KR100930685B1 - Automatic floodgate with floating - Google Patents

Abstract

PURPOSE: A sewage discharging buoy type automatic floodgate system is provided to prevent flood damage due to the overflow of the sewage by discharging drainage flowing in to a river or a sea. CONSTITUTION: A sewage discharging buoy type automatic floodgate system comprises a frame(2), a hanger frame(3), door(4) for opening and shutting of a floodgate, a buoy(7), an angle control member(8), a door(10) for opening and shutting the top, and a door for opening and shutting the side(13). The length of the frame is gradually shortened from the upper part to the lower part. The hanger frame is fixed on the upper part of a front discharge port of the frame. The door for opening and shutting of the floodgate is coupled on the hanger frame to rotate vertically. The door for opening and shutting of the floodgate opens and closes the front discharge port of the frame. The vertical position of the buoy is controlled by a height adjusting member(5) and a guide member(6). The angle control member controls the opening and closing angle of the door for opening and shutting of the floodgate. The door for opening and shutting the top is installed on the top discharge port(9) to be vertically elevated. The door for opening and shutting the side is installed on a side discharge port(12) to be vertically rotated.

Description

Automatic floodgate with floating}

The present invention relates to a sewage discharge type buoy automatic gate device installed at the end of the sewage pipe, more specifically, in the open state by the weight of the door for opening and closing the gate to the river or sea It is discharged smoothly, and in case of rain or high water, it becomes closed by the hydrological opening and closing door which rotates due to buoyancy as the water level of the river or the seawater level rises, and it prevents the river or seawater from flowing back to the sewer pipe. The sewage discharge type buoy automatic hydrological device to prevent the flooding caused by the flooding of sewage flowing into the sewer pipe by being able to discharge the sewage, etc. flowing continuously through the stream or the sea.

In general, a sluice gate is installed at the end of a sewage pipe for discharging sewage into a river or sea, and the sluice discharges the sewage that normally flows along the sewage pipe into a river or the sea, and at the time of rain or at high tide, When the water level rises and there is concern about flooding, it plays a role to block backflow of river water or seawater through sewage pipes.

Conventionally, as a water gate installed at the end of a sewer pipe, the difference between the pressure (external pressure) applied by the sewage flowing through the sewage pipe to the water gate according to the water level and the pressure of the river or the seawater outside the water gate according to the water level The automatic hydrology used was mainly used.

However, such automatic flood gates are not drained smoothly due to the small cross-sectional area of the discharge port, so that foreign matters accumulate around the gate, and the flood gates are automatically closed during the reverse flow of river water or seawater. In accordance with the pressure applied to the water gate is the same, the internal and external water will come and go there was a problem that the backflow prevention is not properly made.

In order to solve such a problem, conventionally, as shown in FIG. 1, the frame 110 is gradually shortened from the top to the bottom, and the hanger frame fixed to the upper side of the frame 110 ( 130 and a disk 140 rotatably installed on the hanger frame 130 via a link, and installed between the frame 110 and the disk 140 to adjust the opening and closing angle of the disk 140. It is made of a gate 150 having an angle adjusting member and a buoy 160 is installed on the outer surface of the disk 140 by a height adjusting member and a guide member so as to be adjustable up and down, the height adjusting member is the It is formed on the inner peripheral surface of the through hole of the bracket (170) and the through hole of the bracket (170) and the pipe (160a) having a spiral portion formed on the inner circumferential surface of the bracket (170) and fixed to the outer surface of the disk 140 The spiral portion is coupled to the spiral portion and one end portion is exposed to the outside of the bracket 170 and the other end portion is composed of a screw 180 is screwed with the spiral portion formed on the inner peripheral surface of the pipe (160a), the guide member is A guide piece 140b which is formed up and down on both sides of the disk 140 and whose ends are bent inward, and which extends from both sides of the buoy 160 and is accommodated in the space of the guide piece 140b. A buoy automatic hydrological device (Patent No. 835335) was configured to be made.

