KR200320067Y1 - Multiple-stage type floodgate apparatus - Google Patents

Abstract

The present invention relates to a multi-stage sluice system, in which the sequential overlapping and installation of one or more auxiliary sluices of which size gradually decreases in front of the main sluice, and through this auxiliary sluice, only the opening of the main sluice By diversifying the conventional water-water passages that depended solely on the water, for example, even under adverse conditions in which water is stored in a small amount below a certain level, the water can be smoothly waterproofed by an alternative opening of the secondary water gate, thereby failing to adjust the water volume. It is possible to minimize the damage to the hydrological system administrator.

In addition, in the present invention, a plurality of auxiliary gates are additionally installed in front of the main gate, so that a small amount of water droplets can be preliminarily performed before opening the secondary gate. In addition, by inducing the jaw formed in the vicinity of the main gate by the water-repellent procedure of the water to be naturally removed before opening the main gate, it is possible to naturally normalize the failure of the main gate due to the blockage of the jaw.

In addition, the present invention induces the natural removal of the jaw through a small amount of water waterproofing procedure using the auxiliary water gate, thereby ensuring the normal opening of the main water gate, thereby preventing unnecessary damage of the main water gate due to the water pressure of the water It can be minimized.

Description

Multi-stage type floodgate apparatus

The present invention relates to a hydrologic device, and more particularly, to one or more auxiliary gates which are gradually reduced in size in front of the main gate, which are installed in succession, and through which the secondary gate only opens the main gate. By diversifying the conventional water-water passages that depended on them, for example, even under adverse conditions in which water is stored in a small amount below a certain level, it can be induced to be naturally waterproofed by the alternative opening of the auxiliary water gate, thereby, It is a multi-stage hydrologic device that can minimize the damage of the hydrological manager.

In recent years, with the general development of the industrial structure, for example, the importance of agricultural water, industrial water, etc. has rapidly increased, the importance of the hydrological device for properly adjusting the storage / waterproofing amount of water stored in a certain reservoir space also increases significantly.

As shown in FIG. 1, the hydrological device 100 according to the related art includes a civil structure 120 defining a reservoir space, and a hydrological gate 101 fixed to be suspended to move back and forth to the civil structure 120. In combination.

At this time, in the civil structure 120, for example, the upper civil structure, the fixing member 103 for fixing the water gate 101 to the civil structure 120, for example vertically suspended on the support plate 112 is installed is installed, this fixed The member 103 forms a structure connected to the hydrological coupling piece 102 via the hinge link 104. In this case, connecting pins 105 and 106 for coupling the hinge link 104 are inserted into each of the fixing member 103 and the sluice coupling piece 102. By the action of the connecting pins 105 and 106, the hinge link ( 104 is able to reliably connect the fixing member 103 and the sluice 101.

On the other hand, as shown in the drawings, the upper and lower sides of the above-mentioned civil engineering structure 120, the door frame 113 for seating the water gate 101 on the civil structure 120 is disposed, the door frame 113 A buffer piece 107 is additionally disposed on the upper and lower sides of the rear door 101 so as to alleviate the impact caused by the collision between the water gate 101 and the civil structure 120 when the water gate 101 is opened and closed. In this case, the cushioning piece 107 is, for example, a rubber ring 110, a support bar 111 for supporting the rubber ring 110, and an insertion for fixing the support bar 111 to the water gate 101. It consists of a combination of the pin 109 and the fixing bolt 108 for fixing the insertion pin 109.

In the hydrological device 100 according to the related art having such a configuration, when the water W1 stored in the civil engineering structure 120 exceeds the water storage level by a predetermined level or more, the water W1 is the water gate 101. More than a certain size press is applied to the side.

At this time, as mentioned above, since the water gate 101 is fixed to the civil structure 120 to move back and forth by the action of the fixing member 103, the hinge link 104, the water (W1) When a press of a certain size or more is applied from the water W1 side due to the excess amount of low water, the water gate 101 is moved to the front of the civil structure 120 by the pressure, and is opened automatically. The water W1 stored in the 120 may be poured out to be naturally waterproof to the seawater W2, and, as a result, the water W1 in the civil structure 120 may stably maintain an appropriate level of water storage. Will be.

Afterwards, when the waterproofing process of the sea water W2 side of the water W1 is completed, and the press applied from the water W1 side is released, the water gate 101 naturally returns to its original position, and the civil structure 120 The open area is closed, and in the aftermath, the water W1 in the civil engineering structure 120 can be stably isolated from the seawater W2.

