KR100942178B1 - Floodgate having cylinder storage structure - Google Patents

Abstract

PURPOSE: A floodgate with a cylinder storage structure is provided to conveniently maintain and repair the floodgate. CONSTITUTION: A floodgate(20) with a cylinder storage structure comprises a floodgate base(10), a receiving part(30), a cylinder connection unit, and a floodgate cylinder(50). The floodgate is buried in a bottom slab of river. A supporting plate(13) is bent and formed in the bottom end of a rear surface part(12) of the floodgate base. The floodgate is rotatably installed in the top end of the floodgate base. The receiving part is formed in the rear surface of the flood gate in a top and bottom direction. The floodgate cylinder is freely installed between a cylinder and a cylinder support plate. The cylinder connection unit is installed on the top of the receiving part.

Description

Floodgate having cylinder storage structure

The present invention belongs to the technical field of installing the water gate at a low height as close to the floor slab as close as possible to secure a safe flood level, and to conveniently construct the water gate without being constrained by the installation of the water cylinder for operating the water gate.

Sluice is used for confining water for agricultural or industrial use. Because it traps a certain amount of water, it has a good effect on the ecosystem of fish and is used to reduce the damage of flood by not disturbing the flow of water when the water is blown up by flooding. .

As shown in FIG. 8, the water gate used as described above forms a rotational center of the water gate 1 at the bottom thereof, so that the water falls in the water flowing direction (downstream side) while the water flows over the water gate, The center of rotation is formed in the upper portion is divided into the bottom discharge type so that the water flows to the lower portion of the water gate while the lower portion of the water gate rotates in the water flowing direction.

Here, the conductive gate (1) has a hydrologic support shaft (2) which is the center of rotation is formed at the bottom, the hydrological cylinder (4) is connected between the rear surface of the gate (1) and the bottom surface (3) of the river By being installed, the water gate 1 stands in a state in which the water gate 1 is inclined by a predetermined angle in the direction in which water flows (downstream side) in accordance with the operation of the water gate cylinder 4, and the fresh water is in the water gate body. The water is discharged while riding or flowed down smoothly while being flooded to the bottom of the river during flooding.

However, in order to smoothly operate the hydrological cylinder 4, the above-described conductive hydrologic gate must be secured at a constant interval (about 1M) between the hydrologic support shaft 2 and the lower end of the hydrologic cylinder 4 to allow for the construction of the hydrological gate. You will be restricted.

Therefore, when the water gate is installed as close as possible to the bottom surface of the river, in order to fix the lower end of the hydrology cylinder 4, it is necessary to additionally perform the digging of the river bottom surface and the concrete flat work, thereby delaying the air as well as the construction cost. Causes an increasing problem.

In addition, when fixing the lower end of the hydro-cylinder to the bottom surface of the river, the floor slab (5) for installing the hydrology must be installed separately, as well as the installation position of the water gate is higher than necessary, thereby increasing the flood level. As a result, river flooding or flood damage is a concern.

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The present invention is to actively solve all the problems caused by the construction of the conventional conducting water gate, to install the water gate as close as possible to the bottom surface of the river to ensure a safe flood level, the water gate cylinder in the cylinder receiving portion inside the water gate The problem of the invention is to be able to eliminate the unnecessary additional process according to the installation of the hydro cylinder while ensuring the smooth opening and closing operation of the hydro gate.

In addition, the present invention is another object of the invention that the upper end portion of the hydrolurgical cylinder is detachably assembled to the cylinder receiving portion so that maintenance, repair can be easily performed.

The present invention is rotatably installed in the upper end of the water gate base embedded in the bottom slab of the river as a means for solving the above problems, and forming a cylinder receiving portion in the rear of the water gate, the upper and the cylinder receiving portion The technique of connecting the hydrologic cylinder between the cylinder support plate attached to the hydrologic base is devised.

In addition, the present invention connects the piston rod of the sluice cylinder in the assembly configuration that can be separated from the upper side plate of the cylinder receiving portion, and the lower end of the sluice cylinder is devised a technique for rotatably connecting to the cylinder support plate.

According to the present invention, the floodgate is installed at a height as close as possible to the floor slab of the river so as to secure a safer flood level (洪水 位) provides an effect of preventing the flooding and flooding of the river.

In addition, since the hydrologic cylinder is installed between the cylinder accommodating portion and the hydrologic base formed inside the hydrologic gate, there is no interference phenomenon during the opening / closing operation of the hydrologic gate, so that the opening and closing operation is very smooth and unnecessary additional process according to the installation of the hydrologic cylinder is performed. , Concrete flattening, etc.) can be omitted, providing the effect that the water gate can be conveniently installed without any restrictions.