As shown in Figure 2a and 2b is a conventional buoy automatic gate device configured as described above, the gate 150 for opening and closing the discharge port of the frame is normally open to discharge the sewage, etc. introduced into the sewer pipe into the river or the sea. When the water level of the river or sea water increases during rainy or high tide, the gate 150 is rotated by the buoyancy of the buoy 160 provided in the gate 150 to automatically close the discharge port of the frame 110, This will prevent the seawater from flowing back to the sewer line.

However, the conventional buoy automatic gate device configured as described above is closed by the gate 150 is rotated by the buoyancy of the buoy 160 provided in the gate 150 as the water level of the river or sea water during rainy or high tides increase. In this case, the backflow of river water or seawater is prevented, and the sewage that continues to flow into the sewer pipe is not discharged to the river or the sea at all. Thus, the sewage that continues to flow into the sewer pipe is completely prevented from flowing into the river or the sea. If the discharge is not discharged, the internal water level of the sewage pipe is increased and the sewage introduced into the sewage pipe is flooded, so that the area connected to the sewage pipe is damaged by flooding.

The present invention is to solve the above problems, usually in the open state by the weight of the door for opening and closing the gate to smoothly discharge the sewage flowing along the sewer pipe to the river or the sea, at the time of rain or at high tide (2) As the seawater level rises, it is closed by the hydrological opening and closing door that rotates due to buoyancy, preventing river water or seawater from flowing back to the sewer pipe, and at the same time, the sewage that flows continuously through the sewer pipe into the river or sea smoothly. The technical task is to be able to prevent the inundation damage caused by the overflow of sewage flow into the sewer pipe by being able to discharge.

The present invention for achieving the above technical problem is fixed to the outlet side of the sewer pipe is formed in a tubular frame formed gradually shorter from the top to the bottom, a hanger frame fixed to the upper side of the frame, It is installed to be able to adjust the vertical position by the height adjustment member and the guide member on the outer surface of the door for opening and closing the door to the door frame opening and closing rotatably coupled to the hanger frame to open and close the front outlet of the frame In the buoy automatic door lock device consisting of a buoy and an angle adjusting member installed between the frame and the door for opening and closing the door to adjust the opening and closing angle of the door, the upper surface and the upper surface of the both sides of the upper outlet and Side outlets are respectively formed through the upper surface of the upper outlet formed through the upper surface of the frame The upper end opening and closing door is installed in the end so that the upper and lower doors are installed up and down in the up and down direction, the side opening and closing door is formed so that the side opening and closing door is rotatably installed in the up and down direction on the outer side of the side outlet formed through the upper sides of the frame. It features.

The sewage discharge type buoy automatic gate device according to the present invention configured as described above is normally opened by the weight of the door for opening and closing the water to smoothly discharge the sewage, etc. flowing along the sewer pipe to the river or the sea, rainy weather or high water As the city's water level or seawater level rises, it is closed by a hydrological opening and closing door that rotates due to buoyancy, preventing the river water or seawater from flowing back to the sewer line, while still maintaining the flow of sewage through the sewer pipe. By being able to discharge to the sea or the sea smoothly, there is an effect that can prevent the flooding caused by the flooding of sewage flowing into the sewer pipe.

Hereinafter, the present invention for achieving the above object will be described in detail with reference to FIGS. 3 to 7.

3 is a perspective view showing a sewage discharge type buoy automatic hydrological device according to the present invention, Figure 4 is an explanatory view showing an open state of the sewage discharge type buoy automatic hydrological device according to the present invention, Figure 5 is a sewage according to the present invention An explanatory view showing a closed state of the discharge type buoy automatic hydrological device, Figure 6 is an explanatory view showing the sewage discharge process through the side outlet of the sewage discharge type buoy automatic hydrological device according to the present invention, Figure 7 is An explanatory view showing the sewage discharge process through the top discharge port of the sewage discharge buoy automatic hydrograph.

