KR20120046851A - Non-electric automatic control water door - Google Patents

Abstract

PURPOSE: A non-motorized automatic control water gate using a water level is provided to prevent foreign materials from piling up inside a drainpipe by automatically controlling the opening and closing of the water gate in real time. CONSTITUTION: A non-motorized automatic control water gate using a water level comprises a drainpipe, a water gate frame(70), a water gate(10), a rotating unit(20), and an opening and closing unit(40). The drainpipe drains branch river water to a main river. The water gate frame has an incline fixed to the front end of the drainpipe. The water gate is installed at the front of the water gate frame and controls the flow of water. The rotating unit rotates the water gate. The opening and closing unit is connected to the front of the water gate and opens and closes the water gate depending on the water level of the main river.

Description

Non-electric automatic control water door using water level

The present invention relates to a sluice which is installed at the outlet of the female or drainage pipe and is automatically adjusted to be non-powered so as to prevent water from flowing back. In general, the floodgate is kept open so that tributary streams flow into the mainstream smoothly, and during rainfall such as the rainy season or rainy season, the floodgate is closed to prevent backflow of the mainstream stream to the tributary stream. When the water level is lowered, the water gate is opened to discharge the tributary streams smoothly to prevent the flooding of the backing. Also, the animals that normally survive in the waterside area act as animal movement passages that easily travel to the tributaries and mainstream streams. Automatic power-conditioning using water level to prevent breakage It related to hydrology.

Existing manual operated floodgates do not actively cope with rising and falling levels because it is impossible for timely opening and closing of floodgates because the manager has to observe the water level rise and fall of mainstream in the field and operate the winch or manual handle directly. It is virtually impossible for managers to effectively manage facilities distributed in multiple places at the same time, and when the floodgates are closed, water flows from the channel or drainage pipes are completely blocked, causing the tributary streams flowing from upstream to flood the farmland. The existing automatic gate is a simple opening and closing facility that opens only to the outside to prevent the inflow of main stream into the tributary stream. The water pressure was insufficient until the internal water level reached a certain height By not to push the non-outward, or reducing the flow velocity inside the pipe slowed planned water passage cross-section and lead to side effects which accelerate the hinterland immersion. For this reason, the existing automatic doors are often installed so that a certain size of gaps are generated in order not to block the initial flow of rainwater, so that the mainstream river water flows back through the drainage pipe or drains to achieve the purpose of installing doors. If the deterioration occurs due to sedimentation such as soil and sand, and the deterioration of the outlet by small branches or grass occurs, the dike may be flooded. Blocking the movement of wild animals such as otters and raccoons has a negative impact on the ecological environment.

Therefore, the present invention as described above, to solve the functional problem of the existing manual operation gate or automatic gate as a backflow prevention automatic opening and closing door installed in the outlet of the drainage pipe, the first object of the present invention is to The automatic opening and closing gate is kept open until a certain level, so that the stream water in the early tributary streams flows smoothly or flows to the main stream through the drainage pipe to prevent the flooding of the rear side facilities and farmland. For example, by maintaining the normal flow rate inside the drainage pipe, it is possible to prevent foreign matters such as soil and sand from being deposited inside the pipe.

The second purpose is to automatically close the water gate when the water level in the main stream rises sharply and rises to the height of the drainage pipe, thereby preventing the main stream from flowing back to the tributary, preventing the flooding of the back ground. When the water level in the tributary stream rises in a steady state and rises above a certain level above the main stream, a pressure difference occurs, so that the water gate is automatically opened and flows outward.

The third objective is that when the water level in the main stream, which has reached a certain level, such as the planned flood level, gradually falls, the water gate automatically opens in proportion to it, and the river water that flooded the hinterland drains in real time. It is to provide a non-powered automatic control gate using the water level so that the gate can be fully opened to maintain the state before the flood.

The present invention is configured as follows to achieve the above object. In other words,

A circular drain pipe line installed to drain the water of the small tributary stream to the main stream, a water gate frame fixed to the distal end of the drain pipe line, having a slope in front, and installed in front of the water gate frame to control the flow of water. A sluice that is rotatably opened and closed, a rotation means connected to the front of the sluice to rotate the sluice, and an opening and closing operation means connected to the front of the sluice to open and close the sluice according to the water level of the main stream. Let it be a 1st characteristic to do.

Alternatively, a rectangular culvert installed to drain the water of the relatively large tributary stream into the main stream, and a sluice installed on the front slope of the culvert rotatably open and closed to control the flow of water, connected to the front of the sluice gate It is characterized in that it comprises a rotating means for the rotation and the opening and closing operation means connected to the front of the water gate to open and close the water gate by the rotating means in accordance with the water level of the main stream.