Under such a conventional hydrologic system, as described above, the hydrologic gate 101 only takes a mechanism that is opened by the press only when the water W1 is stored above a certain level, which is soon "Under conventional hydrologic opening mechanisms, the hydrologic gate 101 is not opened unless the reservoir of excess water W1 stored in the civil structure 120 is stored in an amount sufficient to move itself." Means that.

However, when the water gate 101 takes a mechanism that is opened only by the water W1 of a certain level or more, there are many difficulties in the unexpected situation on the hydrological device manager side.

For example, under the conventional regime, even if the "need to open the water gate 101 with a low level of water" is raised, unless the conventional water gate 101 deviates from the mechanism of opening only by a certain level of water, Therefore, the hydrological device manager cannot take any appropriate countermeasures at all, and eventually suffers the damage caused by the failure to adjust the water supply.

On the other hand, under the conventional hydrological device 100 system, as described above, when a press of a predetermined size or more is applied by the stored water W1, the hydrological gate 101 is prevented by the pressure of the civil structure 120. Moving forward, it is automatically opened, and in the aftermath, the water stored in the civil structure 120 is suddenly poured out.

Under such a conventional system, if the water stored in the civil engineering structure 120 is continuously poured out by the frequent opening of the water gate 101 without any further action, and this situation is left as it is, by the water pressure. Foreign substances such as tidal flats under the seawater are shaved to a certain depth to form a jaw (T) of a predetermined height or more in the vicinity of the sluice (101), and no additional measures are taken to remove the jaw (T). If not, the jaw (T) will inevitably cause a lot of harm in the operation of the water gate.

For example, in the conventional system, when the jaw T described above is left without being removed, the water gate 101 has a jaw T1 even if a press of a certain size is applied by the stored water W1. As a result, the gate manager cannot accept the damage that cannot be adjusted appropriately due to the failure of adjusting the opening width of the gate 101 on the water gate manager side.

Of course, in this way, in the situation where the water gate 101 is caught by the jaw T and cannot be normally opened, when a press of a certain size is continuously applied by the water W1 without any further action, the water gate 101 is Inevitably, they are forced to break down, and inevitably, the hydrological manager can not only open the floodgate 101 normally, but also suffer from unnecessarily replacing the floodgate. do.

Therefore, the object of the present invention is to superimpose and additionally install one or more auxiliary sluices that are gradually decreasing in size in front of the main sluice. By diversifying the passages, for example, even under adverse conditions where water is stored at a lower level than a certain level, it can be smoothly waterproofed by an alternative opening of the auxiliary water gate, thereby preventing the hydrological manager's side damage due to the failure of low water regulation. To minimize.

Another object of the present invention is to install a plurality of auxiliary floodgates in front of the main floodgate, so that a small amount of floodwater discharged by the opening of the secondary floodgate can be carried out before the bulk floodwater drainage procedure. It guides and guides the jaw formed in the vicinity of the main water gate to be naturally removed prior to the opening of the main water gate by a small amount of water waterproofing procedure, thereby naturally normalizing the opening failure of the main water gate due to the jaw obstruction.

Another object of the present invention is to induce a natural removal of the jaws through a small amount of water waterproofing procedure using the auxiliary water gate, thereby ensuring the normal opening of the main water gate, unnecessary damage of the main water gate due to the water pressure of the water To minimize this.

Still other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

1 is an exemplary view showing a hydrological device according to the prior art.

2 and 3 is an exemplary view showing a multi-stage hydrologic device according to the present invention.

4 and 5 is an exemplary view showing a multi-stage hydrologic device according to another embodiment of the present invention.

In order to achieve the above object, the present invention is fixed to the civil structure to define the storage space of the water is fixed, and according to the storage level of the water, pushed to the outside of the civil structure, selectively opening and closing the front storage space, It is fixed to the main main gate with the main water gate provided with a waterproofing hole for waterproofing the water at a part, and the water hole is covered, and is pushed to the outside of the main water gate according to the water storage level, and the waterproofing hole is selectively Disclosed is a multi-stage hydrologic device consisting of a combination of auxiliary hydro gates that open and close.

Hereinafter, with reference to the accompanying drawings, the multi-stage hydrologic device according to the present invention in more detail as follows.

