KR101753328B1 - Underwater sluice with elevating curtain type - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an underwater bridge that is installed on a river bottom in an estuary area where a sea meets a river and blocks the inflow of seawater during tide, more specifically, On the other hand, a shielding membrane is installed on the front side or the rear side of a plurality of steel pipe piles, which are press-fitted into the river bottom by a predetermined depth so as to maintain an upright state in the river water, along the lower water depth layer of the river, And the tube pipe is inserted along a plurality of guide rings connected to each other in the height direction of the shielding membrane. The shrinking inflatable air tube and the weight are connected to the upper end and the lower end of the shielding membrane, When the air flow is released from the air tube at the time of ebbing, To provide a very reasonable and simple automatic retractable underwater watermarking system that allows the barrier to be folded downwardly, thereby providing additional functions such as protection of the ecosystem and environment as well as basic functions such as securing agricultural water or industrial water. At the same time, it is possible to construct at low cost within a very short period of time, with almost no damage to the natural environment around the river, without the construction of a separate water film or bypass channel, and to minimize the cost of maintenance after installation To a curtain-type submerged weir.

Description

{Underwater sluice with elevating curtain type}

The present invention relates to an underwater bridge that is installed on a river bottom in an estuary area where a sea meets a river and blocks the inflow of seawater during a tide. Wherein each of the steel pipe piles is inserted along a plurality of guide rings connected to each other in the height direction of the shielding film, Air tube is connected to the lower side and the shrinking inflation type air tube is connected to the lower side, air is injected into the air tube in the case of tide, and the airflow is released from the air tube at the time of ebbing, Folding curtain type underwater hoist.

Generally, in the estuary where middle and small rivers meet with the sea, seawater is prevented from being pushed into the river by the tide, so that the concrete height is set by using concrete to secure agricultural water and industrial water, By installing the gates with appropriate spacing in the concrete beams, when the tide is high, the respective gates are closed to prevent the seawater from flowing into the river, and when the tide is low, the gates are opened to allow river water (fresh water) .

Since the conventional concrete installed in the estuary area as described above is a large wall structure extending from the bottom surface of the river to a position higher than the water surface of the river, The construction of the concrete beam requires a lot of time and cost, and it is a factor that damages the natural environment around the river greatly.

In addition, the existing method of opening and closing the waterway of concrete beams is based on a manual method in which the operator turns the handwheel by turning the handle, and the upper or lower end of the waterway is fixed to the concrete beam with hinged knowledge. It is necessary to maintain the water level of the water in order to prevent the water from returning from the sea to the river for the spawning or growth. It is not preferable in view of protection of ecosystem and environment.

On the other hand, the flow of seawater pushed into the rivers during tide, that is, the tide is much more in the vicinity of the bottom of the stream than in the area adjacent to the surface of the river, It may be possible to install seawater blocking structures only in the floor space of the river instead of a large concrete beam extending from the bottom of the river to a position higher than the water surface of the river if it is intended to secure agricultural water or industrial water.

Based on the above-mentioned viewpoint, a submerged beam having a predetermined height on the bottom surface of a river is installed so as to be submerged in water. However, existing concrete underwater beams are simple wall type Therefore, there is a problem in that the fresh water at the bottom of the river can not flow into the sea during the low tide and stagnates for a long period of time, thereby causing water pollution or soil pollution at the bottom of the river, Since the concrete structure is manufactured through the casting and curing process of the concrete, there is a problem that it takes a considerable amount of time and cost to manufacture, transport and install the underwater beam.

Korean Patent Publication No. 10-2002-0086322 Korean Registered Utility Model No. 20-0310580

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, A plurality of steel pipe piles are installed on the front side or the rear side of the steel pipe along the lower water depth layer so as to be inserted into the water pipe, And the shrinkable inflatable air tube and the weight are connected to the upper end and the lower end of the barrier, respectively. In case of tumbling, air is injected into the air tube to spread the barrier in the upward direction, So that the barrier is folded in the downward direction. Ever to provide an automatically retractable dimerization submerged weir is that the main technical problem.

