KR200460850Y1 - Apparatus for opening and closing water gate and water gate system using the same - Google Patents

Abstract

The present invention relates to a mobile hydrological opening and closing device and a hydrological system using the same, in the hydrological opening and closing device for linear reciprocating movement on a mobile seat installed along a plurality of water gates arranged in a row, extending in the width direction of the mobile device and A body installed on the moving table; Moving means for reciprocating the body on the moving table; It is installed on the front end of the body, the lower end of the hook is formed to include a drive unit for moving in the vertical direction and the front and rear direction, respectively comprising a drive unit for adjusting the angle of the plurality of sluice. According to the present invention, it is possible to open and close a plurality of gates while moving between a plurality of gates, so there is no need to install a separate gate door opening and closing device for each gate has the advantage of easy installation and reduced installation costs.

Description

Mobile gate switchgear and hydrological system using same {APPARATUS FOR OPENING AND CLOSING WATER GATE AND WATER GATE SYSTEM USING THE SAME}

The present invention relates to a mobile hydrological opening and closing device and a hydrological system using the same, and to a mobile hydrological opening and closing device for selectively opening and closing a hydrological gate while moving between a plurality of conductive hydrological gates and a hydrological system using the same.

A water gate is a door installed in a waterway to control the flow rate or maintain the depth of water. At the main stream of the stream, the flood gate is divided into a spillway, or at the tributary of the main stream flood. ) Are installed at points where the reverse flow is prevented. Such a sluice is divided into rotary, elevating, conducting, etc. according to its operation principle, that is, the opening and closing method. The rotary type is the method of opening and closing the gate by rotating it around a specific axis, and the lifting type is the method of lifting the gate out of the stream and opening it again and closing it.The conduction type is able to completely lay the gate on the bottom of the river and between the gate and the bottom of the river The flow rate is controlled by adjusting the angle. Of these various types of water gate, the most suitable type is selected depending on the condition of the cloth on which the water gate is installed, or economic or technical limitations. Thus, the gates are not only classified according to their opening / closing methods, but the most suitable opening / closing gates for a given condition are selected and installed. The various types of water gates have been developed because the characteristics of the topography of the river and the flow of the rivers are diverse, so that different types of water gates are needed at that time, and furthermore, to improve the durability, economical efficiency, and convenience of management. Efforts have been going on.

Looking at the configuration of the general gate and the gate switchgear, as disclosed in Korean Utility Model Model No. 20-2006-0009445, in order to open and close a plurality of gates, a plurality of winches, that is, a switchgear must be provided, There is a problem that the configuration is very complicated, economical, and not easy to maintain and manage because each switchgear must be maintained and repaired separately. Or, the general gate and the gate opening and closing devices, as disclosed in Korean Patent Laid-Open No. 10-2009-0097825, when opening and closing a plurality of gates with one winch, each gate is adjusted at the same angle to open and close each gate It was difficult to control the state differently, and there was a problem that it is difficult to open and close each gate properly according to the flow characteristics. Further, when using a winding machine such as winch (WINCH), there was a problem that the high tension is applied to the wire to be wound when opening and closing the water gate, so that durability is poor and failure occurs frequently. In particular, the conventional hydrological system as described above was difficult to apply to a wide terrain of the river, when each gate is provided with a separate opening and closing device that requires a power supply for each of the plurality of gates installed in a wide river. Since it must be installed separately, not only economical efficiency but also the installation is complicated during construction, there is a problem that a lot of maintenance costs in use. Furthermore, when the hydrological system as disclosed in Korean Patent Laid-Open Publication No. 10-2009-0097825 is applied to a wide river, the flow velocity or flow rate is different for each position where the hydrological gate is wide. Since the same angle must be adjusted, there was a problem that the flow rate adjustment effect of the water gate can be lowered.

Therefore, the present invention has been devised to solve such a problem, and an object of the present invention is to provide a mobile hydrological opening and closing device that can open and close a plurality of gates while moving between a plurality of gates and a hydrological system using the same.