As shown in Figure 2 and 3, the multi-stage hydrologic device 200 according to the present invention is largely, the civil structure 120 and the civil engineering structure 120, which defines the storage space of the water (W1) and hanging on the civil structure 120 It is fixed and pushed to the outside of the civil engineering structure 120 in accordance with the storage level of the water (W1), selectively opening and closing the water storage space of the front, and a waterproofing port (G1) for waterproofing the water (W1) in a part of the main body is provided. It is fixed to the main water gate 201 in the state covering the main water gate 201 and the waterproofing port G1, and is pushed out of the main water gate 201 according to the storage level of the water W1. , Made of a combination of auxiliary water gate 231 for selectively opening and closing the waterproof port (G1).

At this time, the civil structure 120, for example, the upper civil structure is installed on the support plate 212, the fixing member 203 for fixing the main water gate 201 to the civil structure 120, for example by hanging vertically, The fixing member 203 forms a structure connected to the hydrological coupling piece 202 via the hinge link 204. In this case, connecting pins 205 and 206 for coupling the hinge link 204 are inserted into each of the fixing member 203 and the sluice coupling piece 202, and by the action of the connecting pins 205 and 206, the hinge link ( The 204 can stably connect the fixing member 203 and the main water gate 201.

Here, the upper and lower sides of the above-mentioned civil engineering structure 120, the door frame 213 for mounting the main water gate 201 to the civil structure 120 is disposed, the main water gate 201 corresponding to the door frame 213 On the upper and lower sides of the rear part, a buffer piece 207 is further disposed to alleviate the impact caused by the collision between the main water gate 201 and the civil structure 120 when the main water gate 201 is opened and closed. In this case, the cushioning piece 207 may be, for example, a rubber ring 210, a support bar 211 for supporting the rubber ring 210, and a support bar 211 for fixing the support bar 211 to the main water gate 201. The insertion pin 209 and the fixing bolt 208 for fixing the insertion pin 209 is composed of.

On the other hand, similar to the above-mentioned structure, a part of the main gate 201 is mounted on the support plate 242 is a fixing member 233 for fixing the secondary gate 231 to the main gate 201, for example to hang vertically The fixing member 233 is installed through the hinge link 234 to form a structure connected to the auxiliary hydrological coupling piece 232. In this case, connecting pins 235 and 236 for coupling the hinge link 234 are inserted into each of the fixing member 233 and the auxiliary sluice coupling piece 232, and by the action of the connecting pins 235 and 236, the hinge link 234 may stably connect the fixing member 233 and the auxiliary sluice 231.

At this time, as shown in the figure, the door frame 243 for seating the auxiliary sluice 231 on the main sluice 201 is disposed above and below the waterproofing hole G1 of the main sluice 201 mentioned above. A cushioning piece for relieving an impact due to a collision between the auxiliary sluice 231 and the main sluice 201 when the auxiliary sluice 231 is opened and closed on the upper and lower sides of the rear sluice 231 corresponding to the door frame 243. 237 is further placed. In this case, the cushioning piece 237 is, for example, a rubber ring 240, a support bar 241 for supporting the rubber ring 240, and for fixing the support bar 241 to the auxiliary floodgate 231. It is made of a combination of the insertion pin 239 and the fixing bolt 238 for fixing the insertion pin 239.

In the hydrological device 200 according to the present invention having such a configuration, when the water (W1) is stored in the civil structure 120, the water (W1) is a press of a predetermined size to the hydrological side.

At this time, as described above, since the hydrological device 200 of the present invention is provided with a small auxiliary floodgate 231 in addition to the main floodgate 201, the water W1 has a relatively low amount of water stored therein. In the following, although the main floodgate 201 cannot be pressed to the required degree, the secondary floodgate 231 can be normally applied to a predetermined level or more.

Here, as mentioned above, since the auxiliary sluice 231 is fixed to the main sluice 201 to be moved back and forth by the action of the fixing member 233, the hinge link 234, the water (W1) When a predetermined size or more press is applied, the auxiliary floodgate 231 is moved forward of the main floodgate 201 by the pressure, so that the secondary floodgate 231 can be opened automatically, and, in the aftermath, the reservoir in the civil structure 120 is stored. The water W1 that has been poured out can be naturally waterproof to the seawater W2 side, and eventually, the water W1 in the civil engineering structure 120 can stably maintain a low level of water.

In the conventional case, since the main water gate is not arranged with any auxiliary water gate as suggested in the present invention, under the conventional water-opening mechanism, the main water gate is capable of moving the water stored in the civil structure. It did not open unless the amount was exceeded.

