KR20150128358A - A process of replacement of a sluice gate using A blocking device in an intake tower - Google Patents

Abstract

The present invention relates to a method for replacing a water gate using a blocking device for repairing the water gate of an intake tower to be simply installed inside a water intake tunnel by having a configuration capable of easily discharging water after replacing the water gate while preventing water supply to the water intake tunnel by directly blocking the end of a connecting pipe connecting the water gate and the water intake tunnel without directly installing a structure in the water intake tunnel. The method for replacing a water gate using a blocking device for repairing the water gate of an intake tower includes: a seating surface clearance step (100) of flattening a seating surface (3), which is a wall surface of the water intake tunnel (1) having the connecting pipe (2) while the water gate of the intake tower is completely closed; a cutoff surface obtaining step (200) of obtaining a cutoff surface by spreading mortar and silicon on a part of the flattened seating surface (3) in contact with a cutoff plate (20); a blocking device installing step (300) of installing the blocking device for repairing the water gate of the intake tower; a water gate opening step (400) of opening the water gate to be replaced when the blocking device is completely installed to fill not only the water intake tunnel but also the connecting pipe (2); a water gate replacing step (500) of replacing the water gate by divers entering the water intake tunnel while the water gate is open; an inspection step (700) of checking the pressure of water discharged from a valve, measuring the amount of intake water after a predetermined period of time, and inspecting the water gate in case of a water leak; and a blocking device removing step (800) of closing the water gate and removing the installed blocking device.

Description

Technical Field [0001] The present invention relates to a method for replacing a water gate using a shut-off device for water gate maintenance of a water intake tower,

The present invention relates to a method of replacing a water gate using a shutoff device for water gate maintenance of a water intake tower, and more particularly, The present invention relates to a water gate replacement method using a shutoff device for water gate maintenance of a water intake tower capable of easily installing water inside a water intake tunnel by providing a structure capable of draining water after replacing a water gate while preventing water from being supplied to a tunnel.

Generally, the water intake tower is installed in various reservoirs and dams where water depths of rivers and rivers are large. It is equipped with an empty cylindrical structure in the middle. There are several water intake holes according to the height on the outer wall, The water gates are installed so that water can be taken from a suitable depth.

The water table of such a water intake tower should be replaced if it gets old or broken. In the past, in order to replace the water gate of the water intake tower, a diver entered into the water and installed a separate large water dam device.

In this method, the watertight device is fixed to the outer wall of the water intake tower so as to enclose the entire water gate installed on the water intake tower, and then the water gate is opened so that the water in the water film can be returned to the inside of the water intake tower and the water intake tunnel (also referred to as abdominal pain) And when the water discharge is completed, the operator enters the inside of the water damper and replaces the water gate.

After the water gate is closed by the operator, the diver enters the water to dismantle the large water dam device installed on the outer wall of the water intake tower.

However, the above-described conventional techniques have the following problems.

It is very cumbersome and troublesome to install a large structure such as a tundish such as a heavy equipment such as a crane in order to install and dismantle the water damper device, which is a large structure, on the outer wall of the water intake tower. There was a problem.

In addition, waterproofing must be performed on the close contact area between the water damper, which is a large structure, and the outer wall of the water intake tower, and it is very difficult to completely waterproof the close contact area.

Further, since the water gate is a very heavy apparatus, there is a problem that it is very difficult for an operator to move or handle it inside the water dam device and the water intake tower in which the water is dropped.

In order to solve this problem, in Patent Application No. 0039411 of 2008, it is possible to smoothly and smoothly change the water gate without installing a separate large water dam device on the outer wall of the water intake tower, so that the waste of manpower and time used for the water gate replacement is minimized The water gate replacement method of the water intake tower is provided to allow the operator to move and handle the water gate very easily at the time of replacing the water gate.

In this technology, there is provided an auction device used for water gate replacement of the water intake tower, which can easily block the inlet of the intake tunnel, and allows the operator to smoothly enter and exit the water intake tower and the intake tunnel through the water wall installed at the entrance of the intake tunnel The order system used to replace the water gate of the water intake tower was revealed.

