KR100836620B1 - Gravity type automatic floodgate - Google Patents

Abstract

An automatic floodgate using gravity is provided to operate the floodgate without a power supply automatically by storing a fluid discharged from operating force of the floodgate body and by opening/closing the floodgate by the compressed fluid pressure. An automatic floodgate using gravity comprises a floodgate supporter(10), a floodgate body(20), a floodgate opening unit, and a floodgate closing unit(60). The floodgate supporter has a pair of vertical parts(11) and a connecting part(16) fixing the vertical parts. Two ends of the floodgate body are rotated at the vertical parts by using a pair of hinge shafts. The flood opening unit includes a pair of rotary levers whose one end is integrally rotated at the hinge shaft, and a pair of first cylinders which are rotated at the vertical parts and which are connected with the other end of the rotary lever and with a piston rod. The floodgate closing unit includes more than second cylinders, an outer cell cover, a support plate, and at least one weight laid on the support plate. The vertical parts are connected with communication pipes, and fluid lines(50) are installed in the communication pipes.

Description

Gravity Type Automatic Floodgate}

The present invention relates to a gravity automatic hydrological device, and more particularly, to a gravity automatic hydrological device configured to be able to be opened and closed without using a separate power source and manpower, and to be quickly and easily constructed in the field. will be.

In general, the water gate is a door installed to prevent the flow of water or control the flow rate, and is mainly installed in a channel such as a river, a river, a reservoir, a dam, and the like.

In the past, the water gate was mostly structured to open and close manually, but recently, a water gate capable of automatically opening and closing is widely used.

In particular, the conventional hydrological gate is automatically opened by the hydraulic pressure as the flow rate increases, and the automatic hydrological gate that is closed by using the power of the motor when the flow rate decreases has gained great popularity.

However, the conventional automatic sluice as described above causes a problem in that the closing is not performed when power is not supplied to the motor.

For example, when the power is not supplied to the motor due to a lightning strike or a power failure or a failure occurs in the motor, the closing function of the gate is not performed properly, and thus the function of the gate is lost.

Therefore, a lot of damage may occur in case of drought or flooding. Therefore, it is necessary to input the personnel and equipment to maintain and check the maintenance. In this case, the cost and manpower related to the maintenance are caused. It's happening.

In addition, the conventional automatic sluice has a problem in that it is difficult and inconvenient to construct a support for supporting a waterway or the like by placing concrete or welding a steel plate in the field.

In other words, the construction is not possible when the weather is not good due to the construction outdoors, so the construction is likely to be extended, and when the construction site is located at a long distance or in a place where traffic is not good, problems such as deterioration of the construction occurs. do.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and an object of the present invention is to provide a gravity automatic hydrological apparatus in which a hydrological support and a hydrological body are manufactured in one set so that construction can be performed quickly and easily in the field.

Another object of the present invention is to automatically close the water gate by the pressure of the stored fluid after compressing and storing the fluid for closing by the operating force at the same time while opening automatically according to the flow rate without using a separate power and manpower It is to provide a gravity automatic hydrological device configured to be able to do so.

Gravity type automatic hydrological device proposed by the present invention is a hydrostatic support that is formed to face each other at a predetermined interval is installed a pair of vertical parts are installed and connect the pair of the vertical portion is fixed and the water pressure support according to the increase in flow rate The opening operation is performed so that water flows between the pair of vertical portions of the hydrologic support, and the fluid is compressed and stored by the operating force at the same time, while lifting the heavy weight and feeding back the compressed and stored fluid by the gravity of the heavy weight to the hydrologic body. The automatic door is made of a closing operation so that water does not flow between the vertical portion of the.

The sluice support may also comprise a pair of fixing parts each bent vertically outward from one edge of the vertical part.

The automatic sluice is a sluice body installed across a pair of vertical portions of the sluice support, and supports the sluice body at a constant fluid pressure so as to maintain a closed state and at the same time selectively reduces the flow rate of the fluid. Hydrologic opening means for operating the hydrologic main body to automatically release the pressure to open the pressure, and after storing the pressure of the fluid discharged when opening, and optionally by the pressure of the compressed stored fluid in accordance with the decrease in the flow rate of the channel It includes a hydrological closing means for operating the hydrological body to make a closure.