And, the rotating means is sufficient to support the weight of the water gate and the hydrological support for fixing so as not to shake during the hydrological operation, the hinge for connecting the hydrological support and the upper portion of the hydrology and the upper front and one end of the hydrological support is connected and the other end The spring is characterized by consisting of a spring connected to the front of the gate.

And, the opening and closing operation means is installed to have a height on the side of the sluice, the guide space is formed inside, the air hole is formed on the upper and lower sides of both sides, the cable hole is formed on the upper surface, the round bar network at the bottom A lifting and lowering enclosure, a hydrological adjustment buoy having a weight installed in an inner guide space of the lifting enclosure, and having a weight to elevate by the level of water, and one end connected to an upper surface of the hydrological adjustment buoy and exiting out of the lifting enclosure through the cable hole. The other end is characterized in that consisting of a connecting cable connected to the front of the gate and the guide means for smoothly operating the cable is installed on the lifting surface.

As described above, according to the present invention, by installing the opening and closing operation means to obtain a non-power separate from the water gate, there is an effect of improving the disadvantages of the existing automatic door gate by automatically adjusting the water gate opening and closing when the water level changes.

In addition, there is an effect that can be adjusted by the operator to determine the weight of the hydrological adjustment buoy to adjust the height of the gate.

In addition, by installing the door in the elevating enclosure, it is easy to install and maintain the hydrological adjustment buoys, and by easily removing dirt, etc. introduced into the elevating enclosure, there is an effect that can smoothly open and close the gate. .

In addition, by configuring the length of the guide means to be able to stretch, there is an effect that can properly adjust the distance between the water gate and the opening and closing operation means.

In addition, it is possible to reduce the cost of installing a separate animal moving path by enabling the use of the drainage female or drainage pipe in parallel to the animal moving path.

1 is a perspective view of the water gate is installed in the drainage pipe according to the present invention
2 is a cross-sectional view of FIG.
Figure 3 is an enlarged perspective view showing the extract of the water gate and the rotation means of the present invention
Figure 4 is an enlarged perspective view showing the opening and closing operation means of the present invention
Figure 5 is an enlarged perspective view of the hydrological adjustment buoy of the present invention
Figure 6 is an enlarged perspective view of the guide means of the present invention
Figure 7 is a perspective view showing the separation of the guide means of the present invention
8 is a perspective view of the sluice installed in the culvert according to the present invention
9 is a cross-sectional view of FIG.
10 is an operating state diagram showing a state in which the water gate of FIG. 2 is opened;

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention;

As shown in FIG. 1, the present invention provides a hydrologic frame 70 having an inclined surface 12 fixed to a drain pipe line 1 and a tip of the drain pipe line 1 installed to drain water of a tributary stream to a main stream. And, the front door of the sluice frame 70 is installed in front of the sluice 10 to open and close, the rotating means 20 to rotate the sluice 10 is opened and closed, and connected to the front of the sluice 10 to open and close It includes an opening and closing operation means 40 to provide a non-motor if possible.

The rotation means 20 is installed as shown in Figure 1 to Figure 3, the hydrological support 21 is installed vertically so as to fully support the water gate 10 on both sides of the hydrologic frame 70, the hydrological support 21 The lateral bar provided on the upper side of the sluice 10 and the upper portion of the hinge 22 to be coupled to open and close the sluice 10, the one end is coupled to both sides of the top of the sluice support 21, the sluice 10 The other end is connected to both sides of the front of the spring is composed of a spring 23 having an auxiliary tensile force when the gate is opened.

Here, the spring 23 is preferably configured to generate a tensile force when the water gate 10 is compressed while rotating and the closing when the water gate 10 is opened.

In addition, the opening and closing operation means 30 is installed so as to have a height perpendicular to the side mainstream stream of the side of the water gate 10, the elevating enclosure 31, the guide space formed therein, as shown in FIG. By installing the hydrologic adjustment buoy 40 in the inner guide space of the) so that the hydrologic adjustment buoy 40 is raised and lowered by the river water flowing into or out of the elevating enclosure 31. And one end of the connection cable is connected to the ring formed on the top of the hydrologic adjustment buoy 40 and the other end is connected to the front of the hydrology, the hydrological adjustment buoy 40 and the connection cable 45 is raised and lowered according to the high and low water level The sluice 10 connected with is to work in conjunction.