Sewage discharge type buoy automatic gate device according to the present invention is a tubular frame (2) formed gradually shorter from the top to the bottom as shown in Figure 3, and the upper side of the front outlet of the frame (2) Hanger frame (3) to be fixedly installed, the door for opening and closing the door (4) is rotatably coupled to the hanger frame (3) so as to open and close the front outlet of the frame (2), the door for opening and closing In order to adjust the opening and closing angle of the buoy (7) which is installed in the upper and lower positions adjustable by the height adjusting member (5) and the guide member (6) on the outer surface of the door (4) The angle adjusting member 8 provided between the frame 2 and the door for opening and closing the water gate 4 and the upper end of the upper surface outlet 9 formed through the upper surface of the frame 2 can be lifted up and down. Installed top and bottom door 10, the frame (2) It is made to pass through an outlet formed in the side 12 which is on both sides of the upper side to the opening and closing door (13) which is rotatably installed in the vertical direction.

The frame (2) is fixed to the outlet side wall of the sewage pipe, formed in a tubular shape that gradually shortens the length from the top to the bottom, in this way the shape of the frame (2) gradually from the top to the bottom When the tubular shape is shortened, the cross-sectional area of the front outlet increases, as well as the gate 4 for opening and closing the front outlet of the frame 2 can always be kept open by its own weight. Therefore, the sewage flowing along the sewer pipe can be discharged more smoothly to the river or the sea.

At this time, around the front outlet of the frame (2) is installed a watertight seal to increase the water tightness when the door for opening and closing the door (4) closed by the buoyancy of the buoy (7) to close the front outlet of the frame (2) It is desirable to.

The hanger frame 3 fixedly installed on the upper side of the front outlet of the frame 2 is for installing the door for opening and closing the door 4 for opening and closing the front outlet of the frame 2 so as to be rotatable in the vertical direction. By combining the hinge coupling portion 4a provided at the upper end of the door 4 to the door 3, the door 4 can be easily installed.

At this time, the number of the hanger frame (3) and the installation interval is preferably set in consideration of the size, weight and the installation location of the automatic sluice device (1) to be installed.

The sluice opening and closing door (4) is rotatably coupled to the hanger frame (3) in a vertical direction so as to open and close the front outlet of the frame (2), the frame by a hinge coupling portion (4a) installed at the upper end (2) is rotatably coupled in the vertical direction to the hanger frame (3) fixed to the upper side of the front outlet.

At this time, the watertight sealing to increase the watertightness when the waterway opening and closing door 4, which is rotated by the buoyancy of the buoy 7 on the inner surface of the door (4) for closing the front outlet of the frame (2) It is desirable to install it.

The buoy (7) is installed on the outer surface of the door (4) for opening and closing by the height adjusting member (5) and the guide member (6) is made of a metal material with a hollow portion formed therein As the water level of the river or the sea water level increases during rainy or high tide, buoyancy is generated to rotate the gate 4 to the front outlet side of the frame 2 to close the water gate.

In addition, the buoy (7) is the height adjustment member 5 and the guide member 6 to facilitate the opening and closing of the door opening and closing the door 4 according to the installation conditions or the weight of the door (4) The height can be adjusted freely.

At this time, the height adjustment member 5 used to adjust the height of the buoy (7) is a bracket (5a) is fixed to the outer surface of the door for opening and closing the gate 4, and the upper end of the buoy (7) It is preferable to configure the fastening tube 5b to be fixedly installed, the screw hole formed through the bracket 5a, and the height adjustment bolt 5c fastened to the screw work formed through the inside of the fastening tube 5b.

In addition, the guide member 6 is for guiding the buoy 7 which moves in the vertical direction by the height adjusting member 5, the a-shape so that the extension pieces extending from both ends of the buoy 7 are inserted and guided. It is configured to be bent into.

The angle adjusting member (8) is installed between the frame (2) and the door for opening and closing the door 4 to adjust the opening and closing angle of the door (4), the frame (2) and the door for opening and closing the door Brackets 8a and 8b fixed to both end portions of (4) and angle adjusting bolts 8c respectively screwed into threaded holes formed through brackets 8a fixed to both end portions of the frame 2. ) And a wire rope (8d) connecting between the bracket (8a) and the angle adjustment bolt (8c) fixed to the both ends of the angle adjustment bolt (8c) and the gate for opening and closing the door (4).