The sluice body is formed in a plate shape and both ends are rotatably supported by a pair of hinge shafts on the vertical portion of the sluice support, and the opening and closing operations are performed as the sluice shaft rotates within a predetermined angle range. It is also possible.

The hydrological opening means includes a pair of rotary levers, one end of which is integrally rotatably installed on the pair of hinge shafts, and one end of which is rotatably installed on the vertical portion, and the other end of the rotary lever. It is also possible to comprise a pair of first cylinders in which the portion and the piston rod are rotatably connected respectively.

The hydrological closing means is installed on the floor at regular intervals, the at least one second cylinder is connected to the first cylinder and the fluid line, the upper end of the piston rod exposed, and the piston rod end of the second cylinder It is also possible to include a weight bearing plate installed in connection with the one or more weights installed on the weight bearing plate.

On the fluid line connecting the first cylinder and the second cylinder, a fluid flow automatic control valve for regulating the opening and closing of the pressure of the fluid may be provided.

The hydrological closing means may further comprise a bottom plate which is formed by connecting and fixing the lower ends of the second cylinder to each other and built to stand on the floor, the weight support plate is a constant distance between the second cylinder It is also possible to include an outer cylinder cover which is wrapped and fixed to the piston rod, and a support plate formed bent at a right angle at the lower end of the outer cylinder cover, the heavy material is assembled to the outer cylinder cover so as to be movable and mounted on the support plate It is also possible to be installed.

The hydrological closing means may further include one or more elastic members installed at a predetermined interval between the bottom plate and the weight bearing plate so that the piston rod of the second cylinder is always pulled toward the bottom plate. .

And the present invention comprises a communication pipe is installed between the hydrological support between the pair of the vertical portion, the fluid line is installed in the interior of the communication pipe connecting the pair of the first cylinder to each other, In the vertical part of the sluice support, it is also possible to have a pair of installation spaces in which the sluice opening means are located inside and the interior is communicated through the communication pipe.

According to the gravity-type automatic hydrological device according to the present invention made as described above, since the hydrologic support can be constructed quickly and easily on the site, the hydrological support body is made of the hydrologic body and one set, and thus the construction period can be shortened.

And since it is not greatly influenced by the distance and traffic conditions of the construction site, the workability is improved and the construction cost can be reduced.

According to the gravity automatic hydrological device according to the present invention made as described above, by maintaining a closed state by a constant pressure of the fluid can be blocked by flowing water, and at the same time, the flow rate of the flowing water increases to increase the pressure of the set fluid If it goes over, it can be opened automatically and smoothly.

In addition, after opening and compressing and storing the fluid discharged by the operating force of the hydrologic body when opening to provide an effect that can be automatically closed by the pressure of the compressed fluid when the flow rate of the flowing water decreases.

In addition, the opening and closing operation of the water body main body can be operated more smoothly and automatically in a non-powered state by using the flow rate of the flowing water and the pressure of the fluid without using a separate power source and manpower.

Furthermore, by using multiple weights, the magnitude of gravity can be adjusted, and the pressure of the fluid is controlled by the fluid flow automatic control valve.

One embodiment of the gravity automatic hydrological apparatus according to the present invention, as shown in Figures 1 to 3, the hydrological support 10, the hydrological body 20, the hydrological opening means 40, the hydrological closing means 60 )

In order to install the gravity automatic hydrological device according to the present invention, such as a waterway (2), it is also possible to first install a concrete structure (3), such as walls and floors in the waterway (2) first.

The sluice support 10 is a pair of vertical parts 11 are formed to face each other at regular intervals and are installed, and the connection part 16 is fixed to connect one end (lower) end of the pair of vertical parts 11 It is made, including.

As shown in FIG. 4, a pair of installation spaces 12 in which the hydrological opening means 40 are located may be formed in the vertical portion 11 of the hydrological support 10, respectively.

The sluice support 10 may further comprise a fixing part 13 for fixing to the concrete structure (3) or the like.

The fixing part 13 is formed by bending each of the pair of vertical parts 11 vertically outward from each corner.

The sluice support 10 and the sluice main body 20 may further comprise a watertight portion to keep the seal closed.