Under these conventional circumstances, even if the hydrological device manager raises, for example, the need to open the floodgate with a low level of water, no proper response can be made. I was forced to take. However, in the case of the present invention, since the main water gate 201 is small in size, and the auxiliary water gate 231 is additionally installed to achieve a stable open state even with a press of a relatively small size, under the system of the present invention, Water W1 deviates from the conventional main water gate dependency frame and naturally has an efficient capacity to replace and open the auxiliary water gate 231 by applying a relatively small press to the auxiliary water gate 231 instead of the main water gate 201. As a result, when the present invention is implemented, the hydrological device manager can easily proceed with a series of waterproof procedures even under low conditions of low water amount of water (W1). Damage can be easily avoided.

Subsequently, when the waterproofing process of the sea water W2 side of the water W1 is completed, and the press applied from the water W1 side is released, the auxiliary water gate 231 naturally returns to the original position, and the main water gate 201 To close the waterproof port (G1) of, in the aftermath, the water W1 in the civil engineering structure 120 can be stably isolated from the sea water (W2).

On the other hand, as mentioned above, under a conventional hydrological system, if a press of a certain size is applied by the stored water, the main hydrological gate is moved forward of the civil structure by the pressure, and automatically opens. As the water stored in the civil engineering structure suddenly flows out, and this situation is left as it is, by the water pressure of the water. Foreign matter such as tidal flats under the seawater was cut to a certain depth to form a jaw above a predetermined height in the vicinity of the water gate, and the jaw was, for example, "unless otherwise taken to remove the jaw." It was forced to act as a cause of impediment to the stable opening of the water gate, and in the aftermath, the water gate manager, for example, "a problem in which the water pressure is excessively applied because the water pressure is not properly opened, and the water gate is physically damaged." There was no choice but to accept.

However, in the present invention, as described above, the auxiliary water gate 231 is further installed in front of the main gate 201, under the system of the present invention, the water (W1) according to the opening of the main gate 201 Since before the bulk waterproofing procedure of the water supply procedure, a small waterproofing procedure of the water W1 due to the opening of the auxiliary floodgate 231 can be performed in advance, so that the jaws are subject to the water pressure by the small waterproofing procedure of the water W1. Since the present invention can be naturally removed from the time point before the opening of the floodgate 201, and finally, when the present invention is implemented, the failure of the main floodgate 201 due to the disturbance of the jaw can be naturally normalized. As a result, unnecessary damage of the main water gate 201 due to the water pressure of the water W1 can be easily avoided.

This invention can achieve various modifications, depending on the situation.

For example, as shown in FIG. 4, the secondary sluice gates 251 and 252 may be arranged in pairs in the horizontal direction, in front of the primary sluice gate 201, and as another example, as shown in FIG. 5, the secondary sluice gates. A secondary auxiliary sluice 261 may be further disposed in front of 231.

Of course, if the present invention has such various implementation changes, the hydrological device 200 is, for example, "a function to ensure a smooth waterproof path even at a lower water level," "remove the jaw around the water gate more effectively Can be retained more widely than the previous embodiment, and as a result, the hydrological management side can naturally obtain more improved hydrological management effects.

As in the previous example, when the secondary auxiliary sluice 261 is additionally installed in front of the auxiliary sluice 231, as shown in FIG. The auxiliary waterproofing hole (G2) for waterproofing is further formed in a structure in communication with the waterproofing hole (G1), in this case, the secondary auxiliary water gate 261 covers the auxiliary waterproofing hole (G2), the auxiliary water gate (231) While hanging to be fixed to), according to the storage level of the water (W1), it is pushed to the outside of the auxiliary water gate 231, it is possible to perform the role of selectively opening and closing the auxiliary waterproof port (G2).

Here, similar to the above-mentioned structures, a part of the auxiliary sluice 231 is provided with a fixing member 263 for fixing the secondary auxiliary sluice 261 to the auxiliary sluice 231 by, for example, hanging it vertically. 272 is mounted on, and the fixing member 263 forms a structure connected to the secondary auxiliary hydrological coupling piece 262 via the hinge link 264. In this case, connecting pins 265 and 266 for coupling the hinge link 264 are inserted into each of the fixing member 263 and the secondary auxiliary sluice coupling piece 262, and by the action of the connecting pins 265 and 266, The hinge link 264 can stably connect the fixing member 264 and the secondary auxiliary floodgate 261.

