KR100909485B1 - Hydrostatic floodgate winch - Google Patents

Abstract

A floodgate using a hydraulic winch is provided to remove foreign materials positioned at the bottom side of the floodgate so that the floodgate is always closed completely. A floodgate using a hydraulic winch comprises a lifting cylinder(100) located in the internal space of a gate frame(2) in which a floodgate(1) is combined, a coupling member(110) which is connected to the floodgate and the lifting cylinder to lift the floodgate and consists of a joint(111) combined to the upper end of the floodgate and a support(112) extending to one side of the joint, a housing ring(120) whose bottom is welded or combined by bolt/nut to the top of a piston(101) and in which a housing hole is formed to receive a part of the support, a guide plate(122) in which a guide hole guiding up-and-down movement of the piston of the lifting cylinder is formed in the vertical direction, a locking member(130) which controls the height of the floodgate easily and supports it stably when opening or closing the floodgate partly, and a foreign substance discharge device which is formed on both rear sides of the gate frame and moved in and out of the gate frame to remove foreign materials located beneath the floodgate.

Description

Hydraulic Static Floodgate Winch

The present invention relates to a hydraulic lifting sluice that can prevent water from flowing back to farmland due to heavy rains because the floodgates are not completely closed by foreign substances located on the floor when the floodgates are closed due to heavy rains. .

In order to drain the lowland water into the river, a sluice is installed at the dike between the drainage basin and the stream.If the water level is low, the sluice is opened so that the drainage water can be discharged as it is. When it is high, the water in the stream flows back to the basin, so the floodgate is closed to prevent the backflow, while operating the drain pump to discharge the drainage water into the stream.

The drainage pump is installed on the dike so that the water from the drainage can be discharged to the river after the water in the drainage is lifted up to the dike, but this is not the case of directly discharging water from the drainage through the water gate, Since a large amount of power is required, maintenance costs are high, and a reservoir is needed to temporarily collect water, which requires a lot of land and manpower to construct and manage a drainage pumping station.

In order to solve the above problems, as a conventional example, registered utility model No. 20-0386545 is well known. The prior art is to install a discharge pump for discharging the water to the drainage gate, the barrier plate is installed to block the discharge port installed in the discharge pump, the discharge pump is operated by the rotational force transmitted from the gear box, the discharge The motor for driving the pump is installed at the upper part of the water gate, but the rotational force of the motor can be transmitted to the gearbox by the power transmission means, so that the outlet can be secured without using the underwater motor, while the large amount can be discharged. It is easy to install, easy to manage and cost, and prevents accidents caused by leakage.

However, the above-mentioned conventional technology causes a failure in the discharge pump when foreign matter is introduced into the discharge pump. Therefore, the foreign matter caught in the screen is installed as a dirt removal plate after the screen is installed across the waterway in front of the water gate. While the inconvenience of having to install a vibration damper to remove, there is a disadvantage that the installation and operation of the vibration damper is expensive.

The present invention has been made to solve the above problems of the prior art, when the water level of the river due to heavy rains to close the water gate to block the backflow of the water to the reservoir to easily remove foreign substances located in the lower side of the water gate It is an object of the present invention to provide a hydraulic lifting gate that can be removed to prevent the gate from closing completely.

Another object of the present invention is to open and close the water gate completely, or to easily open and close the water gate when partially opened and closed, as well as to maintain a stable fixed state of the water gate even if the hydraulic pressure in the lifting cylinder It is also in providing hydraulic lifting gates.

The means of the present invention for achieving the above-mentioned many objective objects is installed in various related waterways of rivers or rivers in order to control the flow rate flowing into the rivers or rivers for use as agricultural or industrial water to adjust the flow rate while lifting In the hydrology used to

A coupling member comprising an elevating cylinder positioned inside the door frame to which the hydro gate is coupled, a coupling portion coupled to an upper end of the hydro gate, a support portion extending to one side of the coupling portion, and an upper end of the piston of the elevating cylinder; Is coupled to the center, the receiving ring is formed in the receiving hole wider than the diameter of the support portion, the guide plate is formed in the door frame and guide holes for guiding the up and down movement of the piston included in the lifting cylinder, Locking member which is located in the inner space of the door frame to control and support the operation of the water gate, and foreign matter discharge means for removing the foreign matter located on the bottom of the door frame is located on the back of the door frame and rotated to the inside / outside of the door frame Characterized in that configured to include.