The conventional water taking-in device includes a water receiving plate disposed closely to an inlet of a water intake tunnel, a rubber packing attached around the front surface of the water receiving plate corresponding to the inlet of the water intake tunnel, A water outlet having a plate portion for supporting the plate; A plurality of wallpaper mounts horizontally installed between a rear surface of the water wall and an inner surface of the water intake tower to support the water wall; And a plurality of cross supports for supporting the wallpaper so as to be crossed with the wallpaper zone while being supported on the inner surface of the water intake tower.

However, since the conventional aeration system is provided with a water level plate to be in close contact with the inlet of the intake tunnel and the space behind the water level plate is required to be supported by the plateboard, the construction time is long and the water level plate must be completely adhered to the inlet of the intake channel Therefore, there is a problem that it takes much time to cut and align the length of the material.

In addition, there is a possibility of occurrence of an accident or other problems because the conventional water gate is not properly installed and closed, and it is not known in the process of draining water.

In addition, since the material is transported to the intake tunnel and cut or welded or bolted in the intake tunnel, the work is inconvenient and time consuming.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a water supply system for a water supply system, In order to prevent water from being drawn into the intake tunnel during replacement of the water.

The present invention provides a method of installing a water level plate that can block a connection pipe of a water intake tunnel while being easily installed and capable of withstanding water pressure and is capable of installing an already manufactured device in a water intake tunnel without producing water- The present invention provides a method for replacing a water gate using a shutoff device for water gate maintenance of a water intake tower for replacing a water gate.

In order to achieve the above-mentioned object, the present invention is configured to block a connection pipe (2) connecting a water intake tunnel (1) and a water gate from a water intake tunnel (1), and a water level plate (20) One end of the support pipe 30 to which water is supplied to the inside through the water receiving plate 20 is fixed to the water receiving plate 20 and the other end of the support pipe 30 is fixed to the inside of the intake tunnel 1, The support structure 40 is configured to move back and forth along the base rail 10 and a support 50 is provided between the support structure 40 and the water level plate 20 to support the support 50 And the rear end of the support structure 40 is brought into contact with the wall surface of the intake tunnel 1 to adjust the length of the support structure 40 to close the water receiving plate 20 to the seating surface 3 of the connection pipe 2. [ (3), which is a wall surface of a water intake tunnel (1) having a connection pipe (2), in a state where the water gate of the water intake tower is fully closed A seating surface clearance step (100); A car water surface securing step (200) for securing a car water surface by applying mortar and silicone to a part where the water receiving plate (20) touches the arranged seating surface (3); (300) for installing a shutoff device for water gate maintenance of the water intake tower; A water gate opening step (400) for opening the water gate to be replaced when the shielding device is completely installed to allow water to reach the connection pipe (2); A flood replacement step (500) in which the divers enter and replace the floodgate with the floodgate open; Closing the sluice gate 600 to close the replaced sluice and drain the water between the sluice and the intake tunnel through the valve of the support tube 30; Checking the pressure of the water discharged from the valve, measuring the inflow quantity after a predetermined time, and checking the water gate if water leaks; (800) for closing the water gate and removing the installed blocking device. The step of installing the blocking device (300) comprises the steps of selecting the bottom surface of the intake tunnel (1) A base rail mounting step of installing a pair of base rails 10 on the base rail; A support structure mounting step of placing the support structure (40) and the water leveling plate (20) on the base rail (10); The support 50 is installed between the support structure 40 and the water level plate 20 so as to be positioned at the four corners of the support structure 40 and the support 50 is operated to support the support structure 40 and the water level plate 20 ) Are pressed against each other to be in close contact with the wall surface of the intake tunnel (1); A support bar fixing step of actuating a support bar 46 provided on a support frame 45 of the support structure 40 so as to be brought into close contact with an end of the support pipe 30 of the aeration plate 20 to push the support pipe 30; The water gate replacement method using the water gate maintenance device of the water intake tower is provided.

The present invention is not limited to the installation of a water collecting device as a whole in the inlet of a water intake tunnel, so that it is possible to reduce the material for the water intake and to install and remove the water intake device in a narrow water intake tunnel, Because the time is dramatically reduced, the total time to replace the water gate is reduced by more than half.