The angle adjusting member 8 configured as described above tightens or loosens the angle adjusting bolts 8c which are respectively screwed into the threaded holes formed in the brackets 8a fixed to both end portions of the frame 2 to wire ropes 8d. By adjusting the tension of the) it is possible to freely adjust the opening and closing angle of the door (4).

The upper opening / closing door 10 is installed to be able to be lifted up and down in the upper surface discharge port 9 formed through the upper surface of the frame 2, and the lower surface is supported by the secondary support rod 10a at the central portion ( 11) is installed, the guide rod 10b inserted into the frame 2 through the guide tube 2a formed around the upper surface outlet 9 is installed to protrude downward, around the lower surface, the guide At the lower end of the guide rod 10b inserted into the frame 2 through the tube 2a, when the upper opening / closing door 10 is raised by the buoyancy of the buckle 11, the lower end of the guide tube 2a is provided. It is configured to be engaged with the departure preventing nut (10c) to prevent the upper opening and closing door 10 is separated from the upper surface outlet 9 by being caught.

At this time, the buckle support rod (10a) is installed in the central portion of the lower surface of the top opening and closing door 10 for the top opening and closing so as to freely adjust the height of the buckle 11 is installed below the top opening and closing door (10). It is preferable to be screwed to the center of the lower surface of the door (10).

The side opening and closing door 13 is rotatably installed in the up and down direction in the side discharge port 12 formed through the upper surface of both sides of the frame 2, the shape of the side discharge port 12 gradually from the top to the bottom As it is formed in a tubular shape that becomes longer in length, it is normally closed to the outside of the side discharge port 12 by its own weight to maintain a closed state, and is configured to open automatically by water pressure when the internal water level of the sewer pipe increases in rainy weather. .

Referring to Figures 4 to 7 the operational relationship of the sewage discharge type buoy automatic gate device according to the present invention configured as described above is as follows.

Sewage discharge type buoy automatic gate device according to the present invention, as shown in Figure 4 so that the frame (2) in close contact with the outlet side wall of the sewer pipe connected to the river or the sea can be easily installed by fastening the bolts In this way, the sewage discharge type buoy automatic gate device (1) is installed on the outlet side wall of the sewer pipe is formed in a tubular shape that the shape of the frame (2) is gradually shortened from the top to the bottom, the front discharge port In addition to increasing the cross-sectional area of the frame 2, the door for opening and closing the door (4) that normally opens and closes the front outlet of the frame (2) can always be kept open by its own weight, so that the sewage flowing along the sewage pipe into the river or the sea is more and more. It can be discharged smoothly.

Subsequently, when the water level of the river or the seawater level increases gradually during rainy or high tide, the water level of the river or the seawater level gradually increases as shown in FIG. As buoyant force is applied to the buoy 7, the door for opening and closing the door 4 rotates to automatically close the front outlet of the frame 2.

In this way, when the water gate opening and closing door 4 rotates by the buoyancy of the buoy 7 and closes the front outlet of the frame 2, it is possible to completely block backflow of the river water or the seawater with high water level during rain or high water. Will be.

On the other hand, as the water level or the seawater level in the rainy weather or the high tide rises, the front discharge of the frame 2 is closed by the hydrologic opening / closing door 4 which rotates by the buoyancy of the buoy 7, and thus the river or seawater If it is in a state of blocking backflow to the sewer line, the sewage that continues to flow through the sewer line is not discharged at all through the front outlet of the frame (2). do.

In this way, the sewage that continues to flow through the sewage pipe is not discharged to the front outlet of the frame 2 at all, so that the internal water level of the sewage pipe is gradually increased, so that the height of the side outlets 12 penetrated on both sides of the frame 2 is increased. 6, the side opening / closing door 13, which was closing the side outlet 12 by the internal water pressure in the sewer pipe, is automatically opened, and the sewage inside the sewage pipe 12 is discharged. Through it can be smoothly discharged to the river or the sea.