Another means of the present invention for achieving the above-mentioned many objectives is installed in various waterways of rivers or rivers in order to control the flow rate flowing into the river or river for use as agricultural or industrial water, In the hydrology used to control

A coupling member comprising an elevating cylinder positioned inside the door frame to which the hydro gate is coupled, a coupling portion coupled to an upper end of the hydro gate, a support portion extending to one side of the coupling portion, and an upper end of the piston of the elevating cylinder; Is coupled to the center, the receiving ring is formed in the receiving hole wider than the diameter of the support portion, the guide plate is formed in the door frame and guide holes for guiding the up and down movement of the piston included in the lifting cylinder, Is disposed on the rear of the door frame is rotated to the inside / outside of the door frame and foreign matter discharge means for removing the foreign material located on the bottom surface of the water gate, a plurality of hooks are arranged on the upper side of the water gate and coupled to the top of the door frame A support beam, a rail portion positioned at a lower end of the support beam and formed in the longitudinal direction of the support beam, and accommodated in the rail portion; A movable member formed with a ring portion inserted into / detached from the hook portion at a lower side of the ringer, and fixed and received by one side of the rail portion and coupled to one side of the movable member to move the movable member in both directions; It characterized in that it comprises a means.

Hydraulic hoisting gate according to the present invention can easily remove the foreign matter by the rotational movement of the foreign matter discharge means when the water gate to close the water gate to block the backflow of the water as the water level in the river due to heavy rain As a result, the floodgate can be prevented from being completely closed, thereby preventing the failure of the floodgate in advance and effectively preventing the water from flowing back into the farmland.

In addition, the locking member and the fixing means applied to the present invention is to sustain the water gate when the water gate is lifted to the upper side of the door frame so as to distribute the load concentrated on the lifting cylinder to control the lifting of the water gate to continue the life of the lifting cylinder Not only can it be maintained, but there is an advantage that the sluice cylinder can sustain the open state even if the hydraulic pressure in the lifting cylinder supporting the sluice.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be more apparent.

<Example 1>

1 is an overall configuration diagram of a hydraulic lifting gate according to the present invention, Figure 2 is a view showing the operating state of the locking member applied to the hydraulic lifting gate according to the present invention, Figure 3 is a plan view of the hydraulic lifting gate according to the present invention 4 is a detailed view of the guide plate applied to the hydraulic lifting gate according to the present invention, FIG. 5 is an embodiment showing an operating state of the foreign matter discharge means applied to the hydraulic lifting gate according to the present invention, and FIG. According to the embodiment showing the operating state of another foreign matter discharge means applied to the hydraulic winch.

1 to 6, the hydraulic lifting door according to the present invention is the lifting cylinder 100, the coupling member 110, the receiving ring 120, the guide plate 122, the locking member ( 130, and composed of foreign matter discharge means 140.

The lifting cylinder 100 is a normal hydraulic cylinder as the piston 101 is elevated as the hydraulic pressure is injected or discharged, this cylinder is located in the inner space of the door frame 2 to which the water gate (1) is coupled.

In addition, the piston 101 of the lifting cylinder 100 has a separate cylinder protection cover 4 for preventing the piston 101 of the lifting cylinder 100 from being rusted by water or other foreign substances. Is coupled through a string (not shown), etc., the cylinder protection cover 4 is formed to be wrinkled as a whole so that it can be moved up and down smoothly with the piston 101 of the lifting cylinder 100.

In addition, a plurality of water-resistant rubbers 3 are attached to the outer circumferential surface of the water gate 1 so that when the water pressure is applied, the water-tightness of the water gate 1 is performed by closely contacting the water gate 1 to the door frame 2. To be preserved.

In addition, the buckling prevention plate 103 is coupled to the upper end of the piston 101 of the elevating cylinder 100 through the anchor bolt, the anchor nut is generated when the piston 101 of the elevating cylinder 100 is elevated The buckling phenomenon is effectively prevented and unnecessary foreign substances such as dust, water, insects, and the like are prevented from flowing into the lifting cylinder 100.

And the door frame (2) is open side and a plurality are installed spaced apart at regular intervals.

Further, the first and second watertight wedges 10 and 20 formed of the inclined portions 11 and 21 and the contact surfaces 21 and 22 are formed at the lower sides of the water gate 1 and the door frame 2, respectively. The first watertight wedge 10 of 1) is formed so that the contact surface 12 faces upward, and the second watertight wedge 20 of the door frame 2 is formed so that the contact surface 22 faces downward. As the water gate 1 is lowered by the cylinder 100, when the contact surfaces 12 and 22 of the first and second watertight wedges 10 and 20 are in contact with each other, the water gate 1 is connected to the door frame 2. It is completely adhered to the side wall, effectively blocking the flow of river water back to farmland.

