KR101325683B1 - System for the rock gate using buoyancy and method for operation the same - Google Patents

Abstract

The present invention relates to a miter gate system using buoyancy and an operating method thereof in order for a door plate of a miter gate to be smoothly operated when the door plates each installed to both inner sides of the miter gate are rotated to the upper part around the inner lower surface of the miter gate by the buoyancy of the water supplied while being lifted by a cylinder.

Description

Passenger door system using buoyancy and its operation {system for the rock gate using buoyancy and method for operation the same}

The present invention stores a certain amount of water in which the vessel is suspended by the upper portion of the passage door door is rotated to the upper surface around the inner bottom of the passage door by the buoyancy of the water supplied as the passage door doors respectively installed on both sides of the passage door is raised by the cylinder. The present invention relates to a traffic door door system using buoyancy to operate the door door door smoothly and a method of operating the door door door.

In general, a seawall is constructed to use tidal power or agricultural water, and the seawall is inevitably disconnected between George and the Offshore. Is installed.

In addition, the passage door as described above is mainly installed in the mouth of the mouth as a structure that allows the ship to sail in and out of the rudder with a water level difference.

In connection with such a technique, a conventional passage door is disclosed in Patent No. 953512. The construction of the passageway door 200 is divided into two partitions 210, as shown in FIG. At one end of the lock 290 is provided.

In addition, the coupling recess is formed on the outer side of the stop log input portion 211 of the partition 210 to form a recess when joining with the adjacent partition 210, and the concrete fastening by pouring concrete to the joint recess and It is made of a configuration that allows for watertightness.

However, the passage door as described above, the lock 290 is exposed and accommodated in the storage space is formed in the storage space formed on one side of the partition is impossible to adjust the level, the lock 290 is necessary for operation in the configuration to be transported horizontally As the resistance is increased, the energy for the operation of the lock 290 is increased, and there is a disadvantage in that the operation of the lock 290 cannot be performed smoothly when foreign matters are introduced into the storage space.

An object of the present invention for improving the conventional problems as described above, to facilitate the operation of the gate door door, facilitate the discharge of the sediment loaded during the operation of the door door door, sediment on the upper door door frame It provides a traffic door system using buoyancy to minimize the accumulation of traffic, and to use economically by appropriately adjusting the amount of water stored when using the traffic door, and to maintain the traffic door door, and to provide a method of operating the traffic door door.

The present invention, in order to achieve the above object, the passage door doors respectively installed on both sides of the passage door is raised by the first hydraulic cylinder while the buoyancy of the water supplied by the buoyancy of the water supply door rotates around the inner bottom of the passage door to the top It provides a way of operating a doorway using buoyancy to store a certain amount of water in which the vessel is suspended.

In addition, the present invention provides a method of operating a traffic door using buoyancy to determine the position of the traffic door door to be rotated up and down by buoyancy provided with a locking unit in the circumferential direction drawn by the traffic door door.

In addition, the passage door door of the present invention provides a method of operating the door door using the buoyancy buoyancy and gravity are installed by the fluid supplied from the outside to form a closed space so that buoyancy acts.

Meanwhile, the passage door door frames are installed on the bottom of the passage door having a certain length, respectively, and one end of the passage door door which is installed to generate buoyancy is rotated by the pivot and the first hydraulic cylinder. Is connected to, the supply of water between the two doors of the door to the door door to the door to increase the rotation by buoyancy, the locking unit is installed on the side of the door of the door when the door is raised door door is fixed to fix the door door Provides a door system using buoyancy.

The locking unit provides a passage door system using buoyancy which is connected to the cylinder so as to protrude from the side of the passage door and is in close contact with the fixing groove of the passage door door.

In addition, a rubble prevention gate door frame is installed on one side of the passage door door frame while a rubble prevention gate door frame is installed, and the rubble prevention gate door frame is connected as a second hydraulic cylinder while a rubble prevention gate is installed at the end of the passage door door frame so as to contact the buoyancy. Provides a doorway system for use.

In addition, the passage door door frame is connected to the passage pipe is installed to enable the inflow of air due to the pressure difference, the buoyancy buoyancy is installed to expose the outer side of the passage door door to the recovery pipe connected to the water pump is installed at the bottom of the inclined surface Provides a doorway system using the.

In addition, the passage door side is provided with a waterproof louver that is in close contact with the passage door door to be rotated by buoyancy, and provides a passage door system using a buoyancy buoyancy frame and a stop-prevention louver, respectively.