In addition, even if the air tube is horizontally passed through the weight holding tube holder connected to the upper end of the barrier membrane, the air tube can be stably supported and the barrier membrane can be easily lowered. A large area of the bottom plate is provided at the lower part of the file and a portion of the steel pipe corresponding to the lower part of the bottom plate is pressed into the bottom of the river so that each steel pipe file is firmly fixed uprightly on the bottom of the river, By connecting the auxiliary blocking plates in the form of a triangular plate corresponding to the inclined sides of the bank walls or the banks in the steel pipe file disposed on the left and right edge sides of the bottom of the river, To more reliably inhibit the inflow of seawater through the bottom space of the river Another technical challenge is.

In addition, the control unit for performing the air injection and discharge operations through the air tube is disposed at a safe position of the bank or the bank outside the river water, and the air injection hose connecting the air tube and the control unit is also disposed on the slope And the operation of injecting air from the air blower of the control unit into the air tube via the motorized valve and the check valve and the operation of discharging the air injected into the air tube to the outside through the motorized valve It is an additional technical problem to allow the work to be accurately performed at the designated time in conjunction with the pressure sensor and the main controller, and to promptly detect the leakage of the air pressure injected into the air tube by the pressure sensor.

As a means for solving the above technical problems, the rising and falling curtain type underwater beams according to the present invention are arranged in a line at regular intervals in the width direction of the river bottom, and are pressed into the bottom of the river by a predetermined depth, At least three steel pipe files installed so as to maintain an upright state among the steel pipe files, a barrier disposed at the front side or the rear side of the steel pipe file to be exposed to water along the lower water depth layer of the river, A weight holder connected to the barrier membrane at a predetermined distance from the upper end of the barrier membrane and connected to the barrier membrane at least three times; And a shrinkable inflatable air blower installed to horizontally penetrate each of the tube holders along an upper end side of the blocking film Wherein the barrier ring is made of a waterproofing cloth or a waterproof cloth material and has a dimension corresponding to the width of the bottom of the river and the upright height of the steel pipe pile. The guide ring has an inner diameter Wherein at least two of the plurality of pipe tubes are inserted into the steel pipe with a number of at least two, and an escape prevention cap is installed at the upper end of each steel pipe to prevent detachment of the guide ring, A hose is connected to the air inlet hose, and the air inlet hose is connected to a control unit that performs air supply and discharge functions through the air tube.

In addition, the present invention is characterized in that a foot plate having a predetermined area is integrally formed with the steel pipe file at the lower portion of each steel pipe file, and the lower end of the steel pipe file extending to the lower portion of the foot plate is a portion press- And a triangular plate-shaped auxiliary blocking plate corresponding to an inclined plane of the bank or the bank is connected to the steel pipe file disposed at the left and right ends of the bottom of the stream of the steel pipe, and between the auxiliary blocking plate and the corresponding steel pipe file Wherein the control unit includes an air blower, an air supply pipe extending from the discharge side of the air blower through a motor-operated valve and a check valve, and a check valve A branch valve branched from an air supply pipe at an outlet side position, a motor valve provided at an end side of the branch pipe, Wherein the air supply pipe is connected to the air inlet hose through a wall portion of the device casing, the air supply pipe being connected to the air inlet hose, Characterized in that a pressure sensor is provided in the air supply pipe or branch pipe which is located at a position past the outlet of the main water pipe and the pressure sensor is further connected to the main controller by a cable line, And the air inlet hose is connected to the air supply pipe of the control unit through the inside of the protective pipe fixed along the inclined surface of the bank or the bank.

According to the present invention as described above, air is injected into an air tube at the time of tumbling to open the shielding membrane in an upward direction, and at the time of ebbing, air is discharged from the air tube to make the shielding membrane fold downward. It is possible to achieve additional functions such as protection of ecosystem and environment in addition to basic functions such as securing of agricultural water and industrial water through the provision of lightweight automatic opening and closing type underwater guiding, The construction can be performed at a low cost within a very short period of time without substantially damaging the natural environment around the river without the construction of the river, and the cost required for maintenance after the construction can be minimized.