Another object of the present invention is to provide a mobile hydrological opening and closing device that can control a plurality of gates separately and a hydrological system using the same.

Furthermore, another object of the present invention is to provide a mobile hydrological opening and closing device and a hydrological system using the same, which is economical and easy to maintain due to its high durability and complexity.

The mobile hydrological opening and closing device according to the present invention having the above object and the hydrological system using the same, in the hydrological opening and closing device to linearly reciprocate on a mobile platform installed along a plurality of water gates arranged in a line, in the width direction of the mobile table A body extending long and installed on the moving table; Moving means for reciprocating the body on the moving table; It is installed at the front end of the body, the lower end formed with a hook is configured to include a drive unit for adjusting the angle of the plurality of water gates by moving in the vertical direction.

And the drive unit, the one end is fixed to the front end of the body and the other end of the first cylinder is adjusted in length, when the first cylinder is contracted and fixed to make a predetermined angle to the front end of the body; One end is rotatably connected to the front end of the body, and is connected to the pedestal through a length-adjusted second cylinder, when the second cylinder is extended, the other end rotates upwards and the second cylinder contracts A towing table whose other end rotates downward; And the upper end is rotatably connected to the other end of the tow, the lower end is formed with a hook, connected to the tow through the length-adjustable third cylinder, including a steering wheel to adjust the relative angle with the tow It can be configured.

In addition, the first cylinder, the second cylinder, and the third cylinder may be formed of a hydraulic cylinder or a screw jack, respectively.

On the other hand, the present invention is a plurality of conductive hydrology and arranged in a line; A movable table extending along the plurality of gates on the plurality of gates arranged in a row; In the hydrological opening and closing system is installed on the movable platform and comprises a hydrological opening and closing device that linearly reciprocates on the movable table, the hydrological opening and closing device is extended in the width direction of the movable table and installed on the movable table A body; Moving means for reciprocating the body on the moving table; The front end of the body, the lower end of the hook is formed may be configured to include a drive unit for adjusting the angle of the plurality of sluice to move in the vertical direction.

At this time, the plurality of water gates are joined to the water gate in the vertical direction long on one side between the water gate and the water gate is formed of a plate-shaped watertight rubber convexly raised in the center of the width direction, and the water-tight rubber and The stainless plate may be formed in the contacting portion.

The drive unit may include one or more arms including joints whose angle is adjusted by a screw jack or a hydraulic cylinder whose length is adjusted by the electric motor.

In addition, the hydrological opening and closing device may be configured to include its own power generation means, and when receiving a remote control signal may control the drive unit according to the received signal.

According to the mobile hydrological switchgear and the hydrological system using the same according to the embodiment of the present invention having such a configuration, a plurality of gates can be opened and closed while moving between a plurality of gates, so that a separate hydrological gate is installed for each gate. There is an advantage that it is easy to install and the installation cost is reduced because it does not have to.

In addition, according to the mobile hydrological opening and closing device and the hydrological system using the same according to the embodiment of the present invention, since the plurality of hydrological gates can be controlled separately, considering the flow rate, flow rate, depth, etc. for each hydrologic gate properly, This has the advantage of being adjustable.

And according to the mobile hydrological switchgear and the hydrological system using the same according to an embodiment of the present invention, there is an advantage that the maintenance is easy because only a small number of opening and closing device to maintain compared to the number of the gate.

Furthermore, according to the mobile hydrological opening and closing device and the hydrological system using the same according to the embodiment of the present invention, the durability of the hydrological opening and closing device is improved.

1 is a perspective view showing the configuration of a hydrological system using a mobile hydrological opening and closing device according to an embodiment of the present invention.
Figure 2a and 2b is a longitudinal sectional view showing the configuration of a mobile hydrological switchgear according to an embodiment of the present invention.
Figure 3 is a perspective view showing the configuration of the conductive sluice to be opened and closed using the removable sluice gate according to an embodiment of the present invention.
Figure 4 is a cross-sectional view showing the configuration of the conductive sluice to be opened and closed using the removable sluice gate according to an embodiment of the present invention.