The coupling member 110 is connected to the sluice 1 and the lifting cylinder 100 to be provided to lift the sluice 1, consisting of a coupling portion 111 and the support 112, the coupling The unit 111 is formed in a quadrangular shape and coupled to an upper end of the water gate 1 through an anchor bolt and an anchor nut, and the support part 112 is formed in a cylindrical shape and extends to one side of the coupling part 111. Is formed.

In addition, the support portion 112 is further connected to the control unit is further attached to the laser measuring instrument 113 for receiving a power supply through the control unit to emit a laser, the laser measuring unit 113 is to be described later locking member 130 To keep the water gate (1) stable.

The receiving ring 120 is made of an elliptical shape and the bottom is coupled to the upper end of the piston 101 of the lifting cylinder 100 by welding or bolts / nuts.

In addition, a receiving hole 121 is formed in the center of the receiving ring 120, a part of the support 112 is mounted, one side of the support 112 passes through the receiving hole 121 to be described later locking member 130 is located in close proximity to the location.

The receiving hole 121 of the receiving ring 120 has a diameter about three times or more wider than the diameter of the supporting part 112, which is as the piston 101 of the lifting cylinder 100 descends the water gate 1 ) When the first and second watertight wedges 10 and 20 are closed so that the sluice 1 is completely in contact with the door frame 2 so that the coupling member 110 coupled to the upper side of the sluice 1 is closed. This is to allow the support part 112 to naturally move in the direction in which the sluice 1 is in close contact.

The guide plate 122 is provided to allow the piston 101 of the lifting cylinder 100 to move up and down in a stable state, and the piston 101 of the lifting cylinder 100 moves up and down. A guide hole 123 for guiding movement is formed in the vertical direction of the guide plate 122, and the guide plate 122 is a guide of the guide plate 122 when the inside of the door frame 2 is described in more detail. The hole 123 is positioned to face the open portion of the door frame 2.

In addition, the lower portion of the guide hole 123 is formed to be curved to one side or the diameter of the guide hole 123 is preferably larger than the diameter of the piston 101 included in the lifting cylinder 100, which is As the piston 101 of the elevating cylinder 100 descends, when the water gate 1 is closed, the first and second watertight wedges 10 and 20 are in contact with each other so that the water gate 1 is connected to the door frame 2. Since the piston 101 of the lifting cylinder 100 is also moved in close contact with it, the piston 101 is to be naturally received in the curved portion of the guide hole 123 while descending, or on the guide hole 123 This is to allow you to move naturally.

When the locking member 130 partially opens and closes the water gate 1 as shown in FIG. 2, the locking member 130 easily controls the height of the water gate 1 and supports it more stably. The lifting cylinder 100 for lifting the sluice is provided to prevent the slug from falling down irrespective of the intention of the manager because the hydraulic pressure of the inside is constantly finely removed over time. As such, the locking member 130 includes a first locking portion 131 and a second locking portion 134.

The first locking portion 131 is located in the inner space of the door frame 2 and has a rectangular shape, and a plurality of protrusions 132 and the seating portion 133 cross each other in a vertical direction, and the seating portion One side of the support part 112 is described in more detail at 133, where the laser measuring instrument 113 of the support part 112 is formed.

The second locking portion 134 has a rectangular shape and a lower end thereof is coupled to the upper end of the buckling preventing plate 103 by bolts / nuts or welding, and includes a plurality of insertion holes 135 and a detection sensor 138. ) Are formed at equal intervals, and the first and second locking parts 131 and 134 are coupled to each other because the protrusion 132 is inserted into the insertion hole 135.

 In addition, a locking cylinder 136 for controlling the left and right movement of the first locking portion 131 is coupled between the upper side and the lower side of the first and second locking portions 131 and 134, and the locking cylinder 136 Piston 137 is coupled to the first locking portion 131, the locking cylinder 136 is coupled to the second locking portion 134, the locking cylinder 136 is a hydraulic pump (not shown) and Is connected to the state in which the hydraulic pressure is normally filled inside, the hydraulic pump is electrically connected to the control unit (not shown) to inject or discharge the hydraulic pressure to the cylinder for the locky by the signal of the control unit (not shown).

Briefly describing the driving process of the locking member 130 configured as described above are as follows.

