KR20080070604A - Method to manufacture rotating water gate purifing polluted river water - Google Patents

Abstract

A rotating water gate purifying polluted river water is provided to rotate open the water gate smoothly by causing an operation cylinder to move a water gate body directly. In a rotating water gate purifying polluted river water, sectoral lateral plates(22) are attached to two side ends of a water gate body(21) having a round bottom. Rotary shafts are attached to the lateral plate. The rotary shafts are supported by support frames(13) of a support unit set two sides of a river. An operation cylinder(31) is fixed to the bottom of a water way. A connection link(24) is attached to the end of the water gate body. A piston rod(32) of the operation cylinder is connected with the connection link. The water gate body moves according to the reciprocation of the operation cylinder, and opens and closes the water gate.

Description

Method for manufacture rotating water gate purifing polluted river water}

The present invention relates to a method of constructing a rotating sluice for purifying a contaminated river, and more particularly, to simplify the structure of the rotating sluice and to operate it more smoothly.

As is well known, water flows through various routes into reservoirs such as rivers or reservoirs, so it is obvious that the incoming water contains large amounts of contaminants.

Therefore, various methods have been proposed to purify the stored water, and conventional water purification methods include gravel contact oxidation method, reverse contact oxidation method, sewage treatment plant water purification method, chlorine input purification method, etc. Compared to the effect was insignificant.

In order to improve this, a device has been introduced to implement water purification by forming a vortex in water through a separate device to float contaminants and removing it, but this has the disadvantage of having a separate device to improve the water quality. Of course, the water purification area is very limited, so it was vulnerable to water quality improvement in a wider range.

In addition, the "natural water quality improvement method using a multi-stage water storage device" of the Patent Publication No. 2001-0000343, which was created by the present applicant, is a method of consisting of one hydrology, so that the natural self-cleaning effect due to aeration is very effective. There was a low flaw, and this defect further exacerbated the stored water by causing the algae phenomenon due to the aggregation of substances and contaminants generated by the confinement of water and contaminants trapped inside the water gate. There was a great fault letting.

In addition, in the case of general floodgates, the support shaft of the floodgates is fixed to the lower or upper side of the support structure, so that the water stored in the reservoir space is discharged to the top or the bottom of the floodgates only when the floodgates are opened. There is a limit to this, and in the state that the hydrology is closed, the water stored in the reservoir must be stagnant, so that the water quality is suddenly contaminated, such as the generation of sedimentation sludge due to the aggregation of substances.

In view of this, the present applicant configures the sluice in a rounded shape in Patent No. 686885, Patent Application No. 2007-56774, etc., and installs the sluice on both support structures so as to rotate the hydrology while rotating the sluice. All operations of the bottom discharge type can be easily performed by a simple power transmission system, so that the water quality of the river can be more effectively purified through the bottom discharge, and the floodgate is kept in close contact with the bottom during flooding to prevent water damage. It has disclosed a rotating gate that can be.

However, in the case of the rotating door proposed by the present applicant, a sealed space should be formed inside the support structures on both sides, and since the operating means such as the working cylinder is located in the sealed space, the structure is very complicated. Since it is directly connected to the rotating shaft of the door, to reduce the load on this part, it was necessary to install a double support, which caused more complicated structure.

In addition, since operating cylinders must be provided on both rotating shafts, there is a problem in that hydraulic pressure must be supplied precisely to each operating cylinder in order to operate the same operation cylinder at all times, and the operating cylinder is connected to the rotating shaft that has the smallest weight in the entire gate. Therefore, in order to smoothly rotate the water gate, there was a problem that the capacity of the operation cylinder had to be increased.

It is an object of the present invention to provide a method of constructing a rotating gate to purify a polluted river, the structure of which is simple but the operation is made more smoothly.

In order to solve this problem, the present invention rotatably secures the operation cylinder to the bottom of the drainage side of the waterway, and connects the piston rod end portion to the hydrology plate of the hydrology directly to move the hydrology plate of the hydrology by the operation cylinder. It does not form a separate enclosed space on both sides of the support structure, and it blocks only one index plate and secures the rotational axis of the sluice rotatably through one support to the space formed through it, thereby simplifying the structure of the overall sluice gate. By rotating the heaviest floodgate directly, it is configured to operate the floodgate smoothly.