In addition, the connection pipe connecting the water gate of the water intake and the water intake tunnel is blocked by the water level plate so that the water is prevented from falling into the water intake tunnel during the water gate replacement and the water drain valve installed on the support pipe connected to the water level plate, It is possible to drain the water between the plates and to check whether the water gate is installed properly by checking the pressure in the drain valve, thereby preventing a safety accident that may occur when the water gate is not properly installed after the water gate is replaced .

The supporting structure is supported on the wall of the intake tunnel to push the water level plate, so that the water level can be safely operated by preventing the water from entering into the water intake tunnel when the water level is changed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a place where a shutoff device is installed in a water gate replacement method using a shutoff device for water gate maintenance of an intake tower according to the present invention. FIG.
FIG. 2 is a sectional view showing a place where a shutoff device is installed in a water gate replacement method using a shutoff device for water gate maintenance of the water intake tower of the present invention. FIG.
3 is a side view showing a state in which a shutoff device is installed in a water gate replacement method using a shutoff device for water gate maintenance of the water intake tower of the present invention.
4 is a plan view showing a state in which a shutoff device is installed in a water gate replacement method using a shutoff device for water gate maintenance of the water intake tower of the present invention.
5 is a perspective view showing a blocking device in a water gate replacement method using a water gate blocking device of the water intake tower of the present invention.
FIG. 6 is a perspective view showing a cut-off device in a different direction in a water gate replacement method using a water gate repair shut-off device of the water intake tower of the present invention.
FIG. 7 is an exploded perspective view showing a blocking device used in a water gate replacement method using a shutoff device for water gate maintenance of an intake tower of the present invention. FIG.
8 is a perspective view showing a support structure of a shutoff device used in a water gate replacement method using a shutoff device for water gate maintenance of an intake tower of the present invention.
9 is a flowchart showing a water gate replacing method using a shutoff device for water gate maintenance of the water intake tower of the present invention.

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

The terms and words used in the present specification and claims are not to be construed as limited to ordinary or dictionary terms and the inventor can properly define the concept of the term to describe its invention in the best way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

The present invention relates to a water intake system for preventing water coming into an intake tunnel from falling into a water intake tunnel when a water intake of a water intake tower is replaced in a water intake tower having a connection pipe (2) connecting a water gate of a water intake tower and a water intake tunnel (1) And is configured to directly block the seating surface 3, which is a wall surface on which the coupling pipe 2 is installed, in the intake tunnel 1 to prevent water from falling into the intake tunnel 1.

The water receiving plate 20 configured to block the connection pipe 2 connecting the water intake tunnel 1 and the water gate from the water intake tunnel 1 is fixed inside the water intake tunnel 1 by the support structure 40, So that the water is supplied to the inside through the opening 20 to be opened and closed.

One end of the support pipe 30 to which water is supplied is fixed to the water-saving plate 20, and the other end of the support pipe 30 is configured to be supported by the support structure 40.

5 and 7, a peripheral plate body portion 23 is formed around the plate body 21 so as to be brought into close contact with the seating face 3, and an inner side of the peripheral plate body portion 23 The circumferential plate body 23 is formed so that the end of the coupling tube 2 is positioned. At this time, a hole 22 is formed at the center of the plate body 21 so as to pass through the front and rear faces of the plate body 21, and the support pipe 30 is fixed to the back face of the plate body 21 to communicate with the hole 22.

It is preferable to fix the rubber or urethane packing so that the close contact surface 24 which is the end of the peripheral plate body portion 23 touches and adheres to the seating surface 3 of the intake tunnel 1.

The other end of the support pipe 30 is supported by the support structure 40 and one or more drain valves 33 and 34 are formed on one side of the support pipe 30. The drain valves 33 and 34 are for replacing the water gate and extracting water between the water gate and the intake tunnel. By measuring the drainage pressure of the water drain valve 33, it is possible to confirm whether the water gate is properly replaced.