In addition, through the application of the weight-holding tube holder, stable support of the air tube and easy lowering operation of the shielding membrane are possible, and in the state where each steel tube pile is firmly fixed to the bottom of the river by using the grounding plate, It is possible to more reliably suppress the inflow of seawater through the space on the bottom side of the river together with the cut-off membrane, and to prevent the pressure sensor and the pressure sensor included in the control unit It is possible to accurately perform the injection and discharge operations of the air through the air tube using the main controller at the designated time, and at the same time, it is possible to promptly detect the leakage of the air pressure injected into the air tube, It can be provided further.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a lifting / lowering curtain type underwater vehicle according to the present invention; FIG.
FIG. 2 is a front view of a main portion of a barrier film used in the present invention. FIG.
3 is a front view showing an installation state of a rising / falling curtain type submerged boat according to the present invention;
4 is a side cross-sectional view of a control unit used in the present invention.
5 is a top cross-sectional view of a control unit used in the present invention.
Fig. 6 is a cross-sectional view of the main part of Fig. 3; Fig.
FIG. 7 is a front view showing a state in which the blocking film is folded downward in FIG. 3; FIG.
Fig. 8 is a cross-sectional view of the main part of Fig. 7; Fig.
Fig. 9 is a schematic explanatory view showing a seawater blocking state at the time of tide. Fig.
10 is a schematic explanatory view showing a fresh water communication state at low tide.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 3 and 6, the ascending / descending curtain type underwater beam according to the present invention is arranged so as to be in an upright position along the width direction of the river (1) arranged on the front side or the rear side of the steel pipe pile (7) so as to be buried in the water along the lower water depth layer of the river as main components , And the blocking film (1) is configured to be folded upward or downward along each steel pipe (7).

For this purpose, the barrier membrane 1 is made of tarpaulins such as Tarpaulin tarpaulins and has a dimension corresponding to the width of the river bottom and the upright height of the steel pipe piles 7, and the barrier membrane 1 A guide ring 3 is connected and fixed to one side of the steel pipe fitting 7 at a position corresponding to each steel pipe fitting 7 and the guide ring 3 has an inner diameter larger than the outer diameter of the steel pipe fitting 7 And each steel pipe filament 7 is inserted along a series of guide rings 3 arranged in the height direction of the shielding film 1 so as to be inserted along the height direction of the shielding film 1, Is installed.

The pipe pipe 7 is widely used for reinforcing the ground during various civil engineering works. In the underwater beam 10 of the present invention, it is preferable to use a pipe-type corrosion resistant steel pipe pile 7 having a diameter of about 10 cm, The guide ring 3 is made of corrosion resistant metal or plastic material and is made larger than the diameter of the steel pipe pile 7 by about 1 cm so that the guide ring 3 can be easily moved up and down along the steel pipe pile 7 together with the barrier film 1. [ And a separation prevention cap 9 for preventing the separation of the guide ring 3 is assembled and installed on the upper end of each steel pipe 7, A metal cap of the same material is preferred, but a plastic cap may be used if desired.

The height, spacing, and indentation depth of the steel pipe piles (7) under the condition that at least three steel pipe piles (7) are applied to the left and right edges of the river bottom, It is preferable that the guide ring 3 is appropriately selected in consideration of the depth and width of the river to be flown, and in the case of the guide ring 3, at least two, one at each of the upper end side and the lower end side of the shielding membrane 1, ) To the appropriate number.

In addition, a constricted inflatable air tube 4 is disposed on the upper end side of the shielding film 1 in the longitudinal direction thereof so that the shielding film 1 can be folded upward or folded down along the steel pipe 7 The weight tube 2 is connected to the lower end of the barrier membrane 1 at a predetermined interval in the longitudinal direction of the barrier membrane 1. The air tube 4 is connected to the barrier membrane 1, And a weight holding tube holder 5 connected and fixed to the blocking film 1 at a predetermined distance from the upper end of the weight holding tube 1. [

When the air tube 4 is installed using the weighting tube holder 5 as described above, each tube holder 5 stably holds the air tube 4 over the longitudinal direction of the upper end of the shielding membrane 1, And the unfolding operation of the shielding film 1 can be performed more accurately as the air tube 4 is uniformly inflated between the respective tube holders 5 while air The blocking film 1 can be folded in quickly as each tube holder 5 provides a uniform sedimentation load in the longitudinal direction of the blocking film 1 even when the blocking film 1 is lowered by discharging the film. It is possible to implement various advantages with very simple installation structure.

