almost as it is, and the power transmission system faces the guide frame in the underground direction, and the roller It is a structure that there is no risk of damaging the floodgate or cylinder even if foreign matter gets caught in the way of standing and conducting by rolling movement along the guide surface of the guide frame.It is advantageous in appearance because the cylinder room is located in the basement so that only the hydrologic body is exposed outside. Large branches or debris from the side can be caught in structures such as concrete, minimizing the existing risk of disturbing the smooth flow of river water.

In addition, the cylinder room, which has been raised above the ground, can be moved underground to move power to the required position irrespective of the length of the movable beam. Maximum flexibility is ensured.

Moreover, there is an access door downstream in the cylinder room, which is relatively large in the basement, which facilitates human traffic and is good for maintenance.

In addition, there is no power room in the concrete body part, so there is no need for the body, and it is possible to install natural stones or other natural structures in the body that was not good for aesthetics.

Other objects and advantages of the present invention in addition to the above object will be apparent from the detailed description of the embodiments with reference to the accompanying drawings.

1 is an opening and closing device of the conductive gate of the first prior art.
Figure 2a is a support of the opening and closing device of the conductive gate of the second prior art.
Fig. 2b is an auxiliary device in the support of the opening and closing device of the conductive gate of the third prior art.
Figure 3 is an opening and closing device of the conductive gate of the fourth prior art.
Figure 4 is a side view of the opening and closing device of the conductive water gate according to an embodiment of the present invention showing a closed state.
Figure 5 is an exploded perspective view of the opening and closing device of the conductive water gate according to an embodiment of the present invention.
FIG. 6 is a side view of the opening and closing device of the conductive gate according to the embodiment of the present invention.
Figure 7 is a front view of the opening and closing device of the conductive water gate according to an embodiment of the present invention.
Figure 8 is an overall layout of the opening and closing device of the conductive water gate according to an embodiment of the present invention.
9 shows an example of the housing and the sealing means of FIG.
10 is an analysis that can know the strength of the cylinder, the connecting pin, the guide frame of the opening and closing device of the conductive gate of Figure 4;
11 is an analysis of checking the appearance of the door of the switchgear of the conductive hydro gate of FIG. 4 and the strength withstanding the water pressure of the door frame of the door.
12 is an analysis of checking the shape and strength of the roller bracket of the opening and closing device of the conductive hydro gate of FIG.
FIG. 13 is an analysis of checking the shape and strength of the roll of the opening and closing device of the conductive hydrogate of FIG. 4. FIG.

Hereinafter, with reference to the accompanying drawings it will be described in detail a long span conductive hydro gate opening and closing device according to an embodiment of the present invention.

Figure 4 shows a closed state as a side view of the switchgear of the conductive gate according to an embodiment of the present invention, Figure 5 is an exploded perspective view of the switchgear of the conductive gate according to an embodiment of the present invention, Figure 6 is An open state is shown as a side view of the opening and closing apparatus of the conductive gate according to the embodiment of the present invention.

7 is a front view of the switchgear of the conductive gate according to an embodiment of the present invention, Figure 8 is an overall layout of the switchgear of the conductive gate according to an embodiment of the present invention, Figure 9 is a housing of Figure 4 And an example of a sealing means.

As shown in Figure 8 and Figure 9, the long span conducting hydrogate opening and closing device according to an embodiment of the present invention, is installed underground underground beneath the long span hydrological body (11). That is, while the housing 29 in which the long span conductive hydrogate opening and closing device of the present invention is embedded is embedded underground, as shown in FIGS. 4 and 5, the rotation shaft 12 and the guide frame 21 of the hydrologic main body 11 are provided. As the guide pin 14 corresponding to the rotation axis of the coupling is coupled in a coaxial coupling method which rotates about the same rotation axis simultaneously, they are bushed in the pin link 19. Therefore, the sluice body and the guide frame rotate together.

4 and 5, the roller bracket 21 is rotatably coupled to the roller link 26 fixed to the bottom of the housing 29 while the roller guide 21a is formed under the guide frame. Roller 24 is guided by the roller guide 21a. More specifically, the roller bracket 23 is rotatably coupled by the roller link 26 and the roller bracket binding pin 23a, and freely rotated by the roller 24 and the roller binding pin 23b. Possibly combined.