At this time, as shown in the figure, the door frame 273 for mounting the secondary auxiliary water gate 261 to the auxiliary water gate 261 is disposed above and below the auxiliary waterproofing port G2 of the auxiliary water gate 231 mentioned above. The upper and lower rear portions of the secondary auxiliary sluice 261 corresponding to the door frame 273 collide with the secondary auxiliary sluice 261 and the auxiliary sluice 231 when the secondary auxiliary sluice 261 is opened and closed. A cushioning piece 267 is further disposed to mitigate the impact caused by the shock. In this case, the cushioning piece 267 is, for example, a rubber ring 270, a support bar 271 for supporting the rubber ring 270, and the support bar 271 is fixed to the secondary auxiliary floodgate 261. And a fixing bolt 268 for fixing the insertion pin 269 and the insertion pin 269.

On the other hand, the hydrological device 200 according to the present invention can achieve a more improved form change, depending on the situation, for example, the secondary secondary waterproofing port for waterproofing the water in the part of the secondary secondary waterway 261 above. (Not shown) may be formed in a structure in communication with the front auxiliary waterproofing hole G2, and in front of the secondary auxiliary waterproofing opening, the size thereof gradually decreases, and is suspended in sequence. A number of additional auxiliary gates (not shown), which are selectively opened and closed depending on the storage level of the water, form a "coupling form of the combination of the secondary gate 231 and the secondary secondary gate 261," successively overlapping It may be arranged as.

Of course, when these additional auxiliary gates are further arranged, the hydrological device of the present invention is, for example, "a function to ensure a smooth waterproof path even at a lower water level", "a function to more effectively remove the jaws around the gate. It is possible to hold the back more effectively than in the previous embodiments, and eventually, the hydrological manager side can naturally obtain a more improved hydrological management effect.

As described in detail above, in the present invention, one or more auxiliary sluices which are gradually reduced in size in front of the main sluice are continuously stacked and additionally installed, and through this auxiliary sluice, the conventional water gate depends only on the opening of the main sluice. By diversifying the water supply passage of the water, for example, under the adverse conditions where the water is stored in a small amount below a certain level, it can lead to the natural waterproofing by alternative opening of the auxiliary water gate, and thereby the hydrological device manager due to the failure of low water control Side damage can be minimized.

In addition, in the present invention, a plurality of auxiliary gates are additionally installed in front of the main gate, so that a small amount of water droplets can be preliminarily performed before opening the secondary gate. In addition, by inducing the jaw formed in the vicinity of the main gate by the water-repellent procedure of the water to be naturally removed before opening the main gate, it is possible to naturally normalize the failure of the main gate due to the blockage of the jaw.

In addition, the present invention induces the natural removal of the jaw through a small amount of water waterproofing procedure using the auxiliary water gate, thereby ensuring the normal opening of the main water gate, thereby preventing unnecessary damage of the main water gate due to the water pressure of the water It can be minimized.

In the foregoing, specific embodiments of the present invention have been described and illustrated, but it is obvious that the present invention may be variously modified and implemented by those skilled in the art.

Such modified embodiments should not be individually understood from the technical spirit or the viewpoint of the present invention, and such modified embodiments should fall within the appended utility model registration claims of the present invention.

Claims (5)

Hanging and fixed to the civil engineering structure defining the water storage space of the water, according to the storage level of the water is pushed to the outside of the civil structure, selectively opening and closing the water storage space, the waterproof portion for waterproofing the water to a part of the body A main water gate; Maintaining a smaller size than the main water gate, and is fixed to the main water gate in the state of covering the water seal, and pushed out of the main water gate according to the storage level of the water, to selectively open and close the water seal A multistage hydrologic device comprising a hydro gate. The multi-stage watermark device according to claim 1, wherein a part of the auxiliary water gate is formed to communicate with the watertight hole by an auxiliary watertight device for waterproofing the water. The secondary auxiliary of claim 2, wherein the auxiliary waterproofing port is fixed to the auxiliary water gate while being fixed to the auxiliary water gate, and is pushed out of the auxiliary water gate according to the storage level of the water to selectively open and close the auxiliary waterproof port. Multi-stage hydrologic device, characterized in that it further comprises a sluice. 4. The multi-stage hydrologic device according to claim 3, wherein a part of the secondary auxiliary floodgate is formed in communication with the auxiliary waterproof hole for waterproofing the water. 4. The hanging according to claim 3, wherein the front of the secondary auxiliary sluice is gradually smaller in size. And a plurality of additional auxiliary gates which are selectively opened and closed according to the storage water level of the water, arranged in a row.