A hole 22 penetrating the center of the plate body 21 of the water distributing plate 20 is formed so as to surround the hole 22 on the outer surface of the plate body 21, The tube 30 is fixed. The support pipe 30 is fixed to the plate body 21 by forming a flange 32 around the opened end and the closed end of the support pipe 30 is connected to the rear vertical frame 44 of the support structure 40 And is configured to be supported on a fixed support frame 45.

The end portion of the support pipe 30 is tightly fixed to the support frame 45 by a support bar 46 fixed in a length-adjustable manner. The supporting bar 46 is screwed to the supporting frame 45 and the supporting bar 46 is rotated so that the supporting bar 46 moves back and forth in the supporting frame 45 and is brought into close contact with the supporting bar 30 .

The support bar 46 pushes the support pipe 30, which is formed long, from the other side, and pushes the aeration plate 20 from the center so that it can be firmly fixed.

The support structure 40 is placed on the upper surface of the base rail 10 so as to move back and forth along the base rail 10 and slid along the base rail 10 to move back and forth. The base rail 10 is configured to minimize the friction with the bottom surface of the intake tunnel 1 and to stably support the support structure 40. The base rail 10 has a bottom surface of the intake tunnel 1, . The base rail 10 may be made of H-shaped steel or a surface having no protruded portion for allowing the bottom surface of the other support structure 40 to move.

A plurality of supports 50 are provided between the support structure 40 and the water level plate 20 and the support structure 40 is pushed backward by a length adjusting operation such as increasing or reducing the support 50. [ When the support structure 40 is brought into contact with the wall surface of the intake tunnel 1 and the support structure 40 is completely in contact with the wall surface of the intake tunnel 1, To be brought into close contact with the seat surface (3). The supporting structure 40 and the water level plate 50 are brought into close contact with the wall surface of the water intake tunnel 1 which are respectively contacted by the same force.

At this time, since the support 50 is heavy, it is hard for a person to work, so that the support jaw 25 is formed at one side of the outer surface of the water receiving plate 20 at a position where the support 50 is to be placed, And the other end of the support 50 is placed on the support jaw 47 fixed to the upper portion of the front vertical frame 43 of the support structure 40 to prevent it from falling downward.

Preferably, the support 50 is provided with four support portions 40 because it is desirable to push and fix the four corners of the support structure 40.

The supporting members 25 and 47 are configured to be applied to the support 50 to be installed on the upper side and the lower side is not required to be operated because the support 50 is placed on the base rail 10 and operated.

A working method using a water shutoff device for the water intake tower constructed as described above is as follows.

The entrance surface 3 which is the wall surface of the intake tunnel 1 with the connection pipe 2 enters the intake tunnel 1 with the water gate of the water intake tower being closed, The organizing step 100 is performed.

Then, mortar and silicone are applied to a part of the arranged seating surface 3 contacting the water level plate 20 for a plan view to proceed to a water level securing step 200 for securing a water level.

When securing the water level of the car, it goes through a cut-off device installation step (300) for installing a shutoff device for water gate maintenance of the water intake tower.

The interrupter installation step 300 includes a base rail installation step for flatly selecting the bottom surface of the intake tunnel 1 and installing a pair of base rails 10 thereon and a supporting structure 40 on the base rail 10, The support structure 50 is installed between the support structure 40 and the water level plate 20 so as to be positioned at the four corners of the support structure 40, 50 in the supporting structure 40 by pushing the support structure 40 and the water level plate 20 against each other to the wall surface of the intake tunnel 1 and the support bars 45 And a support bar fixing step for pressing the support pipe 30 by pressing the support pipe 30 against the end of the support pipe 30 of the aeration plate 20. [

In detail, in the base rail installation step, the bottom surface of the intake tunnel 1 is flatly adjusted and a pair of base rails 10 are installed. The base rail 10 is located below the support structure 40 and is installed to support the support structure 40.

The support structure 40 and the water level plate 20 are placed on the base rail 10 and the support 50 is placed at four corners of the support structure 40 in the step of installing the support structure. At this time, the upper support 50 is installed so that both ends thereof are placed on the base jaws 25 and 47, and the lower support 50 is placed on the base rail 10.