Hereinafter will be described in detail with reference to the mobile hydrological opening and closing device and a hydrological system using the same according to an embodiment of the present invention. Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but can be implemented in a variety of different forms, only the embodiments of the present invention to complete the disclosure of the present invention, the general knowledge in the art to which the present invention belongs It is provided to fully inform the person having the scope of the invention, which is only defined by the scope of the claims.

Like reference numerals refer to like elements throughout.

1 is a perspective view showing the configuration of a hydrological system using a mobile hydrological opening and closing device according to an embodiment of the present invention, Figures 2a and 2b is a longitudinal cross-sectional view showing the configuration of a mobile hydrological opening and closing device according to an embodiment of the present invention. 3 is a perspective view showing the configuration of a conductive sluice gate that is opened and closed using the mobile sluice gate according to an embodiment of the present invention, Figure 4 is opened and closed using the mobile sluice gate according to the embodiment of the present invention A cross-sectional view showing the configuration of the conductive floodgate.

As shown in FIG. 1, a hydrological system using a mobile hydrograph opening and closing device according to an embodiment of the present invention includes a mobile platform 10. The movable table 10 serves to support a mobile hydrological opening and closing device to be described later and to provide a movement path of the mobile hydrological opening and closing device. The movable table 10 extends in parallel with a direction in which a plurality of sluices are arranged above the plurality of sluices to be described later. That is, the movable table 10 is formed to extend in a direction perpendicular to the flow direction of the river or river where the water gate is installed. Such mobile platform 10 may also serve as a general bridge, for example, or may be installed only to provide a movement path of a mobile hydrological opening and closing device.

The shifting unit 10 is provided between two shifts 11, which are pillars supporting both ends of the shifting unit 10 at the edge of a river or a river, and the shifts 11 and the shifts 11. A bridge 12 supporting the movable table 10 and an upper structure 13 disposed on an upper end of the bridge 11 and the bridge 12 and composed of a beam and a slab are included. At this time, the upper structure 13 is exposed to the outside of the water in the width direction both ends of the bridge surface 15, the upper surface of the upper structure 13 may be provided with a rail 16 to which the hydrological opening and closing device to be described later. Alternatively, the truss 14 may be installed in the upper structure 13, and the rail 16 may be installed on the truss 14. That is, the rail 16 is formed to extend on both ends of the width direction of the movable table 10 on the upper structure (13).

On the other hand a plurality of sluice gate 20 according to the embodiment of the present invention is installed. The sluice gate 20 may be a conductive sluice gate that is conductively opened and closed as shown in FIGS. 2 to 4. The sluice gate 20 firstly includes an outer skin plate 20a. The outer skin plate 20a is a metal rectangular plate constituting the body of the water gate 20, and may be formed, for example, with a width of 1.5 m and a height of 7.4 m. The skin plate 20a may be formed to have a thickness of 12 mm, and may be coupled between two vertical beams 20b. Meanwhile, the vertical beams 20b may be formed in a square tube shape or a circular steel pipe, and additionally, one or more horizontal beams are installed together between the vertical beams 20b to prevent the hydraulic pressure and the drag generated during the hydrological operation. The bearing force of the outer skin plate 20a can be strengthened. In addition, the horizontal beam located at the top of the one or more horizontal beams may be formed in a shape that is hooked to the hook formed on the end of the steering wheel of the hydrological opening and closing device to be described later.

On the other hand, the lower end of the water gate 20 having the configuration as described above is fixed to the pedestal 22 around the bonding shaft 21. The pedestal 22 is fixed to the foundation ground (G) of the river or river, the upper end of the pedestal 22 and the lower end of the water gate 20 is hinged around the joint shaft 21. At this time, the base ground (G) of the river or river is preferably formed in a state in which the pedestal 22 can be sufficiently fixed by being reinforced than the general ground by a concrete paving process or by a reinforcing method such as grouting.