According to the present invention, since the operation cylinder is rotatably fixed to the bottom of the drain side of the waterway, the piston rod is directly connected to the sluice plate of the sluice, so that it is not necessary to form separate confined spaces on both support structures, as well as load on the sluice. Since it is not concentrated on the rotating shaft, the rotating shaft can be sufficiently supported by only one support, so that the rotating gate can be easily configured. Since the operating cylinder moves the relatively heavy gate directly, the rotation of the gate can be made more smoothly. There is an advantage.

In addition, it is also necessary to minimize the number of operating cylinders since the operating cylinders need not be symmetrically provided on both sides.

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

1 is a perspective view of a rotating gate according to the present invention, Figure 2 is a side cross-sectional view when opening the rotating door according to the invention, Figure 3 is a side cross-sectional view when closing the rotating door according to the invention, Figure 4 Side cross-sectional view when discharging the bottom of the rotating door according to Figure 5 is a front sectional view of the rotating door according to the present invention, Figure 6 is a detailed cross-sectional view of the cover according to the present invention.

As shown in the figure, the rotating gate according to the present invention has a fan-shaped two-sided plate 22 fixed to both side ends of the rounded gate plate 21, respectively, and outwardly from one upper side of the two-sided plate 22, respectively. The rotating shaft 23 is drawn out to form the sluice 20, and the rotating shaft 23 of the sluice 20 is rotatably fixed to the support structure 10 which is constructed on both sides of the river, so that the sluice 20 rotates. It is configured to open and close the channel 11 formed between the two support structures (10).

In this rotational gate, the opposite side of the support structure (10) can be rotated by rotating the axis of rotation (23) of the sluice (20) through a single support 13 in the space formed by blocking the index plate 12, respectively Fixed to the operation cylinder 31 on the drain side bottom of the waterway 11 to be rotatable, and to secure the connection link 24 to the drain side end of the sluice plate 21 of the sluice 20, The end of the piston rod (32) of the operation cylinder (31) rotatably connected to (24) to move the water gate (11) directly by moving the watermark plate (21) of the water gate (20) in accordance with the expansion and contraction of the operation cylinder (31). It is configured to clean the contaminated river by discharging the lower layer water of the reservoir space through the space by opening and closing between the water gate plate 21 and the bottom of the waterway 11 while opening and closing.

In addition, the cover 40 of the cover 40 is covered with an operation cover 31 positioned between the bottom surface of the water channel 11 and the hydroplate 21 of the water gate 20 and the flexible cover 40 above the connection portion thereof. Both ends are rotatably fixed to the bottom surface of the waterway 11 and the top surface of the watermark plate 21 of the waterway 20 through the hinge 41 to protect the operation cylinder 31 and its connection portion.

In this case, the cover 40 applied to the present invention has a double structure, and when the inner cover is retracted into the inner cover when it is contracted, the inner cover may be configured to come out of the outer cover when it is extended. The lower cover of the outer cover is bent inward to form a guide groove 42 so that the outer cover and the outer cover can be stretched without being separated from each other, and the inner cover is configured to linearly move along the guide groove 42. desirable.

When the actuating cylinder 31 is contracted in the state configured as described above, the sluice plate 21 is pulled by the actuating cylinder 31 and rotates downward to become a fully open state parallel to the bottom of the water channel 11. , The water in the reservoir space is discharged to the upper portion of the sluice plate 21 in a short time to maintain the low water level in a stable time.

When the actuating cylinder 31 is elongated in the open state of the water gate 20, the sluice plate 21 is pushed by the actuating cylinder 31 to be rotated upward, and the actuating cylinder 31 is continuously extended to keep the sluice plate. When 21 is in an upright state, the water channel 11 is closed and water is filled in the reservoir from this time.