The passage door door provides a passage door system using buoyancy in which at least one buoyancy sphere having a closed space is integrally connected.

In addition, the buoyancy sphere of the present invention provides a passage door system using a buoyancy force is connected to the supply pipe is connected to the fluid supply unit to supply air or water to the closed space from the outside.

According to the present invention as described above, the operation of the gate door gate by the hydraulic and buoyancy is made smoothly, the sediment loaded during the operation of the gate door gate is easily discharged by the pressure difference and the water pump, the rubble prevention guide Through this, the accumulation of sediment is minimized, and the amount of water stored at the time of use of the traffic door is properly adjusted to enable economical use, and the maintenance of the traffic door is easy through the stop log.

1 is a perspective view showing a conventional passage door.
Figure 2 is a perspective view showing a traffic door according to the present invention.
3 is a sectional view showing the main parts of a traffic door according to the present invention.
Figure 4 is a side view showing the operating state of the traffic door according to the present invention.
Figure 5 and Figure 6 is a perspective view showing the operating state of the gate door door installed in the traffic door according to the present invention, respectively.
Figure 7 is a side view showing the operating state of the door door door installed in the traffic door according to the present invention.
8 is a perspective view showing a state of use of the doorway door door according to another embodiment of the present invention.
9 is a perspective view showing a state of use of the doorway door door according to another embodiment of the present invention.

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

Figure 2 is a perspective view showing a traffic door according to the present invention, Figure 3 is a sectional view showing the main part of the traffic door according to the present invention, Figure 4 is a side view showing the operating state of the traffic door according to the present invention, Figure 5 And Figure 6 is a perspective view showing the operating state of each door door door installed in the traffic door according to the present invention, Figure 7 is a side view showing the operation state of the door door door installed in the traffic door according to the present invention, Figure 8 9 is a perspective view illustrating a state of use of a traffic door door according to another embodiment of the present invention, and FIG. 9 is a perspective view illustrating a state of use of a traffic door door according to another embodiment of the present invention.

The present invention is supplied when the passage door doors 110, which are respectively installed to be spaced apart from both sides of the passage door 100 having a groove shape having an open or closed top, are rotated by the first hydraulic cylinder 119, and are raised. The buoyancy force of the water acts on the inner door of the passage 100 to rotate the door door 110 is rotated to the upper to store a certain amount of water in which the vessel (S) is suspended.

In this case, a plurality of locking units 170 are provided in the circumferential direction of the passage door gate 110 to determine the position of the passage door gate 110 that is upwardly rotated by buoyancy.

In addition, only one locking unit 170 may be installed at the fully elevated position of the doorway door controller 110.

In addition, the passage door door 110 is a closed space is formed so that buoyancy by the water acts.

At this time, the passage door door 110 may be installed in the closed space so that buoyancy and gravity act by the air or water supplied from the outside.

On the other hand, the present invention is spaced on the bottom surface of the passage door 100 having a predetermined length is provided with a passage door door frame 150, respectively.

At this time, the deposit storage space (R) is formed in the bottom of the inner passage of the passage door 100 in the bottom of the passage door door 110 connected to the passage door door frame 150.

In addition, one side of the passage door door 110, which is installed to generate buoyancy is connected to the passage door door frame 150 so as to be rotatable through the pivot 115, respectively.

At this time, the passage door door 110 is provided with a buoyancy port 117 to generate buoyancy on one side of the frame 113 having a flat plate shape, the passage door door 110 is the lower end of the frame 113 When both sides are pivotally connected to the passage door door frame 150, respectively, it is supported as a first hydraulic cylinder 119 connected to the frame 113 and the passage door door frame 150 and installed to ascend and descend.

In addition, the locking unit 170 is installed on the side of the passage door 100 when the passage door door 110 is raised to protrude the passage door door 110 to be fixed.

At this time, the passage door door 110 is formed with a fixing groove 112 into which the locking unit 170 is inserted at one side of the frame 113.

In addition, the locking unit 170 is connected to the cylinder 171 is installed to protrude from the side of the passage door (100).

In addition, the locking unit 170, a plurality of spaced apart on the side of the passage door to be positioned on the circumference of the passage door door 110 is installed.

In addition, the rubble prevention gate door frame 180 is installed while the inclined surface 151 is formed in the storage space R formed in the passage door door frame 150.

At this time, the rubble prevention gate door frame 180 is connected to the second hydraulic cylinder 181, the rubble prevention gate 185 is rotatably connected to the end of the passage door door frame 150 to contact.