In addition, the present invention by using the reference bracket and the detachable bracket attached to the cylinder receiving portion detachably connected to the upper portion of the hydrology cylinder by detaching it in case of damage or malfunction of the hydrology cylinder, as well as the maintenance and repair of the hydrology Even though a plurality of cylinders are installed, the position of each upper connection part is always maintained accurately and uniformly, thereby additionally providing the effect of opening and closing the water gates smoothly while the plurality of hydro cylinders exhibit the same elastic force.

It will be described a preferred embodiment for implementing the solution of the problem to be solved by the present invention in more detail.

First of all, the overall technical configuration according to the preferred embodiment of the present invention in accordance with the accompanying drawings in brief, embedded in the bottom slab (5) of the river, the lower back of the cylinder support plate (13) formed bent at the bottom of the 12 A base 10; A sluice gate 20 rotatably installed at the upper end of the sluice base 10 through a sluice support shaft 2; Received in the vertical direction on the back plate 21 of the water gate 20, the cylinder accommodating the side plate 33 is installed on both sides of the water gate 20 in succession to both ends of the cylinder movement path 32 opened to the rear Section 30; It can be seen that the organic coupling configuration of the hydraulic cylinder 50 is installed rotatably connected between the cylinder connecting means 40 and the cylinder support plate 13 installed on the upper portion of the cylinder receiving portion (30).

Hereinafter, the present invention made of the schematic configuration will be described in more detail.

Firstly, the sluice base 10 of the present invention serves to rotatably support the sluice 20, and the front portion 11 is embedded in the bottom slab 5, but the rear portion 12 of the At the lower end, a cylinder support plate 13 for supporting the lower portion of the sluice cylinder 50 is bent horizontally, and the cylinder support plate 13 is exposed to the upper surface of the bottom slab 5 so that The lower part can be rotatably supported.

The water gate 20 is rotatably installed at the upper end of the water gate base 10 through the water support shaft 2, and the water gate 20 is formed to have a long length across the river.

Therefore, the floodgate 20 is installed in a state as close as possible to the floor slab 5 of the river, away from being installed at a higher height than necessary, thereby preventing the flood level from increasing and efficiently preventing flooding and flood damage of the river.

Here, the sluice 20 of the present invention is a cylinder accommodating part 30, which is a core technology of the present invention, to ensure a smooth stretching operation of the sluice cylinder 50 that opens and closes the sluice 20 even while securing a safe flood level. Is formed in the rear plate 21 in the vertical direction, the cylinder receiving portion 30 is formed in a number of places at equal intervals along the longitudinal direction of the sluice 20 to facilitate the expansion and contraction operation of the sluice cylinder 50 In order to provide a special effect that does not need to carry out additional laying and concrete flattening to support the lower portion of the sluice cylinder 50 into the ground from the bottom slab (5).

The cylinder accommodating part 30 for this purpose is recessed in the rear plate 21, and the cylinder movement path 32 is opened to the rear side, and both ends of the cylinder movement path 32 continuously into the water gate 20 at both ends. The pair of side plates 33 are spaced apart from each other so that the cylinder accommodating portion 30 has an independent accommodation space between the pair of side plates 33.

And the upper portion of the cylinder receiving portion 30 is provided with a cylinder connecting means 40 for rotatably connecting the upper portion of the sluice cylinder 50, between the cylinder connecting means 40 and the cylinder support plate 13 Upper and lower ends of the cylinder 50 are rotatably connected to each other.

At this time, the installation is not directly connected to the back plate 21 of the sluice cylinder 50, the built-in installation in a separate cylinder accommodating portion 30 is at least vertical in the state in which the sluice 20 is standing up This is to support the floodgate 20 stably while maintaining the state.

That is, the sluice cylinder 50 is connected to the cylinder support plate 13 in a state in which the upper portion is connected to the cylinder receiving portion 30 in a state as shown in FIG. When the sluice cylinder 50 is stably supporting the sluice 20 while maintaining the at least vertical state only when it is connected to the cylinder bracket 15, but the upper part of the sluice cylinder 50 is directly connected to the rear plate 21. Since the sluice cylinder 50 is inclined to the rear upward, it is unable to stably support the sluice 20.

Such a cylinder receiving portion 30 is additionally attached to the cylinder cover 35, the lower portion of which is opened along the outer circumference to protect the hydrologic cylinder 50 from external forces and to prevent the cylinder receiving portion 30 from being exposed to the outside. Provides the effect of covering.

On the other hand, according to the present invention, when the sluice cylinder 50 is broken or malfunction occurs, it must be maintained and repaired so that the upper portion of the sluice cylinder 50, that is, the piston rod 51, is connected to the cylinder using the cylinder connecting means 40. The additional technical configuration is connected to the installation portion 30 in a detachable assembly configuration.