First, when the floodgate 1 moves up and down and the laser light of the laser measuring instrument 113 included in the support part 112 is directed to the detection sensor 138 of the second locking part 134, the detection sensor 138 is This signal is sensed and transmitted to the control unit, and the control unit receives the signal transmitted from the sensor 138 to operate the hydraulic pump to discharge the hydraulic pressure flowing into the locking cylinder 136. In this case, the piston 137 of the locking cylinder 136 is moved toward the locking cylinder 136 side, whereby the first and second locking parts 131 and 134 are in close contact with each other, and thus the protrusion 132 of the first locking part 131 is closed. ) Is passed through the insertion hole 135 of the second locking portion 134 to support the support 112 of the coupling member 110, the water gate 1 is stopped.

In addition, since the plurality of detection sensors 138 are formed in the lengthwise direction of the second locking portion, the opening and closing of the water gate can be made possible by the user's control as well as the partial opening and closing of the water gate. Even if the hydraulic pressure is released to the cylinder 100, the water gate supported by the seating portion 133 of the first locking portion 131 may achieve a stable fixed state without falling down.

And, as described above, since the lifting cylinder 100 and the locking member 130 support the water gate together, the load of the water gate is distributed to maintain the life of the lifting cylinder 100 continuously.

On the contrary, when hydraulic pressure is injected into the locking cylinder 136, the pistons 137 of the locking cylinder 136 are moved in one direction, so that the first and second locking parts 131 and 134 are spaced apart, and thus the first locking part ( The protrusion 132 of the 131 is accommodated in the insertion hole 135 of the second locking portion 134 so that the water gate 1 can move up and down again.

 As shown in FIG. 5, the foreign matter discharge means 140 has foreign substances such as stones and tree branches located under the water gate 1 when the water gate 1 is closed due to a heavy rain. It is provided to prevent the breakdown of the water gate (1) and the water of the river flow back to the farmland, etc. are formed on both sides of the back of the door frame (2), the housing 141 and the rotating cylinder 142 And a rotating body 143 and a foreign matter discharge plate 145.

The housing 141 is positioned on both sides of the rear surface of the door frame 2 and has a rectangular box shape inside.

The rotating cylinder 142 is formed in the interior space of the housing 141, the piston 142 'is moved to the left and right as the hydraulic pressure is injected or discharged.

One side of the rotating body 143 is rotatably coupled to the piston 142 'of the rotating cylinder 142 is rotated in both directions as the piston 142' is moved left and right, the other side the rotating body 143 Is rotated together with the rotating shaft 144 is provided.

The foreign matter discharge plate 145 is installed on the rotation shaft 144 and rotated to the inside / outside of the door frame 2 by the rotational force of the rotation shaft 144 to store the foreign matter accumulated on the foreign matter discharge plate 145 on the stream. Alternatively, when the water gate 1 is closed by moving to the inside of the water gate 1, the water gate 1 is prevented from being completely closed due to the foreign matter, and the foreign matter discharge plate 145 is connected to the ceiling of the waterway during the rotation process. When the foreign matter is in close contact with the foreign matter discharge plate 145 is closed, such as the water gate (1) in order to block the discharge of water in the foreign matter discharge plate 145 by punching a plurality of discharge holes in the foreign matter discharge plate 145 In this rotating process, it is desirable to be able to discharge the foreign matter without blocking the waterway.

Figure 6 is an embodiment of the foreign matter discharge means according to the present invention.

As shown in FIG. 6, the foreign substance discharging means 150 includes a housing 151, a moving plate 152, a moving cylinder 154, a rotation shaft 156, and a foreign substance discharge plate 158. Is done.

The housing 151 is located on both sides of the rear surface of the door frame 2 and has an inner rectangular box shape, and the bottom surface is further cut to form an empty space.

The movable plate 152 is located in an empty space in which the bottom surface of the housing 151 is cut, and a rack 153 is formed on the upper surface.

The moving cylinder 154 of the piston 155 is connected to one side of the moving plate 152, the piston 155 is moved left and right as the hydraulic pressure is injected or discharged to move the moving plate 152 to the left and right Let's do it.

The pivot shaft 156 is positioned above the movable plate 152, and a pinion gear 157 meshed with the rack 153 of the movable plate 152 is formed at an outer circumference thereof to form the movable plate 152. ) Is rotated left and right as it is moved left and right.