It is most preferable that the number and position of the tube holders 5 are matched with the number and arrangement interval of the steel tube piles 7. The maximum buoyant force generated from the air tube 4 is the maximum of the guide ring 3 and the tube holder 5, The guide ring 3 and the tube holder 5 are arranged in the air tube 4 so that the guide ring 3 and the tube holder 5 are in contact with each other when the air tube 4 is unfolded by the air tube 4, 4 while the lower end of the shielding membrane 1 connected to the weight 2 is kept in a state of being in close contact with the bottom of the stream without being lifted upward by the buoyancy of the air tube 4 So that the shielding film 1 is pulled up to the upper part so as to be in a completely unfolded state.

In the drawing, the weight 2 is shown to have a spherical shape, but a metal pipe or a concrete frame may be hung over the entire length of the barrier 1, The tube holder 5 is made of a metal or plastic material and is provided with a through hole or an insertion groove of the air tube 4 in the longitudinal direction of the tube holder 5, It is preferable that the portion penetrating the holder 5 is made of a plastic hose made of a hard material and the rest is made of a material capable of shrinking and expanding, for example, a thin and tough rubber material.

The method of fixing the weight 2, the guide ring 3 and the tube holder 5 to the shielding film 1 may be various methods such as thermal bonding and high frequency welding or sewing, It is preferable to use these methods appropriately so as not to easily fall off the shielding film 1 from the shielding film 1 so that one end of the air tube 4 is blocked and inserted into the tube holder 5 And the other end of the air tube 4 is connected to the control unit 13 which performs air supply and discharge functions by using the air injection hose 6. [

3 to 5, the control unit 13 includes an air blower 15, an air injection valve EV for preventing air flow from the discharge pipe 17 of the air blower 15, A branch pipe 18a branched from the air supply pipe 18 at an outlet side position of the check valve CV and a branch pipe 18b branched from the end of the branch pipe 18a, And a main controller 19 connected to the air blower 15 and each of the motor-operated valves EV and the cable line 19a are provided in the apparatus casing 14 And the air supply pipe 18 is connected to the air inlet hose 6 through the wall portion of the device casing 14. [

A cover 14a which can be opened and closed is provided in the apparatus casing 14 of the control unit 13 so that repair or maintenance of the air blower 15, the main controller 19 and the valve mechanism can be performed, It is preferable that the unit 13 is disposed at the upper part of the bank or the bank outside the river water because the electric and electronic parts such as the main controller 19 are included. The air inlet hose 6 for connecting the air tube 4 to the air tube 4 is also installed on the inclined surface of the bank or the bank so that the protection tube 12 is inserted into the protective tube 12 to be safely protected from external factors. .

More preferably, the pressure sensor (PS) is installed in the air supply pipe (18) or the branch pipe (18a) corresponding to the position past the outlet of the check valve (CV) The operation of supplying and discharging air using the air blower 15 and the electric motor EV is performed by the pressure sensor PS and the main controller 19 by the line 19a, Based on the input air pressure data, to perform more securely and accurately.

The main controller 19 is supplied with external power by another cable line 19a so that the power required for the operation of the control unit 13 can be supplied at all times and the time during tide and the time during tide A program for inputting the data into the main controller 19 on a date-by-date basis and automatically starting the air injection or discharge operation in accordance with the specified date and time is also built in the main controller 19, A modem capable of communication can be additionally applied to the main controller 19. An air filter 16a is installed in the inflow pipe 16 of the air blower 15 for sucking outside air, .