On the other hand, when the hydrological adjustment buoy 40 is raised and lowered on the upper and side and upper and lower sides of the elevating enclosure 31, the air hole so that the river water smoothly flows into or discharged into the guide space to the ring bar 34 of the lower portion to be described later (32) is formed so that only the water and sewage level difference in the purified state occurs even in irregular water level fluctuations such as vortex generation in the main stream, so that the hydrologic control buoy 40 can operate smoothly. In addition, the upper surface of the elevating enclosure (31) is formed with an arc-shaped long hole in the cable hole 33 to allow the connecting cable 45 to escape from the inside to the outside, the river water is guided to the bottom surface of the elevating enclosure (31) Round bar network 34 is configured to filter dirt in the process of entering or exiting the space. In addition, the annular bar 34 of the elevating enclosure 31 is preferably spaced apart by a certain height from the ground to facilitate the inflow and discharge of river water through the annular bar (34).

In this case, the cable hole 33 is formed in an arc shape, the horizontal bar 54 of the guide means 50 to be described later when the water gate 10 is opened, the lower end of the water gate 10 is rotated forward and thus the horizontal bar ( 54) is also to compensate for the length of the sluice 10 to the front to the turning operation, to prevent the connection cable 45 is not smoothly caught in the general hole rather than the arc shape.

Further, the lower side of the elevating enclosure 31 is provided with a door 35 which is rotated and opened and closed by a hinge 36 for installation and maintenance of the hydrological adjustment buoy 40, the lock or the front of the door (35) It is preferable to install the locking means 37 such as the locking ring to protect the hydrologic adjustment buoy 40 installed inside the lifting enclosure 31.

Furthermore, the elevating enclosure 31 may be formed in a rectangular pillar or a circular cylinder, and one side of the elevating enclosure 31 is provided with a see-through window 38 that allows the inside to be seen from the outside. It is more preferable that 40) checks the operating state.

On the other hand, the hydrological adjustment buoy 40 is composed of a storage cylinder 41 that can store a weight body having a weight, such as water or sand therein, so that the weight body can be put on the upper surface of the storage cylinder 41 An inlet 42 having a stopper 43 is formed, and a scale 44 is formed on the side of the storage cylinder 41 to check the amount and height of the weighted body, so that the proper volume of the hydrological adjustment buoy 40 is provided. It is desirable to be able to maintain.

On the other hand, the guide means 50 is installed in the vertical rod 51 vertically on one side of the upper surface of the elevating enclosure 31, as shown in Figures 6 and 7 attached, the upper portion of the vertical rod 51 A fitting portion 52 formed with a diameter smaller than the diameter is provided, and a thread is formed at the top thereof.

The fitting portion 52 is provided with a rotating portion 53 formed with a hole formed relatively larger than the diameter of the fitting portion 52, the rotating portion 53 extends in one direction in the transverse direction, the inside is hollow, both sides of the tip A fixing hole 55 penetrates the hole, and a horizontal rod 54 provided with a first roller 56 for hanging the connecting cable 45 is attached to or integrally provided with the rotary part 53 at the lower end thereof.

The length adjustment rod 60 for adjusting the length of the horizontal rod 54 is elastically adjusted while being inserted and slides in the horizontal bar 54 provided therein, and the length adjustment rod 60 has fixed holes at regular intervals. A plurality of adjustment holes 61 formed in communication with the 55 is formed, and the second roller 62 is provided at the lower end of the connecting roller 45 to be pulled out through the first roller 56. Connection cable 45 is to reduce the frictional resistance through the first and second rollers (56, 62) to be able to transfer the non-motive force to the water gate (10) without loss.

In this case, the fixing hole 55 and the adjusting hole 61 communicate with each other to fix the length adjusting rod 60 extending from the horizontal rod 54 by fixing the bolt 63 and the nut 64. It is preferable that the fixing nut 57 is screwed on the uppermost part of the 51 to prevent the rotating part 53 installed in the fitting part 52 from being detached.

And the present invention can be further installed here, as shown in Figure 8 and Figure 9, can be installed in the existing culvert 2, the configuration is as follows.

The culvert 2 installed to drain the water of the tributary stream to the main stream, the sluice gate 10 installed on the front slope 12 of the culvert 2 to be opened and closed to control the flow of water, and the sluice gate 10 Rotating means 20 is connected to the front of the sluice 10 so that the water gate 10 is rotated and connected to the front of the sluice 10 so that the water gate 10 is opened and closed by the rotating means 20 in accordance with the water level of the main stream It includes an opening and closing operation means 30 to.

Here, in the case of the culvert 2 in which the outlet part is partially exposed from the concrete wall as described above, an inclined surface may be formed at the exposed part thereof. Otherwise, the outlet part is integrally cut with the concrete wall like the drainage pipe 1. It is preferable to provide a separate inclined hydrologic frame 70 is configured to be divided.