The foreign matter discharge plate 158 is installed on the rotation shaft 156 and rotated inward / outward of the door frame 2 by the rotational force of the rotation shaft 156 to store foreign substances accumulated on the foreign matter discharge plate 158. When closing the water gate 1 by moving to the inside of the river or the water gate (1) to prevent the phenomenon that the water gate (1) is caught in the foreign material does not close completely, such foreign matter discharge plate 158 is a plurality of discharge holes perforated foreign matter In the process of rotating the discharge plate 158, it is preferable to allow the foreign substances to be discharged without blocking the water channel.

<Example 2>

7 is an overall configuration diagram of another hydraulic lifting gate of the present invention, Figure 8 is an enlarged view of the coupling portion and the fixing means of another hydraulic lifting gate of the present invention, Figure 9 is another hydraulic lifting gate of the present invention Figure 10 is a detailed view of the guide plate applied to, Figure 10 is a view showing the operating state of the foreign matter discharge means applied to the hydraulic lifting gate of the present invention, Figure 11 is another foreign matter discharged to the hydraulic lifting gate of the present invention Figure showing the operating state of the means.

As shown in Figure 7 to 11, the hydraulic lifting door (1) according to the present invention is the lifting cylinder 200, the coupling member 210, the receiving ring 220, the guide plate 222, Consists of the foreign matter discharge means 230 and the fixing means 250.

The lifting cylinder 200 is a normal hydraulic cylinder as the hydraulic pressure is injected or discharged as the piston 221 is lifted, the lifting cylinder 200 is the inner space of the door frame 2 to which the water gate 1 is coupled Is located in.

In the piston 201 of the lifting cylinder 200, a cylinder protection cover 4 for preventing the piston 201 of the lifting cylinder 200 from being rusted by water or other foreign substances has a separate iron band and a string. Is coupled through (not shown), etc., the cylinder protective cover 4 is formed to be wrinkled as a whole so that it can be moved up and down smoothly with the piston 201 of the lifting cylinder 200.

The water rubber 1 is attached to the outer circumferential surface of the water gate 1 so that the watertightness of the water gate 1 can be preserved by performing a function of bringing the water gate 1 into close contact with the door frame 2 when the water pressure is applied. To help.

In addition, the buckling prevention plate 203 is coupled to the upper end of the piston 201 of the lifting cylinder 200 through an anchor bolt, an anchor nut, which is generated when the piston 201 of the lifting cylinder 200 is lifted. It effectively prevents the buckling phenomenon, and blocks unnecessary foreign substances, such as dust, water insects, and the like into the lifting cylinder 100.

And the door frame (2) is installed so that the side is opened and a plurality are spaced at a predetermined interval.

Further, the first and second watertight wedges 10 and 20 formed of the inclined portions 11 and 21 and the contact surfaces 12 and 22 are formed at the lower sides of the water gate 1 and the door frame 2, respectively. The first watertight wedge 10 of 1) is formed so that the contact surface 12 faces upward, and the second watertight wedge 20 of the door frame 2 is formed so that the contact surface 22 faces downward. As the water gate 1 is lowered by the cylinder 200, when the contact surfaces 12 and 22 of the first and second watertight wedges 10 and 20 are in contact with each other, the water gate 1 is connected to the door frame 2. It is completely adhered to the side wall, effectively blocking the flow of river water back to farmland.

The coupling member 210 is connected to the sluice 1 and the lifting cylinder 200 and provided to elevate the sluice 1, and the coupling member 210 includes a coupling part 211 and a support part 212. Part 211 is formed in a rectangular shape and coupled to the top of the water gate 1 through the anchor bolt and the anchor nut, the support portion 212 is made of a cylindrical shape, extending to one side of the coupling portion 211 Is formed.

The receiving ring 220 is made of an elliptical shape and the bottom is coupled to the top of the piston 201 of the lifting cylinder 200, it is coupled by welding or bolts / nuts.

In addition, a receiving hole 221 is formed in the center of the receiving ring 220 is a portion of the support portion 212 is mounted, this receiving hole 221 has a diameter about 3 times or more wider than the diameter of the support portion 212 The first and second watertight wedges 10 and 20 are in contact with each other when the piston 201 of the lifting cylinder 200 is lowered and the water gate 1 is closed. This is to allow the support part 212 of the coupling member 210 coupled to the upper side of the water gate 1 to naturally move in the direction in which the water gate 1 is in close contact with the door frame 2.