1 and 6, a foot plate 8 having a predetermined area is formed integrally with the steel pipe sheet 7 at the lower side of each of the steel pipe fins 7, It is preferable to make each steel pipe file 7 more firmly fixed upright on the bottom of the river even if the indentation depth of the piles 7 is reduced. The support plate 8 is made of a metal plate having a thickness of about 2 mm, And the lower end of the steel pipe pile 7 extending to the lower portion of the receiving plate 8 becomes a portion to be press-fitted through the bottom of the river.

As shown in Figs. 1 and 3, the steel pipe piles 7 disposed at the left and right ends of the bottom of the stream among the steel pipe piles 7 are provided with a triple-plate auxiliary blocking plate It is preferable that each of the auxiliary blocking plates 11 together with the blocking film 1 can more reliably inhibit the inflow of seawater through the bottom side space of the river by connecting the auxiliary blocking plates 11 The lower end portion of the auxiliary shielding plate 11 is only required to be spaced apart from the steel pipe 7 as shown in FIG. As shown in FIG.

The ascending / descending curtain type underwater beam 10 of the present invention having the above-described structure is installed upright in a state of being submerged in water over the width direction of the river bottom as shown in FIG. 3, and the left and right outer steel pipe piles 7, The auxiliary blocking plate 11 of the underwater bridge 10 corresponds to the slope of the river edge or the inclined surface of the bank so as to completely cover the bottom space of the river and the facility height of the underwater beam 10 can be improved by the blocking function of seawater, It is most preferable that the water depth is 1/5 to 1/2 of the river depth.

The main controller 19 of the control unit 13 is driven by the electric power supplied to the air supply pipe 18 at the time of tide with the elevating curtain type underwater beam 10 of the present invention installed on the bottom of the river in the above- Air is injected from the air blower 15 through the air supply pipe 18 and the air injection hose 6 to the air tube 4 by operating the air blower 15 while opening the valve EV, When the air pressure detected by the pressure sensor PS reaches a preset pressure as the air tube 4 is expanded to a certain level, the main controller 19 controls the electric valve EV of the air supply pipe 18 The operation of the air blower 15 is also stopped.

When air is injected into the air tube 4 in the above-described manner, buoyancy generated from the air tube 4 as shown in FIGS. 3, 6, and 9 flows along the respective steel pipe fins 7, And the weight 2 provides a load for pulling the shielding film 1 downward so that the shielding film 1 is stretched in an unfolded state on the basis of the respective steel tube piles 7 So that the inflow of seawater through the bottom side space of the river can be blocked.

The main controller 19 of the control unit 13 opens the electric valve EV provided in the branch pipe 18a to discharge the air injected into the air tube 4 to the outside, The buoyant force is removed in accordance with the contraction of the guide ring 3 and the tube holder 5 while the blocking film 1 is folded downward by the weight of the guide ring 3 and the tube holder 5 as shown in Figs. 7, 8 and 10 And is set to the open state of the barrier membrane 1 through which the river water can smoothly flow into the sea.

Air is injected into the air tube 4 at the time of tide as described above to cause the barrier film 1 to expand in the upward direction while air is discharged from the air tube 4 at the time of ebbing to fold the barrier film 1 downward It is possible not only to achieve basic functions such as securing of agricultural water and industrial water but also to prevent the flow of fish such as fish returning from the sea to the river for scattering or growth, Therefore, it can contribute greatly to the protection of ecosystem and environment.

Particularly, since the underwater beam 10 can be manufactured and installed only by the barrier film 1 of the tarpaulin or the waterproof material and the plurality of steel pipe piles 7, the time and cost required from the manufacture of the structure to the transportation and installation It can be saved as much as possible and construction can be done very quickly within a range that does not compromise the natural environment around the river without prior work such as construction of separate water film or bypass channel that was applied to existing large concrete beam And the cost required for the maintenance after the installation can be minimized by only the power required for operating the air blower 15.