However, when the water is confined in the reservoir, contaminants such as sludge are generated by the agglomeration of the contaminants contained in the incoming water, which sinks in the lower layer of the reservoir, causing water pollution. In order to purify the contaminated river, it is preferable to periodically or intermittently discharge the lower layer water in the reservoir. For this purpose, when the operation cylinder 31 is further extended in the state in which the water gate 20 is closed, the water plate 21 is It is further rotated upwards to form a space between the sluice plate 21 and the bottom of the waterway 11, through which the foreign material such as sedimentary sludge that has accumulated in the lower layer of the reservoir is discharged. The foreign substances contained in the water are gradually decomposed into small-sized particles by the same discharge, material flotation, material cutting and material friction. Is capable of purifying the natural water by the action.

On the other hand, the stretchable cover 40, which is rotatably fixed to each other through the hinge 41 between the upper surface of the watermark plate 21 and the bottom of the water channel 11, is stretched together according to the expansion and contraction of the operation cylinder 31 At the same time, as the rotation of the watermark plate 21 rotates together, the cylinder is always located at the upper portion of the operation cylinder 31 and its connection part. Therefore, when the water gate 20 is opened and water in the reservoir space is discharged, foreign substances are operated in the cylinder. (31) and the connection portion can be prevented from hitting directly to protect the working cylinder 31 and its connection portion.

And, in the present invention, but having an example provided with only one operating cylinder 31, the operating cylinder 31 may be provided with two or more depending on the conditions, such as the length or weight of the hydrology plate 21, such an operation cylinder ( Since the number of installations 31) can be changed as much as possible depending on the length, weight, and the like of the sluice plate 21, it is natural that all of these things fall within the scope of the present invention.

In addition, the cover 40 according to the present invention is an example consisting of a double inner cover and an outer cover, but the shape is applicable to any shape as long as it is stretchable, in some cases may not install the cover 40 By changing the shape of the cover 40, or if the operating cylinder 31 is directly connected to the watermark plate 21 as in the present invention without the cover 40, it is natural that all of them belong to the scope of the present invention. .

7 is a view showing another embodiment of the present invention, while connecting the operation cylinder 31 between the sluice plate 21 of the sluice 20 and the bottom of the water channel 11, the operation cylinder 31 is a sluice plate ( 21 is provided with at least one or more symmetrical about the central portion of the watermark plate 21 along the length of the water, and as described above a plurality of working cylinder 31 and at the same time the water plate 12 and the support structure (10) In the space therebetween, the auxiliary connecting links 25 are fixed to the rotary shafts 23, respectively, so as to rotatably connect the front ends of the piston rods 52 of the auxiliary operating cylinders 51, and the rear ends of the auxiliary operating cylinders 51, respectively. The unit is rotatably connected to one wall of the space between the index plate 12 and the support structure 10, and is operated according to a detection signal of a water level sensor (not shown) which is provided to immediately respond to a river level that changes frequently. Control system 60 and this comprehensive control system 60 And a hydraulic unit 70 for controlling the hydraulic pressure of the respective operation cylinders 31 and 51 according to the control signal, and the hydraulic unit 70 and the hydraulic unit 70 so as to control the hydraulic pressure of the respective operation cylinders 31 and 51 at the same time. The opening pipes 71 connected to the opening pipes of the respective operation cylinders 31 and 51 are connected to the opening pipes 71, and the closing pipes 72 connected to the hydraulic unit 70 are connected to the operation pipes 31 and 51 respectively. ) Is configured by connecting the closing pipes of

In this way, when the hydraulic cylinder is operated by the electric signal of the comprehensive control system 60 generated in response to the water level signal transmitted through the water level sensor, the auxiliary operation cylinder 51 also simultaneously. It is able to rotate and operate the sluice gate 20, when the width of the river is wide because the length of the sluice plate 21 is configured to be long or suddenly the inflow of water, such as flooding large water pressure acts on the sluice 20 Even if the plurality of operation cylinder 31 and the auxiliary operation cylinder 51 is provided at the same time as the expansion and contraction at the same time can be smoothly rotated the water gate 20 is that the stress is generated on one side of the water gate plate 21 It can be prevented, of course, there is an advantage that can implement a stable rotation of the water gate (20).

1 is a perspective view of a rotating gate according to the present invention.

Figure 2 is a side cross-sectional view at the time of opening the rotating gate according to the present invention.