That is, as shown in FIG. 5, both ends of the sluice main body 20, the vertical part 11 of the sluice support 10, and the lower end of the sluice main body 20 during the closing operation of the sluice main body 20 and The rubber packing 14 or the like is fixed to one side of the vertical portion 11 facing each other and / or one side of the connecting portion 16 so as to be sealed between the connecting portions 16 of the hydrologic support 10.

The above-mentioned watertight part can also be implemented with the same structure as the watertight part of the water gate generally used widely.

The sluice main body 20 is formed in a plate shape and is installed across a pair of vertical portions 11 of the sluice support 10.

3, 6, and 7, both ends of the sluice main body 20 are rotatable using a pair of hinge shafts 21 on the vertical portion 11 of the sluice support 10. It is supported and opened and closed as it rotates within a range of angles about the hinge shaft 21.

The water opening means 40 supports the sluice main body 10 at a constant fluid pressure so as to maintain a closed state, and simultaneously discharges the pressure of the fluid according to a decrease in the flow rate of the water channel 2 to automatically open. Operate the sluice body 20 to be made.

For example, as shown in FIGS. 5 to 7, the hydrological opening means 40 has a pair of rotary levers 41, one end of which is rotatably installed on the pair of hinge shafts 21, respectively. And a pair of one end portions rotatably installed at the vertical portions 11 of the sluice support 10 and the other ends of the rotary levers 41 and the piston rods 43 rotatably connected, respectively. It comprises a first cylinder 42 of.

The pair of first cylinders 42 are connected to each other through a fluid line 50 such as a hydraulic hose.

In the above hydrological support 10 may be further provided with a communication pipe 18 is installed between the pair of the vertical portion 11 and the fluid line 50 is installed therein.

The sluice closing means 60 compresses and stores the pressure of the fluid discharged upon opening and selectively closes the sluice body automatically by the pressure of the compressed and stored fluid according to the decrease in the flow rate of the channel 2. ).

For example, as shown in FIGS. 8 to 10, the hydrological closing means 60 is installed on the bottom plate 61 and the bottom plate 61 at regular intervals, and the first cylinder 42. And one or more second cylinders 62 connected to each other through a fluid line 50 such as a hydraulic hose and having a piston rod 63 exposed at an upper end thereof, and an end of the piston rod 63 of the second cylinder 62. It is also possible to include a weight bearing plate 64 is connected to the portion and one or more of the weight 67 is installed on the weight bearing plate 64.

The bottom plate 61 is formed by connecting the lower ends of the second cylinder 62 to each other and fixed to stand on the floor.

The weight bearing plate 64 surrounds the second cylinder 62 at regular intervals and is bent at a right angle at the lower end of the outer cylinder cover 65 fixed to the end of the piston rod 63 and the outer cylinder cover 65. It is also possible to include a support plate 66 is formed so as to be integrally connected to the outer cylinder cover (65).

The weight 67 may be formed in a plate shape and assembled to the outer cylinder cover 65 so as to be movable and mounted on the support plate 66.

In the weight 67, a pair of holes 68 assembled in the state fitted to the outer cylinder cover 65 may be formed in a spaced apart state.

The weight 67 may be formed in plural, such as a balance weight, and may have the same or different weights.

As shown in FIG. 11, the hydrograph closing means 60 includes the bottom plate 61 and the weight so as to apply a force to always pull the piston rod 63 of the second cylinder 62 toward the bottom plate 61. It is also possible to further comprise one or more elastic members 69 which are installed at regular intervals between the support plates (64).

The elastic member 69 is made of a tension coil spring or the like.

In the gravity automatic hydrological device according to the embodiment of the present invention as described above, as shown in FIG. It is also possible to further provide a fluid flow automatic control valve 52 for controlling the opening and closing of the.

Next, the operation of the gravity automatic hydrological device according to the present invention will be described in detail with reference to the drawings.

First, in the closed state in which the sluice main body 20 intersects between the vertical portions 11 of the sluice support 10, the water increases in the water channel 2 so that water flows upward of the sluice main body 20 so that the predetermined water pressure is increased. When acting on the sluice body 20, the sluice body 20 starts to rotate while opening to one side (see FIG. 3).

When the opening is started, the hinge shaft 21 is rotated, and accordingly pressure is applied to the fluid inside the first cylinder 42 while the rotary lever 41 of the hydrological opening means 40 is rotated. The piston rod 43 is moved (see FIGS. 6 and 7).