In addition, the passage door door frame 150 is connected to the vent pipe 157 is installed so that the inflow of air by the pressure difference is possible.

In addition, while the underwater pump 182 is installed on one side of the rubble prevention gate door frame 180, the recovery pipe 184 connected thereto is installed to be exposed to one side of the passage door door (110).

In addition, the passage door (100) side is provided with a waterproof louver (160) in close contact with the passage door door to be rotated up and down by buoyancy.

In addition, the passage door 100 is provided with a stop log frame 141 and the collision preventing louver 145.

In addition, the buoyancy port 117 is connected through the fluid supply unit 112 and the supply pipe 114 to supply air or water from the outside inside the sealed space.

The rubble prevention gate 185 is further provided with a screen 187 on one side to screen foreign matter suspended therein.

The operation of the present invention constructed as described above will be described.

As shown in Figures 2 to 9, the present invention, when the water flows into the passage door 100, one passage door door 110 is installed on one side of the passage door 100, the first hydraulic cylinder ( 119), the buoyancy force acting on the incoming fluid when the ascension is facilitated, the ascension of the door gate door is easy.

In addition, if the passage door door 110 of the other side of the passage door 100 as well as the first hydraulic cylinder 119 ascending operation, the passage door door 110 is easily lifted by buoyancy due to the fluid. .

At this time, the first hydraulic cylinder 119 of the passage door door 110 to be rotated as described above does not need to perform only the role of the guide or the operation by the high pressure is to save energy.

In addition, the passage door door 110 is rotated to the upper to allow a certain amount of water to be stored in the ship (S) to be able to pass from the bottom of the passage door with a water level difference to the top.

At this time, by having a plurality of locking units 170 in the circumferential direction drawn by the passage door gate 110 to fix the passage door gate 110 to be raised and rotated by buoyancy to store a certain amount of water for a predetermined time.

In addition, the passage door door 110 is a buoyant space is formed in the buoyancy sphere 117 so that buoyancy acts to supply the compressor or water supplying high-pressure air by allowing buoyancy and gravity to act by the fluid supplied from the outside. When air is introduced into the sealed space during the operation of the fluid supply unit 112 formed as a pump, buoyancy is generated, and when water is introduced, the weight of the entire doorway door 110 is increased to reduce energy waste due to the drop. A rapid descent is made while reducing.

On the other hand, a deposit storage space (R) is formed in the bottom of the passage door door frame 110 connected to the passage door door frame 150 is formed in the inner bottom of the passage door 100 when the passage door door 110 is raised As the sediment is collected, it is collected.

When the passage door door 110 is opened, a pressure difference is generated in the storage space R due to the pressure difference of water flowing along the passage door door 110, and a pipe installed in the passage door door frame 150. When the pressure difference is generated through 157, air is introduced to move the deposit toward the submersible pump 182.

At this time, the rubble prevention gate door frame 180 is installed in the storage space (R) is connected to the second hydraulic cylinder 181, the rubble prevention gate 185 which is in contact with the end of the passage door door frame 150 is connected The sediments contained in the water by the vortex form a wall to prevent the storage space (R) from entering.

In addition, the rubble prevention gate 185 is further provided with a screen 187 protruding to one side or integrally installed to protrude to one side by the pressure of the fluid on one side to screen the foreign matter floating to rubble rubble prevention gate or gate door It can prevent the malfunction of the.

Then, one side of the rubble-preventing gate door frame 180 is installed with an underwater pump 182 connected to this while the foreign matter recovery pipe 184 connected to the passageway door is discharged to the outside of the passageway gate door 110 of the deposit. Do it.

In addition, the submersible pump 182 is to supply water from the outside of the passage door door to the inside of the passage door door 110 on both sides.

In addition, the rubble prevention gate door frame 180 is connected to the second hydraulic cylinder 181 while the rubble prevention gate 185 is connected to the end of the passage door door frame 150 is installed to prevent the back of the earth and sand.

In addition, the rubble-preventing gate door frame 180 is in contact with the passage door door frame 150 during rotation to form a sealed space inside the storage space (R) to prevent the soil from accumulating when water flows through the passage door. .

In addition, the passage door door 110, the plurality of first buoyancy sphere 117 is connected to the frame 113, the plurality of first hydraulic cylinder 119 is connected to one side by the pressure of the fluid and buoyancy is raised Rotation is possible.