At this time, the amount of sewage flowing into the sewage pipe is increased compared to the discharge of sewage discharged through the side discharge port 12 formed through the upper sides of the frame 2, the internal water level of the sewage pipe continues to increase, the upper opening and closing door As the buoyancy force acts on the buckle 11 installed below the upper portion 10, the upper opening / closing door 10 rises, and the upper surface discharge port 9 formed through the upper surface of the frame 2 starts to open. When the top discharge opening 9 is opened by the rising of the top opening / closing door 10, the sewage continuously flowing into the sewer pipe may be discharged more smoothly into the river or the sea.

As described above, the sewage discharge type buoy automatic gate device according to the present invention is normally opened by the weight of the water gate opening and closing door 4, so that the sewage flowing along the sewer pipe can be smoothly discharged to the river or the sea. In case of rainy weather or high tide, as the water level of the river or the seawater level increases, it is closed by the water gate opening and closing door 4 which is rotated by the buoyancy of the buoy 7 to block the flow of the river or seawater back to the sewer pipe. At the same time, it is possible to smoothly discharge the sewage that continues to flow through the sewage pipe into the river or the sea, thereby effectively preventing the flooding caused by the flooding of the sewage flowing into the sewage pipe.

1 is a perspective view showing a buoy automatic gate device according to the prior art.

Figure 2a and Figure 2b is an explanatory diagram showing the operation of the buoy automatic hydrograph according to the prior art.

Figure 3 is a perspective view of the sewage discharge type buoy automatic gate device according to the present invention.

Figure 4 is an explanatory diagram showing an open state of the sewage discharge type buoy automatic gate device according to the present invention.

5 is an explanatory view showing a closed state of the sewage discharge type buoy automatic gate device according to the present invention.

Figure 6 is an explanatory view showing the sewage discharge process through the side outlet of the sewage discharge type buoy automatic hydrograph according to the present invention.

Figure 7 is an explanatory view showing a sewage discharge process through the top discharge port of the sewage discharge type buoy automatic hydrograph according to the present invention.

<Explanation of symbols for main parts of drawing>

1: Automatic hydrogate device 2: Frame

2a: guide 3: hanger frame

4: Door for opening and closing the gate 4a: Hinge coupling portion

5: height adjustment member 5a: bracket

5b: Fastener 5c: Height adjustment bolt

6: guide member 7: buoy

8: angle adjusting member 8a: bracket

8b: Bracket 8c: Angle adjusting bolt

8d: Wire Rope 9: Top Discharge Outlet

10: top opening and closing door 10a: float support rod

10b: guide rod 10c: locking nut

11: Sphere 12: Side outlet

13: side opening door

Claims (1)

A tubular frame (2) fixedly installed at the outlet side of the sewer pipe and gradually shortened from the top to the bottom, a hanger frame (3) fixedly installed on the upper side of the frame (2), and the frame (2) the door for opening and closing the door (4) is coupled to the hanger frame (3) rotatably in the vertical direction so that the front outlet can be opened and closed, the height adjustment member (on the outer surface of the door (4) 5) and the buoy (7) is installed to be adjustable up and down position by the guide member (6), and the frame (2) and the door for opening and closing the door (4) for adjusting the opening and closing angle of the door (4) In the buoy automatic gate device consisting of an angle adjusting member (8) installed between, An upper surface outlet 9 and a side surface outlet 12 are formed through the upper surface and the upper side of the frame 2, respectively, On the upper end of the upper surface discharge port 9 formed through the upper surface of the frame 2, the upper opening and closing door 10 is installed in the up and down direction, the upper opening and closing door 10 is installed, The sewage discharge type buoy automatic gate device, characterized in that the side opening and closing the door 13 is configured to be rotatably installed in the vertical direction on the outside of the side discharge port 12 formed through the upper side of both sides of the frame (2).

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