As the first cylinder 42 is operated as described above, the fluid on the fluid line 50 moves toward the second cylinder 62 of the hydrological closing means 60, and accordingly, the second cylinder 62. The piston rod (63) is pushed out to raise the weight 67 and the weight support plate 64 is operated to raise (see Figs. 9 and 10).

When the sluice main body 20 is completely open, the fluid flow automatic control valve 52 blocks the movement of the fluid in the fluid line 50, the water escapes from the water channel 2 and the predetermined water pressure is When acting on the main body 20, the fluid line 50 is blocked by the fluid flow automatic control valve 52.

When the blocking of the fluid line 50 is released as described above, the pressure of the fluid acting on the second cylinder 62 is acted toward the first cylinder 42 by the weight of the weight 67. As the piston rod 43 of the first cylinder 42 rotates, the rotary lever 41 and the hinge shaft 21 rotate to rotate in the direction in which the sluice main body 20 is closed, thereby closing.

In the above, a preferred embodiment of the gravity automatic hydrological device according to the present invention has been described, but the present invention is not limited thereto, and various modifications can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. This also falls within the scope of the present invention.

1 is a perspective view showing an embodiment of a gravity automatic hydrological device according to the present invention.

2 is a front view showing an embodiment of a gravity automatic hydrological device according to the present invention.

3 is a side cross-sectional view showing an embodiment of a gravity automatic hydrological device according to the present invention.

Figure 4 is a cross-sectional plan view of an embodiment of an automatic gravity gate device according to the present invention.

Figure 5 is a cross-sectional view showing the watertight portion in one embodiment of the gravity automatic hydrological apparatus according to the present invention.

Figure 6 is a side view showing the hydrological opening means in a closed state in one embodiment of the gravity automatic hydrological apparatus according to the present invention.

Figure 7 is a side view showing the hydrological opening means of the open state in one embodiment of the gravity automatic hydrological apparatus according to the present invention.

Figure 8 is an exploded perspective view showing the hydrologic closing means in one embodiment of the automatic gravity gate device according to the present invention.

9 is a front view showing the hydrological closing means of the open state in one embodiment of the gravity automatic hydrological apparatus according to the present invention.

Figure 10 is a front view showing the hydrological closing means of the closed state in one embodiment of the gravity automatic hydrological device according to the present invention.

Figure 11 is a front view showing the hydrological closing means is installed elastic member in one embodiment of the gravity automatic hydrological apparatus according to the present invention.

12 is a block diagram showing another embodiment of a gravity automatic hydrological device according to the present invention.

Claims (10)

A hydrological support (10) having a pair of vertical portions (11) formed to face each other at regular intervals and installed thereon, and a connecting portion (16) for connecting and fixing the pair of vertical portions (11); A sluice body body 20 rotatably installed at both ends of the pair of vertical parts 11 so as to be rotatable using a pair of hinge shafts 21 on the vertical parts 11; A pair of rotary levers 41, one end of which is rotatably installed on the hinge shaft 21, and one end of which is rotatably installed on the vertical portion 11, respectively, and the rotation lever 41 A hydrological opening means 40 comprising a pair of first cylinders 42 rotatably connected to the other end of the rod and the piston rod 43, respectively; One or more second cylinders 62 connected to the first cylinders 42 and the fluid line 50 and installed in the bottom plate 61 at regular intervals, and having a piston rod 63 exposed at an upper end thereof. And an outer cylinder cover 65 which is fixed to the tip of the piston rod 63 while surrounding the second cylinder 62 and formed to be bent at a right angle at a lower end of the outer cylinder cover 65 to the outer cylinder cover 65. A water gate comprising a support plate 66 for integrally connecting the at least one heavy material 67 assembled to the support plate 66 and assembled with a pair of holes 68 spaced apart from the outer cylinder cover 65. The closing means 60; The pair of vertical portions 11 is connected to the communication pipe 18 in communication with the installation space 12 therein, the first cylinder installed in each vertical portion 11 in the interior of the communication pipe (18). Gravity automatic hydrological device, characterized in that the fluid line 50 is installed to interconnect the 42. delete delete delete delete delete delete delete delete delete

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