Meanwhile, as the floodgate 20 is rotatably connected to the pedestal 22, the angle of the floodgate 20 may be adjusted, for example, a plurality of preset angles, for example, 0 degrees, 45 degrees, and 60 degrees. 75 degrees, 90 degrees can be adjusted to any one selected as needed. To this end, the support 23 is rotatably coupled around the joint shaft 24 to any one of the outer skin plate 20a or the horizontal axis of the sluice 20 to support the sluice 20. One end of the brace 23 is fixed to the sluice 20 around the connecting shaft 24 as described, and the other end of the brace 23 is fixed to the support plate to be described later.

The support plate 25 on which the other end of the brace 23 is walked is fixed to the foundation ground G of a river or a river as shown in FIG. 2. The support plate 25 is spaced apart from the pedestal 22 by a predetermined distance to be firmly fixed to the base ground G, and the other end of the brace 23 hinged to the water gate 20 on an upper surface of the support plate 25. A plurality of hangers 25 'which are selectively hooked are formed. The hooking jaw 25 ′ is formed to have a steep slope toward the sluice 20, and the opposite side is formed to have a gentle curve so that the other end of the brace 23 is supported away from the sluice. In addition, the other end of the brace 23 is selectively hanged on any one of the plurality of hooking jaw (25 '), if necessary, the position of the other end of the brace 23 is in the movement of the hydrological opening and closing device to be described later Is determined by.

And the hydrological opening and closing device 30 according to a specific embodiment of the present invention is installed to reciprocate on the movable table 10 as shown in FIG. The hydrological opening and closing device 30 is provided with a body 31 which is installed above the moving table (10). The body 31 extends in the width direction of the movable table 10 and extends over the entire width direction of the movable table 10. In addition, the hydrological opening and closing device 30 supports the body 31 from below, and at least two wheels 34 for moving the body 31 by rotating on the rail (16) installed on the movable table (10) This is installed. The wheel 34 travels on the rail 16 below the body 31, and the hydrogate opening and closing device 30 may include one or more electric motors to enable driving by rotation of the wheel 34. It may include.

The front end of the body 31 extending in the width direction of the movable table 10 is provided with a drive unit 32 for operating the opening and closing of the water gate. The drive part 32 is first provided with a pedestal 32a. One end of the pedestal 32a is connected to the front end of the body 31 and extends a predetermined length toward the other end of free rotation. One end of the pedestal 32a is connected to the front end of the body 31 by a first cylinder 33a, and the first cylinder 33a is connected to the end of the body 31 and the other end of the pedestal ( Connected to one end of 32a). The length of the first cylinder 33a is adjusted as necessary. When the first cylinder 33a is contracted, as shown in FIG. 2A, the pedestal 32a is the body of the water gate opening and closing device 30. 31) It is fixed in the state which maintains a predetermined angle by being walked by one side. To this end, a frame may be formed at the front end of the body 31 to hang the pedestal 32a when the first cylinder 33a is contracted. In addition, when the first cylinder 33a extends for a long time, the pedestal 32a is vertically arranged downward, so that the free end of the pedestal 32a is freely rotated to the upper structure 13 side of the movable table 10. Touches.

Meanwhile, the front end of the body 31 is connected to the traction table (32b). The tow 32b is extended so that one end thereof is rotatably connected to the front end of the body 31 and the other end thereof is connected to the steering wheel 32c to be described later. A second cylinder 33b is coupled to one side of the tow 32b connected to the body 31 in the longitudinal direction thereof. The second cylinder 33b is installed between the tow 32b and the pedestal 32a. Accordingly, when the length of the second cylinder 33b is reduced while the pedestal 32a is fixed at the solid line position, the retractor 32b is centered on one end fixed to the front end of the body 31. Once the 32a rotates closer to the fixed position (the other end moves downward) and the second cylinder 33b is extended, the tow 32b is once fixed to the front end of the body 31. Rotate so as to move away from the pedestal 32a (the other end moves upward). That is, the tow 32b operates so that the other end rotates in an arc around the front end of the body 31.