On the other hand, the water gate 10 can be manufactured in accordance with the circular shape of the drain pipe (1) and the square of the shape of the culvert 2, and prevents water from leaking or flowing into the inner surface of the water gate (10). The watertight index plate 11 may be further installed.

In addition, the inclined surface 12 provided in the drainage pipe 1 and the culvert 2 is formed to be inclined toward the tributary stream side from the vertical of the ground, to form an angle (θ) inclined from the horizontal line and the ground, the preferred inclined angle (θ) is the greater the weight of the hydrology and the smaller the weight of the hydrology so as to increase the watertightness due to its own weight and to facilitate the opening and closing of the water gate (10) using the pressure difference between the tributary and mainstream river water.

In addition, the inclined surface 12 is fitted with a shock absorbing member 13 made of rubber or soft synthetic resin to prevent the damage caused by closing the water gate 10 to prevent damage to the water frame 70 or the culvert 2 It is preferable to install.

Since the rotating means 20 and the opening and closing operation means 30 are easily exposed to water because the metal is easily rusted, the material is made of stainless steel resistant to corrosion or galvanized zinc on the metal surface to prevent this. It is preferable to apply the back and the like.

In addition, the configuration of the rotating means 20 and the opening and closing operation means 30 which is another embodiment of the present invention installed in the culvert 2 is the same as the above description and will not be described.

Operation of the present invention configured as described above is as shown in Figure 10 attached.

First, the operation of the water gate 10 according to the present invention is caused by the weight of the hydrology adjustment buoy 40 and the tension of the spring 23 by the weight of the open water gate 10 and the frictional resistance generated by the door roller and the hinge 22. By achieving greater than the combined tension. That is, after the flood, the water level of the main stream gradually rises and the tension decreases due to the buoyancy generated from the lock adjustment of the hydrologic control buoy 40, so that the floodgate 10 from the time when the weight of the flood gate relatively increases. This gradually descends and closes the inlet 1 or the culvert 2 so that the backflow does not occur even if the water level in the main stream continues to rise. In addition, even when the water level of the tributary stream becomes higher than the water level of the main stream due to the flooding amount introduced from the rear surface after the water gate 10 is closed, the water gate 10 is opened toward the main stream by the pressure difference, thereby preventing further water level rise. In this case, the unit weight (W4) of the material constituting the water gate 10 should be greater than the unit weight (W0) of the water.

Then, when the main stream water level, which has risen to the planned flood level, gradually drops, at the same time, the tributary stream is drained to the open sluice 10 and the buoyancy deceleration hydrologic adjustment buoy 40 descends to its original position, and the sluice 10 is The connection cable 45 is to maintain the open state by the tension up again.

The conditional expression for the above-mentioned operation of the gate 10 is established as follows.

① L, W, L (H, W, L → L, W, L): When the water level drops

② H, W.L (L, W, L → H, W, L): When the water level rises

W40: Weight of hydrologic control buoy

T23: tension of the spring

F10: Torque Power

V40: Volume of hydroadjustment buoy

R56: frictional resistance of the first roller

R62: frictional resistance of second roller

F40: Underwater Power of Hydrology

W0: weight unit of water

The present invention is not limited to the above embodiments, and various modifications can be made within the scope allowed by the technical idea of the present invention.

1: drain pipe 2: culvert
10: hydrologic 11: index version
12: inclined surface 13: buffer member
20: rotation means 21: sluice support
22: hinge 23: spring
30: opening and closing operation means 31: elevating enclosure
32 air hole 33: cable hole
34: Round Bar 35: Door
36: hinge 37: locking means
38: sight glass 40: hydrological adjustment buoy
41: storage cylinder 42: inlet
43: plug 44: graduation
45: connecting cable 50: guide means
51: vertical rod 52: fitting
53: rotating part 54: horizontal bar
55: fixing hole 56: first roller
57: fixing nut 60: length adjusting rod
61: adjusting hole 62: second roller
63: bolt 64: nut 70: sluice frame

Claims (12)