In addition, the locking unit 170 is installed on the side of the passage door 100 when the passage door door 110 is raised to fix the passage door door 110 to fix the door door door 110, the frame of the door door door 110 (113) On one side, a fixing groove 112 into which the locking unit 170 is inserted is formed to be firmly supported.

In addition, the passage door (100) side is provided with a waterproof louver (160) in close contact to correspond to the passage door door 110 to be rotated by buoyancy to prevent water leakage.

At this time, the waterproof louver 160 may be integrally installed in the passage door door 110.

In addition, the passage door 100 is provided with a stop log frame 141 and the collision prevention louver 145 to prevent the inflow of water during maintenance of the passage door door of the ship passing through the inside of the passage door 100 It will prevent breakage.

On the other hand, the locking unit 170, a plurality of spaced apart on the side of the passage door 100 to be positioned on the circumference of the passage door door 110, the inclination angle of the passage door door 110 is adjusted It is possible to control the amount of water that is located and stored.

100 ... Passenger Gate 110 ... Passenger Gate Gate
113 Frame 117 Buoyancy
150 ... Passenger Door Door Frame ...
170 ... locking unit

Claims (12)

The passage door door frames are respectively installed to be spaced apart from the inner bottom of the passage door having a ditch shape, and the passage door doors are connected to the passage door doors, and the passage door doors are buoyant to generate buoyancy on one side of the frame having a flat plate shape. A sphere is provided, and the passage door door is supported as a first hydraulic cylinder connected to the frame and the door door frame when both ends of the lower end of the frame are pivotally connected to the door door door frame, and are installed so as to rotate up and down,
When the water flows into the inside of the passage door doors respectively installed on both sides of the passage door, the passage door door is installed by the first hydraulic cylinder and the buoyancy port to rise, and the locking is installed so as to be exposed on the inner side of the passage door, respectively. The unit is installed to be fixed to both sides of the upper part of the door door door in the upward rotation of the door door door,
The locking unit is a passage door system using buoyancy which is connected to the hydraulic cylinder so as to protrude and receive from the side of the passage door and is inserted into the fixing groove provided on the top of the passage door door. delete According to claim 1, wherein one side of the passage door door frame is formed with an inclined surface rubble prevention gate door frame,
The rubble prevention gate door frame is connected to the second hydraulic cylinder, the rubble prevention gate is installed so as to contact the end of the passage door door frame so that the contact gate door system using buoyancy, characterized in that the upward rotation when the passage door gates rise. According to claim 3, The passage door door is connected to the pipe so that the air can be introduced by the pressure difference to move the earth and sand to the water pump side,
The rubble-prevention gate door frame is a submersible pump is installed to be connected to the recovery pipe is connected to the outside of the passage door to the water inlet or discharge the soil, characterized in that the passage door system using buoyancy. The barrel using buoyancy according to claim 1, wherein watertight louvers are provided on the sideways of the doorway door door or the doorway so that watertight louvers are provided in close contact with the doorway door door that is lifted up and rotated by buoyancy or the first hydraulic cylinder. Front door system. According to claim 1, The passage door, the passage door system using a buoyancy, characterized in that the stop-log frame for the stop log is mounted is provided on both sides of the passage door rubbing to each other on the inner side of the passage door. According to claim 1, The buoyancy port, the passage door system using buoyancy, characterized in that the supply pipe is connected to the fluid supply unit for supplying air or water to inject water or air inside the sealed space. The traffic door according to claim 1, wherein the locking unit is provided with a plurality of spaced apart from the side of the traffic door to be positioned on the circumference of the traffic door door to adjust the fixed angle of the traffic door door. system. The method of claim 3, wherein the rubble-prevention gate, the passage door system using buoyancy, characterized in that the screen is further installed on one side to screen the foreign matter suspended. As a method of operating a traffic door using the traffic door system of claim 1
A step of installing the doorway doors on both sides of the inside of the doorway in the shape of a ditch so that buoyancy and gravity act by the fluid supplied from the outside by forming a sealed space integrally;
Supplying water to the inside of the passage door;
Rotating the traffic door door to the upper side about the inner bottom of the traffic door by buoyancy of water supplied while the traffic door door is raised and rotated by the first hydraulic cylinder;
A method of operating a traffic door using buoyancy, which is a step of storing a certain amount of water in which a ship floats inside the lock door as a locking unit after the traffic door doors of both sides of the traffic door are raised. 11. The method according to claim 10, wherein the passage door door is provided with a locking unit on a circumference of the door door door to fix the passage door door which is raised and rotated by buoyancy. delete

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