In addition, the steering unit 32 is provided with a steering wheel (32c). The steering wheel 32c is rotatably connected to the other end of which the upper end rotates while drawing an arc of the tow 32b, and extends downward to hang on a horizontal beam located at the top of the sluice 20 at the other end thereof. The hook 32c 'which opens and closes the sluice gate is integrally formed. A third cylinder 33c is connected to the steering wheel 32c and the towing table 32b, and one side of the third cylinder 33c is fixed to the other end side with respect to the longitudinal direction of the towing table 32b. The other side is connected to the top side of the steering wheel 32c is adjusted in length as necessary. When the length of the third cylinder 33c contracts, the lower end of the steering wheel 32c moves inwardly (the sluice direction), and when the length of the third cylinder 33c extends, the lower end of the steering wheel 32c is outwardly ( Go in the opposite direction to the floodgate). By the operation of the driving unit 32 as described above, the hook 32c 'is hooked to each of the floodgates so that the angle of the floodgate is adjusted and the hook 32c' is released again.

In addition, the first cylinder 33a, the second cylinder 33b, the third cylinder 33c of the configuration constituting the drive unit 32 may be composed of a hydraulic cylinder, a screw jack configured with an electric motor ( Screw Jack) may be configured. In addition, the first cylinder 33a, the second cylinder 33b, and the third cylinder 33c may be replaced by a hoisting device. In particular, when the first cylinder 33a, the second cylinder 33b, and the third cylinder 33c are each composed of screw jacks, the installation cost is low, accurate hydrological opening and closing control is possible, and environmental pollution There is an advantage that can be reduced, and the durability of the overall system can be improved by minimizing the impact transmitted to the hydrologic. In addition, manual operation is possible even if a mechanical drive problem occurs such as a failure of the electric motor connected to the screw jack or a power failure, so that the hydrological control can be performed without problems even if the system malfunctions or malfunctions caused by natural disasters. To this end, the screw jack may be configured with a handle to enable manual operation. That is, a handle coaxially rotating with the electric motor for driving the screw jack is connected to the screw jack, so that if a problem occurs in driving the device, manual operation is performed.

At this time, the configuration of the driving unit 32 described above is only one embodiment, and the driving unit 32 may be any means capable of adjusting the angle by walking the water gate 20 by mechanical movement. In particular, in the present invention, the drive unit 32 includes a pedestal 32a, a retractor 32b, a steering wheel 32c on one or more arms, and means for adjusting the angle of one or more arms ( And a first cylinder 33a, a second cylinder 33b, and a third cylinder 33c).

Meanwhile, the cockpit 35 may be connected to the rear end of the body 31. The cockpit 35 may be integrally connected to the rear end of the body 31 extending horizontally and extend vertically downward. Accordingly, it is extended to the height below the upper structure 13 of the movable platform 10 so that the manager of the hydrological system can visually check the operation of both the hydrological gate 20 and the steering panel 32c in the cockpit 35. Make sure

The hydrological opening and closing device 30 configured as described above stops at a position corresponding to the hydrological gate 20 that needs to be opened and closed while moving along the movable table 10 to adjust the angle of each hydrological gate 20. do. The hydrological opening and closing device 30 may further include its own power generation device such as a photovoltaic power generation facility. Such a self-generating device rotates the wheel 34 of the hydrological opening and closing device 30 to open and close the hydrological opening and closing device. It can be used as a drive source for moving the device 30 and can also be used as a drive source of the drive unit 32. When such a self-generating device is provided, it is not necessary to separately supply power to the water gate opening and closing device 30, which must move from time to time along the moving table 10, and does not need to install additional supply facilities for power supply. In addition, there is an advantage that the risk of damage to the power supply equipment due to the movement of the water gate opening and closing device 30 can be prevented. In addition, the hydrological opening and closing device 30 may be configured separately from the wireless communication means to be remotely controlled by using a wireless signal transmitted from the control (40).