Figure 3 is a side cross-sectional view at the closing of the rotating gate according to the present invention.

Figure 4 is a side cross-sectional view when discharging the bottom of the rotating gate according to the present invention.

Figure 5 is a front sectional view of the rotating gate according to the present invention.

6 is a detailed cross-sectional view of the cover according to the present invention.

7 is another exemplary embodiment of the present invention.

*** Explanation of symbols for main parts of drawing ***

10 support structure 11: water channel

12: index plate 13: support

20: Sluice 21: Sluice Edition

22: both side plate 23: rotation axis

24,25: Link link 31: Operation cylinder

32,52: piston rod 40: cover

41: hinge 42: guide groove

51: auxiliary operation cylinder 60: comprehensive control system

70: hydraulic unit 71: open piping

72: closed piping

Claims (3)

Both sides of the fan-shaped two-sided plate 22 is fixed to both side ends of the sluice plate 21, which is rounded at the bottom, and the rotation shafts 23 are drawn outward from the upper one side of the two-sided plate 22, respectively. The rotation shaft 23 of the water gate 20 is rotatably fixed to each of the support structures 10 built on both sides of the river, so that the water gate 20 rotates between the two support structures 10. In the rotary door to open and close the water channel 11 is formed, Opposing portions of the both side support structures 10 respectively block the index plate 12 so as to rotatably fix the rotating shaft 23 of the sluice 20 through one support 13 in a space formed therethrough, The operation cylinder 31 is rotatably fixed to the drain side bottom of the water channel 11, and the connection link 24 is fixed to the drain side end of the water gate plate 21 of the water gate 20, and the connection link ( 24 is rotatably connected to the front end of the piston rod 32 of the operation cylinder 31 to move the watermark plate 21 of the water gate 20 directly according to the expansion and contraction of the operation cylinder 31 to the waterway ( 11) while opening and closing the waterway plate 21 and the bottom of the waterway 11 is separated from the contaminated river, characterized in that to discharge the bottom water of the reservoir through this space to purify the contaminated river How to construct a rotating gate to purify. The method of claim 1, The cover 40 while covering the flexible cover 40 on the operation cylinder 31 and the connection portion positioned between the bottom portion of the waterway 11 and the sluice plate 21 of the sluice 20. Both ends of the) is rotatably fixed to the bottom portion of the waterway 11 and the upper surface of the sluice plate 21 of the sluice 20 to protect the working cylinder 31 and its connection portion How to construct a sluice gate to purify the river. The method of claim 1, The actuating cylinder 31 is connected between the sluice plate 21 of the sluice 20 and the bottom of the water channel 11, and the actuating cylinder 31 is connected to the sluice plate according to the length of the sluice plate 21. At least one having a symmetrical around the central portion of the plate 21, At the same time, the auxiliary connection link 25 is fixed to the rotation shaft 23 in the space between the index plate 12 and the support structure 10, thereby rotating the tip of the piston rod 52 of the auxiliary operation cylinder 51. Rotatably connected, the rear end of the auxiliary actuating cylinder (51) rotatably connected to a wall on one side of the space between the index plate (12) and the support structure (10); Comprehensive control system 60 is operated in accordance with the detection signal of the water level detection sensor provided to immediately respond to the river level changes from time to time, and the respective operation cylinder 31 in accordance with the control signal of the integrated control system 60 ( A hydraulic unit 70 for controlling the hydraulic pressure of the 51); Opening pipes of the respective working cylinders 31 and 51 are connected to opening pipes 71 connected to the hydraulic unit 70 so that the hydraulic pressures of the respective working cylinders 31 and 51 can be simultaneously controlled. At the same time, the closing pipes 72 connected to the hydraulic unit 70 are connected to the closing pipes of the respective operation cylinders 31 and 51, respectively, and are connected to each other by the electrical signal of the integrated control system 60. Purifying the contaminated river, characterized in that configured to rotate the water gate 20 while the auxiliary operation cylinder 51 is expanded and contracted at the same time when the operation cylinder 31 is expanded while the hydraulic unit 70 is operated How to configure the rotating gate.

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