A drain pipe line 1 installed to drain the water of the tributary stream to the main stream;
A sluice frame (70) fixed to the tip of the drain pipe (1) and having an inclined surface (12) in front;
It is installed in front of the sluice frame 70 is the sluice (10) to be opened and closed rotationally to control the flow of water;
Rotating means 20 is connected to the front of the water gate 10 so that the water gate 10 is rotated; And
It is connected to the front of the water gate 10, opening and closing operation means 30 to be opened and closed by the rotation means 20 in accordance with the water level of the mainstream stream; Adjustable sluice.
A culvert 2 installed to drain the water of the tributary stream to the main stream;
A water gate (10) installed on the front inclined surface (12) of the culvert (2) and rotatably opened and closed to control the flow of water;
Rotating means 20 is connected to the front of the water gate 10 so that the water gate 10 is rotated; And
It is connected to the front of the water gate 10, opening and closing operation means 30 to be opened and closed by the rotation means 20 in accordance with the water level of the mainstream stream; Adjustable sluice.
3. The method according to claim 1 or 2,
The rotating means 20 is a hydrological support 21 installed vertically so as not to disturb the flow of water in the water gate (10);
Hinge 22 for rotatably connecting the upper portion of the sluice support 21 and the sluice 10; And
The upper front and one end of the sluice support 21 is connected to the other end and the spring is connected to the front of the sluice 23; automatic power control using the water level, characterized in that consisting of.
3. The method according to claim 1 or 2,
The opening and closing operation means 30 is installed to have a height vertically in front of the sluice 10, the guide space is formed inside, the air hole 32 is formed in the upper and lower sides of both sides, the cable hole ( 33 is formed, the elevating enclosure 31 is provided with a round bar network (34) at the bottom;
A hydrological adjustment buoy 40 which is installed in the inner guide space of the elevating enclosure 31 and has a weight to elevate by the level of water;
One end is connected to the upper surface of the hydrologic adjustment buoy 40 and the other end of the elevating enclosure 31 through the cable hole 33 is connected to the front of the sluice 10; And
It is installed on the elevating body (31), the guide means (50) for smoothly operating the connection cable 45; Non-powered automatic watermark using a water level, characterized in that consisting of.
3. The method according to claim 1 or 2,
The inclined surface 12 is formed to be inclined toward the tributary river side from the vertical of the ground, the non-powered automatic watermark using the water level, characterized in that to maintain the inclined angle (θ) from the horizontal line and the ground.
The method of claim 4, wherein
A lower portion of one side of the elevating enclosure 31 is provided with a door 35 that is rotated to open and close with a hinge 36 for installation and maintenance of the hydrological adjustment buoy 40, and locking means installed on the front of the door 35. Non-powered automatic watermark using water level, characterized in that further comprises 37.
The method of claim 4, wherein
The elevating body 31 is installed from the ground spaced apart from the ground through the round bar network 34 so that the river water flows in or out, characterized in that the automatic power control using the water level.
The method of claim 4, wherein
The hydrologic adjustment buoy 40 has a storage cylinder 41 capable of storing a weight body such as water or sand therein;
An inlet port 42 formed on an upper surface of the storage cylinder 41 and into which a weight body is introduced; And
Side of the storage cylinder (41), the scale 44 to check the amount and height of the injected weight body; automatic power supply using the water level, characterized in that consisting of.
The method of claim 4, wherein
The guide means 50 is installed vertically on the upper surface of the elevating enclosure 31, the upper portion is provided with a fitting portion 52 formed of a diameter smaller than the lower portion of the lower portion, the top of the vertical rod (51) formed with a thread;
A rotating part 53 formed with a hole having a diameter larger than the diameter of the fitting part 52 and being rotated while being fitted to the fitting part 52;
One side of the rotating part 53 extends in the transverse direction, the inside is hollow, the fixing hole 55 is formed through the both sides of the front end, the first roller 56 hanging the connecting cable 45 is formed at the lower end A horizontal bar 54 provided;
The inside of the horizontal bar 54 is slid to extend or reduce the length of the horizontal bar (54), both sides are formed with a plurality of adjustment holes 61 formed at a predetermined interval, the lower end of the first roller (56) A length adjusting rod (60) provided with a second roller (62) to hang the connecting cable (45) through;
A bolt 63 and a nut 64 installed at the fixing hole 55 and the adjusting hole 61 to fix the horizontal rod 54 and the length adjusting rod 60; And
Fixing nut (57) is screwed to the top of the vertical rod (51); Automatic power supply using the water level, characterized in that consisting of.
The method of claim 4, wherein
The cable hole 33 formed on the elevating enclosure 31 is composed of a curved hole formed in the same concentric circle as the center of the guide means 50, characterized in that the non-automatic power control using the water level.
The method of claim 4, wherein
The elevating enclosure (31) is formed of a rectangular pillar shape or a circular column shape enclosure, the enclosure further comprises a see-through window (38) for the inside to be visible from the outside, characterized in that the automatic power control using the water level.
3. The method according to claim 1 or 2,
The front surface of the inclined surface 12 is a non-powered automatic control watermark using a water level, characterized in that it further comprises a shock-absorbing member (13) to prevent the shock when closing the water gate (10).

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