On the other hand, the present invention is particularly effective when employed in a wide river, a very large number of gates are installed in such a wide river. When such a large number of gates are installed at the same time, the watertight between the gates is very important. Therefore, to further describe the additional features of the water gate according to an embodiment of the present invention, as shown in FIG. 4, each of the water gates 20 is a vertical beam 20b and the shell plate 20a therebetween In order to maintain the watertight between the water gate 20 and the water gate 20, watertight rubber R is provided on the side of the vertical beam 20b of one water gate 20, and the counter water gate 20 On the counter side of the vertical beams 20b of (), a stainless plate A is provided. The watertight rubber (R) is a liner shape whose shape extends along the height direction of the vertical beams (20b) to be in close contact with the vertical beams (20b), and is a long rubber plate as a whole. When it protrudes toward and comes into contact with the stainless plate of the other side gate 20, it is pushed and compressed by elasticity. The part that contacts the watertight rubber (R) in the other side of the water gate (20) of the watertight rubber (R) is formed of a stainless steel plate, even if the surface is damaged by friction with the watertight rubber (R) Rust can be prevented from forming in (20).

In the case of using the hydrological opening and closing device as described above and the hydrological system using the same, it is possible to construct an inexpensive and durable hydrological system even in a wide river where a large number of hydrological gates are needed, especially in the case of utilizing an existing infrastructure such as a bridge, Efficient low cost construction of the gate is possible.

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is represented by the scope of the claims to be described later rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts are included in the scope of the invention. Should be interpreted.

10: Mobile Stand 20: Sluice
30: switchgear 40: control room

Claims (8)

In the hydrological opening and closing device to linearly reciprocate on a mobile station installed along a plurality of water gates arranged in a line,
A body extending in the width direction of the movable table and installed on the movable table;
Moving means for reciprocating the body on the moving table;
Is installed at the front end of the body, the lower end is formed hook is configured to include a drive unit for adjusting the angle of the plurality of sluice to move in the vertical and front and rear directions, respectively,
The driving unit,
A pedestal which is fixed to the other end of the first cylinder whose one end is fixed to the front end of the body and whose length is adjusted, and the first cylinder is contracted and fixed to the front end of the body at a predetermined angle;
One end is pivotally connected to the front end of the body and is connected to the pedestal through a length-adjustable second cylinder. When the second cylinder is extended, the other end rotates upwards and the second cylinder contracts. A tow table having the other end rotating downward; And
An upper end is rotatably connected to the other end of the tow, the lower end is formed with a hook, connected to the tow through the third cylinder length adjustment, including a steering wheel to adjust the relative angle with the tow Composed, hydro gate. delete The method of claim 1,
And said first cylinder, said second cylinder, and said third cylinder are each formed of a hydraulic cylinder or a screw jack. A plurality of conductive sluices arranged in a row; A movable table extending along the plurality of gates on the plurality of gates arranged in a row; In the sluice system is installed on the movable table and comprises a hydrological opening and closing device for linear reciprocating movement on the movable table,
The hydrological opening and closing device,
A body extending in the width direction of the movable table and installed on the movable table;
Moving means for reciprocating the body on the moving table;
A hydrological system comprising a driving unit installed at a front end of the body, the lower end of which a hook is formed to move in the vertical direction and the front-rear direction to adjust the angles of the plurality of hydrological gates, respectively. The method of claim 4, wherein
The plurality of sluices,
On one side between the sluice and the sluice, a plate-shaped watertight rubber is formed, which is joined to the sluice in a vertical direction and convexly rises in the width direction to protrude. Sluice system in which a stainless plate is formed. The method of claim 4, wherein
The driving unit,
A hydrologic system, comprising one or more arms comprising a joint that is angled by a screw jack or hydraulic cylinder whose length is adjusted by an electric motor. The method of claim 4, wherein
The hydrological opening and closing device,
A hydrological system comprising self-generation means. The method of claim 4, wherein
The hydrological opening and closing device,
Receiving a remote control signal to control the driving unit according to the received signal.

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