The technical configuration of the cylinder connecting means 40 for this is a reference bracket 41 is fixedly attached to the side plate 33, as shown in Figure 4 to 7, the detachable bracket 42 is installed in contact with the reference bracket 41 ), The fastening member 43 and the components of the fastening hole 44 formed in the side plate 33.

The reference bracket 41 has a semicircular pin groove 41a formed at the center of the lower portion thereof, and is welded to the upper side of both side plates 33 by a pair to maintain a completely fixed state.

Therefore, even if the piston rod 51 of the hydrological cylinder 50 is removed or newly installed, the pin groove 41a always maintains the correct reference position, so that the rod pin 53 is supported at the designated position accurately in any case so that a plurality of hydrologic Even when the cylinder 50 operates at the same time, the gate 20 is smoothly opened and closed while maintaining the same stretch and stretch distance at all times, and also provides an effect of suppressing deformation such as local bending of the gate 20 even after a long period of time. do.

On the bottom surface of the reference bracket 41, a pair of separate brackets 42 having a semicircular pin groove 42a forming a completed circular groove together with the pin groove 41a at the top center are installed to face each other. The fastening member 43 is screwed into the fastening hole 44 formed in the side plate 33 through the coupling hole 42b formed on both sides of the detachable bracket 42, the butt pin groove (41a) (42a) ) Is supported by the end of the rod pin 53 for rotatably coupling the piston rod 51 of the sluice cylinder (50).

Here, both ends of the pin groove (41a) formed in the reference bracket 41 is further formed with a guide surface (45) spread outward to facilitate insertion of the rod pin (53), both ends of the guide surface (45) The flow preventing surface 46 is formed to be inclined so that the detachable bracket 42 does not flow from side to side before or after the fastening of the fastening member 43 in the state with the bracket 42 is maintained. .

In addition, the guide surface 45 and the flow preventing surface 46 are also formed at the contact portion of the detachable bracket 42 which is in contact with the reference bracket 41, so that the mutually maintained state can be maintained.

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1 is a front view of the construction state viewed from the downstream side of the river to which the present invention is applied

Figure 2 is a side cross-sectional view of the installation state of the water gate of the present invention

Figure 3 is a side cross-sectional view of the hydraulic cylinder is installed between the cylinder receiving portion and the hydrologic base of the present invention.

4 is a front view of a state in which a hydrogen cylinder is installed between a cylinder accommodating portion and a hydrologic base of the present invention;

Figure 5 is an open side cross-sectional view of the water gate of the present invention

Figure 6 is an assembled side cross-sectional view of the present invention cylinder connecting means

7 is an exploded perspective view of the cylinder connecting means of the present invention

Figure 8 is a side cross-sectional view of the installation state of the conventional conductive sluice

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[Explanation of symbols on the main parts of the drawings]

1, 20: Sluice 5: Floor slab

10: sluice base 13: cylinder support plate

30: cylinder accommodating part 32: cylinder moving path

33: side plate 40: cylinder connecting means

41: reference bracket 42: detachable bracket

50: sluice cylinder 53: rod pin

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Claims (7)

A sluice base 10 embedded in the bottom slab 5 of the river, the cylinder support plate 13 being bent at the lower end of the rear part 12; A sluice gate 20 rotatably installed at the upper end of the sluice base 10 through a sluice support shaft 2; Received in the vertical direction on the back plate 21 of the water gate 20, the cylinder accommodating the side plate 33 is installed on both sides of the water gate 20 in succession to both ends of the cylinder movement path 32 opened to the rear Section 30; It consists of a hydrological cylinder (50) rotatably connected between the cylinder connecting means 40 and the cylinder support plate (13) installed on the upper portion of the cylinder receiving portion (30); The cylinder connecting means 40 has a pair of reference brackets 41 having a semicircular pin groove 41a formed at the center of the bottom thereof, and are completely attached to the upper portions of both side plates 33, and the reference brackets 41 A fastening member 43 penetrates the detachable bracket 42 and is formed in the side plate 33 in a state in which a pair of detachable brackets 42 having a semicircular pin groove 42a formed at an upper center thereof are opposed to each other. 44 is screwed to the cylinder, characterized in that the butted pin groove (41a) (42a) the end of the rod pin (53) rotatably coupling the piston rod 51 of the sluice cylinder (50) is fitted and supported Sluice gate with storage structure. delete delete The method of claim 1, At both ends of the pin groove (41a) formed in the reference bracket 41 is formed with a guide surface 45 that extends outwardly, both ends of the guide surface 45 are formed to be inclined flow prevention surface 46, the reference bracket 41 Sluice door having a cylinder receiving structure, characterized in that the guide surface 45 and the flow preventing surface 46 is also formed in the contact portion of the removable bracket 42 in contact with. delete delete delete

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