On the other hand, the other point of the roller bracket 23 is coupled to the connector rod 22c of the hydraulic cylinder 22, more specifically, the end of the connector rod 22c and the connector rod binding pin 22b. It is rotatably coupled by.

The main body of the hydraulic cylinder 22 is rotatably coupled by a cylinder link 25 and a cylinder binding pin 22a fixed to the housing 29.

Accordingly, the roller bracket 23 rotates around the roller bracket binding pin 23a in response to the stretching movement of the cylinder 22, which rotates the guide frame 21, and the roller bracket 23 In order to reduce friction between the guide frame 21 and the guide frame 21 is indirectly coupled through the roller 24 which moves while rotating along the roller guide 21a.

Reference numeral 13 is a sealing rubber plate for sealing, 23c is a rib for increasing the strength of the roller bracket 23, 21b is a roller seating groove.

On the other hand, when the operation of the long span conductive hydrogate opening and closing device according to the present invention described above, first, in the fresh water, the roller 24 is in the roller seating groove 21b in the state that the hydraulic cylinder 22 is extended. It is seated, and the hydrological main body 11 is supported in the closed state in the stable state (refer FIG. 4).

When the water gate is to be opened, the roller 24 is released from the roller seating groove 21b while the hydraulic cylinder 22 is contracted, and thus the weight of the water body 11 and the guide frame 21 is reduced. And by the water pressure the hydrologic main body 11 and the guide frame 21 is rotated in the clockwise direction around the axis of rotation so that the water gate is inverted (see Fig. 6).

On the contrary, when the water gate is to be closed again, the hydraulic cylinder 22 is extended so that the roller 24 moves inwardly (in the direction of the rotation axis) along the roller guide 21a, and the water body 11 and the guide. The frame 21 is rotated counterclockwise around the axis of rotation, so that the sluice main body 11 stands in the state shown in FIG. 4, wherein the roller 24 is the roller seating groove 21b. It is designed to end the standing motion as it is seated on the ground.

On the other hand, the watertight solution of the above-mentioned long span conductive hydrogate opening and closing device will be described with reference to FIGS. 7 and 8. First, most of the opening and closing device including the hydraulic cylinder 22 and the roller bracket 23 and a part of the guide frame 21 are disposed in the cylinder room 40 space consisting of the housing 29. However, the cylinder room 40 should be completely closed, but for convenience of maintenance, the downstream upper part is opened and left as the check opening 41 and instead is selectively sealed with a separate cover (not shown). Lose.

On the other hand, the center of the guide pin 14 is sealed with a pin cover 15 while allowing the rotation of the guide pin, that is, the rotary motion contact portion through which the guide pin 14 passes through the pin cover 15. The male and female threaded packing 18 is provided with a packing bracket 17 for enhancing the integrity of the watertight, so that the guide pin 14 can be rotated while the watertightness is ensured. Since the housing 29 and the pin cover 15 are fixedly sealed without movement, a general packing 16 method is sufficient.

On the other hand, the water gate opening and closing device installed at both ends of the water gate may be used a conventional indirect opening and closing hydraulic cylinder type opening and closing device, the water body main body 11 and the guide frame (installed in the middle of the water gate according to the present invention) If the rotating shaft 12 of 21 is not in the same straight line as the conventional rotating shaft, it may cause the opening and closing of the water gate. Therefore, the opening and closing devices on both sides of the water gate are preferably installed below the ground surface as well as the opening and closing device of the present invention. desirable.

The long span conductive hydrogate opening and closing apparatus of the present invention described above is a structure that can be constructed as one conductive movable beam in accordance with a desired length of an orderer regardless of the length of the hydrological gate. However, height may be limited, but this is a problem regarding the size and safety factor of the structural door.

10 is an analysis that can be seen the strength of the cylinder, the connecting pin, the strength of the guide frame of the switchgear of the conductive gate of Figure 4, Figure 11 is the appearance and door of the door of the switchgear of the conductive gate of Figure 4 This analysis checks the strength of the internal frame against water pressure.

For reference, the safety factor of the cylinder (only the hydraulic pressure and self-weight is applied when the cylinders are placed at intervals of 15 m length), for example, the safety factor is 1 when the cylinder inner diameter is 180, the safety factor is 2 when the cylinder inner diameter is 255, and the cylinder The safety factor is 3 when the inner diameter is 315.