The support 50 is operated in the support installation step to push the support structure 40 and the water level plate 20 to each other to closely contact the wall surface of the intake tunnel 1. The support bar 46 provided on the support frame 45 of the support structure 40 is operated to tightly contact the end of the support pipe 30 of the water receiving plate 20 to push the support pipe 30 do. When the support bar 46 is rotated, the length of the support bar 46 can be adjusted so that it is completely in contact with the end portion of the support pipe 30.

Once the shut-off device is fully installed, the gate to be replaced is opened and the gate is opened to allow water to reach the connection pipe (2).

When the water gate is opened, the diver enters and changes the water gate.

Replace the gate and close the gate. When the water gate is closed, the water between the water gate and the water intake tunnel should be drained through the valve formed in the support pipe 30. Checking the pressure of the water coming out of the valve, you can see if the water gate is properly closed and whether the water gate is properly holding the water pressure.

After about 30 minutes to 2 hours, we go through an inspection step to measure the influent water, and if the water leaks, we will rearrange the gate. At this time, this time can be arbitrarily set by the user.

A step of checking is performed and a step of removing the blocking device is performed. The removal of the blocking device is carried out in the reverse order of the installation steps.

Removing the blocking device and transferring it out of the intake tunnel makes it easy to remove the installation structure because there is no installation structure inside the intake tunnel.

1: intake tunnel 2: connector
3: seat surface 10: base rail
20: order plate 21: plate body
22: hole 23:
24: close contact surface 25:
30: Supporting tube 31: Tubular body
32: flange 33, 34: drain valve
40: support structure 41: bottom frame
42: upper frame 43: vertical frame
44: rear vertical frame 45: support frame
46: Support bar 47:
50: Support

Claims (2)

And a connection pipe 2 connecting the intake tunnel 1 and the water gate is blocked in the intake tunnel 1 and the water level plate 20 is fixed inside the intake tunnel 1 by the support structure 40, One end of a support pipe 30 to which water is supplied to the inside through the water-saving plate 20 is fixed to the water-receiving plate 20 and the other end of the support pipe 30 is supported by the support structure 40, The support structure 40 is configured to move back and forth along the base rail 10 and a support 50 is provided between the support structure 40 and the water level plate 20 to adjust the length of the support 50 Is provided with a shutoff device for water gate maintenance of an intake tower configured to contact the wall surface of the intake tunnel 1 so as to bring the water level plate 20 into close contact with the seat surface 3 of the connection pipe 2,
A seating surface cleaning step (100) for flattening the seating surface (3), which is the wall surface of the intake tunnel (1) with the connection pipe (2), with the water gate of the water intake tower being closed;
A car water surface securing step (200) for securing a car water surface by applying mortar and silicone to a part where the water receiving plate (20) touches the arranged seating surface (3);
(300) for installing a shutoff device for water gate maintenance of the water intake tower;
A water gate opening step (400) for opening the water gate to be replaced when the shielding device is completely installed to allow water to reach the connection pipe (2);
A flood replacement step (500) in which the divers enter and replace the floodgate with the floodgate open;
Closing the sluice gate 600 to close the replaced sluice and drain the water between the sluice and the intake tunnel through the valve of the support tube 30;
Checking the pressure of the water discharged from the valve, measuring the flow rate after a predetermined time, and regulating the water gate if water leaks;
And a step (800) of removing a blocking device for closing the water gate and removing the installed blocking device.
The method according to claim 1,
The interrupter installation step 300,
A base rail mounting step of flatly selecting the bottom surface of the intake tunnel 1 and installing a pair of base rails 10 thereon;
A support structure mounting step of placing the support structure (40) and the water leveling plate (20) on the base rail (10);
The support 50 is installed between the support structure 40 and the water level plate 20 so as to be positioned at the four corners of the support structure 40 and the support 50 is operated to support the support structure 40 and the water level plate 20 ) Are pressed against each other to be in close contact with the wall surface of the intake tunnel (1);
A support bar fixing step of actuating a support bar 46 provided on a support frame 45 of the support structure 40 so as to be brought into close contact with an end of the support pipe 30 of the aeration plate 20 to push the support pipe 30; The method of claim 1, further comprising:

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