In addition to this, it is possible to stably support the air tube 4 and to easily lower the barrier film 1 through application of the weight-holding tube holder 5, and by using the base plate 8, It is possible to ensure the stable support of the shielding film 1 and the reliable operation of the underwater beam 10 in a state where the shielding film 7 is firmly fixed uprightly on the bottom of the river, The inflow of seawater through the space on the bottom side of the river can be more reliably suppressed.

In addition, by using the pressure sensor PS and the main controller 19 included in the control unit 13, the injection and discharge operations of the air through the air tube 4 are accurately performed in accordance with the designated time of tide and tide The pressure sensor PS immediately senses the leakage of the air pressure injected into the air tube 4 and causes the air blower 15 to perform supplemental supply of air or to send an abnormal signal to the manager if necessary And this provides a very useful advantage in terms of practical use of the underwater beam 10.

1: Barrier 2: Weight 3: Guide ring
4: air tube 5: tube holder 6: air injection hose
7: Steel pipe file 8: Support plate 9:
10: underwater 11: auxiliary blocking plate 12: protective pipe
13: control unit 14: device casing 14a: cover
15: air blower 16: inflow pipe 16a: air filter
17: discharge pipe 18: air supply pipe 18a: branch pipe
19: main controller 19a: cable line EV: electrically operated valve
CV: Check valve PS: Pressure sensor

Claims (6)

In an underwater boat (10) installed on the bottom of a river in an estuary area where sea and river meets to block the inflow of seawater during tide,
The underwater beams 10 are arranged in a line at a predetermined interval in the width direction of the river bottom, and at least three or more steel pipe filaments 10 are installed so as to be pressed into the bottom of the river by a predetermined depth, (7), a shielding film (1) disposed on the front side or the rear side of the steel pipe pile (7) so as to be exposed to water along the lower water depth layer of the river, (1), a weight (2) connected to the lower end of the blocking film (1), and a guide ring (3) connected to the blocking film (1) And at least three weight-collecting tube holders (5) connected to the tube holder (5) and connected to the tube holder (5); and a shrinkable inflatable air tube 4), < / RTI >
The guide ring 3 is made of a waterproofing cloth or a waterproof cloth so as to have a width corresponding to the width of the bottom of the river and an upright height of the steel pipe pile 7. The guide ring 3 has an outer diameter (2) is inserted into the steel pipe (7) at a minimum number of 2 or more in a state of having an inner diameter larger than that of the steel pipe (7) An air injection hose 6 is connected to one end of the air tube 4 and the air injection hose 6 is connected to the air tube 4 through the air tube 4, And a control unit (13)
The control unit 13 includes an air blower 15, an air supply pipe 18 extending from the discharge side of the air blower 15 via a motor-operated valve EV and a check valve CV, CV), a motor control valve (EV) provided at an end side of the branch pipe (18a), and a control valve (16) which is branched from the air supply pipe (18) at an outlet side position of the air blower Is inserted into the apparatus casing 14 in a state including a main controller 19 connected by a cable line 19a and an air supply pipe 18 and the air supply pipe 18 penetrates the wall portion of the apparatus casing 14 And connected to the air injection hose (6). A steel pipe pile (7) according to claim 1, wherein a foot plate (8) having a predetermined area is formed integrally with the steel pipe pile (7) ) Is a portion that is press-fitted through the bottom of the river. The steel pipe pile (7) as set forth in claim 1 or 2, wherein the steel pipe piles (7) disposed at the left and right ends of the bottom of the river among the steel pipe piles (7) 11) is provided at the lower end of the guide ring (3), and an interval necessary for the upward and downward movement of the guide ring (3) is provided between the auxiliary blocking plate (11) and the steel pipe fins (7). delete The air conditioner according to claim 1, wherein a pressure sensor (PS) is installed in an air supply pipe (18) or a branch pipe (18a) corresponding to a position past the outlet of the check valve (CV) Is further connected to the main controller (19) by means of the main controller (19a). 6. The air conditioner according to claim 1 or 5, wherein the control unit (13) is installed in an embankment outside the river water area or at an upper side of the embankment, and the air inlet hose (6) Is connected to the air supply pipe (18) of the control unit (13) through the inside of the fixed protective pipe (12).

Images