Subsequently, FIG. 12 is an analysis of checking the shape and strength of the roller bracket of the switchgear of the conductive gate of FIG. 4, and FIG. 13 is an analysis of checking the shape and strength of the roll of the switch of the conductive gate of FIG. 4. to be.

In the case of this analysis, since the large force according to the long span structure has to be divided into several power transmission methods, all parts were structurally analyzed with safety in mind, and the roller bracket 23 has the guide frame 21 and the closing roller. (24) is fixed to serve as an intermediate medium for connecting the cylinder, the safety factor is 13.12 by elole, roller 24 is a part for rolling the guide surface of the guide frame, the safety factor is 15, for example.

In addition, the above-mentioned long span conductive hydrogate opening and closing device can adopt the power transmission system of the sliding type for preventing the overload of the conventional conductive movable beam almost as it is, and the power transmission system faces the guide frame in the underground direction, and the roller guides. It is a structure that there is no risk of damaging the water gate or cylinder even if foreign matter gets caught in the way of standing and falling while rolling along the guide surface of the frame, and the cylinder room is located underground, but the watertightness is required ( The pin part that transmits the power of the gate keeps the watertightness with the grand packing, and the inspection port used for the maintenance maintains the tight watertightness by treating the flat packing.) Large branches or foreign substances floated from upstream The existing risk of hanging on the structure and disrupting the smooth flow of river water is minimized.

In addition, the cylinder room, which has been raised above the ground, can be moved underground to move power to the required position irrespective of the length of the movable beam. Maximum flexibility is ensured.

Moreover, there is a relatively large cylinder room (e.g. 6865x1000x1890) in the basement and an access opening (e.g. 1000x1000) in the downstream direction, which facilitates human traffic and is good for maintenance.

In addition, there is no power room in the concrete body part, so there is no need for the body, and it is possible to install natural stones or other natural structures in the body that was not good for aesthetics.

Although the present invention has been described above according to specific embodiments of the present invention, it is also within the scope of the present invention to be changed and modified by those skilled in the art without departing from the spirit of the present invention. Of course.

11: hydrological body
12: sluice rotation axis 13: sealing rubber plate
14: guide pin 15: pin cover
16: Packing 17: Packing Bracket
18: Packing 19: Pin Link
21: guide frame
21a: Roller guide 21b: Roller seating groove
22: hydraulic cylinder 22a: cylinder binding pin
22b: Connector rod binding pin 22c: Connector rod
23: roller bracket 23a: roller bracket binding pin
23b: roller binding pin 23c: rib
24: roller 25: cylinder link
26: roller link 29: housing
40: cylinder room 41: check hole

Claims (6)

As a long span conducting water gate opening and shutting device,
Janspan hydrologic body 11;
A housing 29 installed underground below the sluice main body 11 and containing the long span conductive sluice opening and closing device;
A guide frame 21 which is coaxially coupled with the rotation shaft 12 of the sluice body 11 and directed toward the housing 29 in an underground direction;
A roller bracket (23) positioned in the housing (29) which stands and flips the guide frame while rolling along the roller guide (21a) surface of the guide frame (21); And
Drive means for rotating the roller bracket (23);
Jangpan conduction waterway opening and closing device comprising a.
The method of claim 1,
And the drive means is a hydraulic cylinder (22) in the housing (29).
3. The method according to claim 1 or 2,
The roller bracket 23 is a long span conductive hydrogate opening and closing device, characterized in that it further comprises a roller 24 that moves while rotating along the roller guide (21a) of the guide frame (21).
The method of claim 3, wherein
The roller bracket 23 is rotatably coupled to the roller link 26 fixed to the bottom surface of the housing 29, and the first operating point is freely coupled to the roller 24, and the second operating point is The long span conductive hydrogate opening and closing device, characterized in that coupled to the hydraulic cylinder (22).
The method of claim 1,
The driving means and the roller bracket 23 are disposed in the cylinder room 40 space formed of the housing 29, and the upper portion of the downstream side of the cylinder room 40 has an inspection opening 41 formed therein. A long span conductive hydrogate switch.
6. The method of claim 5,
The central part of the guide pin (14) is a long span conductive hydrogate opening and closing device characterized in that the guide pin (14) can be rotated while being sealed by a pin cover (15) to ensure water tightness.

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