The guide plate 222 is provided to allow the piston 201 of the lifting cylinder 200 to move up and down in a stable state, and the piston 201 of the lifting cylinder 200 is moved up and down. A guide hole 223 for guiding movement is formed in the vertical direction of the guide plate 222, and the guide plate 222 is a guide of the guide plate 222 when the inside of the door frame 2 is described in more detail. The hole 223 is positioned to face the open portion of the door frame 2.

In addition, the lower portion of the guide hole 223 is preferably formed to be curved to one side or to make the diameter of the guide hole 223 wider than the diameter of the piston 201 included in the lifting cylinder 200, which is the As the piston 201 of the lifting cylinder 200 descends, when the water gate 1 is closed, the first and second watertight wedges 10 and 20 come into contact with the water gate 1 to the door frame 2. Since the piston 201 of the lifting cylinder 200 is also fully moved together, so that the piston 201 is naturally lowered to be accommodated in the curved portion of the guide hole 223, or naturally on the guide hole 223 To make it move.

As shown in FIG. 8, the fixing means 250 includes a hook part 251, a support beam 252, a rail part 253, a moving member 254, and a moving cylinder 256. It is composed.

The hook portion 251 is placed on the upper side of the sluice 1 and the hole included in the hook portion 251 protrudes to the upper end of the sluice 1.

The support beam 252 is used for the H beam, both sides of the support beam 252 is coupled to the top of the door frame 2 spaced at a predetermined interval through the anchor bolt and the anchor nut.

The rail part 253 is positioned at the lower end of the support beam 252 and is formed in the longitudinal direction of the support beam 252.

The movable member 254 is formed in a rectangular shape and is accommodated in the rail portion 253, and a lower portion of the movable member 254, which is inserted into / deleted from the hook portion 251, faces an approximately “b” shaped ring portion ( 255 is integrally formed.

In addition, the moving member 254 is preferably formed to be shorter than the distance of the door frame 2 spaced apart so as not to be caught in the door frame 2 spaced apart at a predetermined interval when moved to both sides by the moving cylinder (256).

The moving cylinder 256 is a conventional hydraulic cylinder, the piston 257 is moved to both sides as the hydraulic pressure is injected or discharged, the moving cylinder 256 is accommodated on one side of the rail portion 253 is welded or anchored It is fixed through the bolt and the anchor nut, one end of the piston 257 of the movable cylinder 256 is coupled to one side of the movable member 254 by welding or an anchor bolt and an anchor nut.

Referring to the operating state of the fixing means 250 is configured as described above are as follows.

First, when the water gate 1 is raised to the upper portion of the door frame 2 by the lifting cylinder 200, the hydraulic cylinder is injected into the moving cylinder 256 to extend the piston 257 of the moving cylinder 256 in one direction. do. In this case, the movable member 254 is moved to the door frame 2 side by the piston 257 of the movable cylinder 256, and in this process, the ring portion 255 of the movable member 254 is the sluice (1). It is inserted into the hole of the hook portion 251 is placed on, so that the water gate 1 is stably fixed through the hook portion 251 and the ring portion 255.

And, as described above, since the lifting cylinder 100 and the fixing means support the water gate together, the load of the water gate is distributed to maintain the life of the lifting cylinder 100 continuously.

On the contrary, when the hydraulic pressure is discharged to the moving cylinder 256, the moving member 254 also moves to the moving cylinder 256 side as the piston 257 of the moving cylinder 256 moves to the moving cylinder 256 side. In the process, the ring part 255 of the moving member 254 is separated from the hole of the hook part 251 which is placed on the sluice 1, and thus the sluice 1 is able to move up and down again.

The sluice gate 1 is fixed to the hook portion 255 of the movable member 254 through its reinforcing hook portion, even if the hydraulic pressure is released to the lifting cylinder 200, the sluice gate does not go down to a stable fixed state To achieve this.

Since the configuration and operation of the foreign matter discharge means 230,240 operated before the water gate 1 is lowered are the same as the configuration and operation of the foreign matter discharge means 140,150 described with reference to FIGS. 5 and 6, a detailed description thereof will be omitted. .

1 is an overall configuration diagram of a hydraulic lifting gate according to the present invention.

Figure 2 is a view showing the operating state of the locking member applied to the hydraulic winch door in accordance with the present invention.

3 is a plan view of the hydraulic lifting door according to the present invention.

Figure 4 is a detailed view of the guide plate applied to the hydraulic lifting door according to the present invention.

Figure 5 is an embodiment showing the operating state of the foreign matter discharge means applied to the hydraulic lifting gate according to the present invention.

Figure 6 is an embodiment showing an operating state of another foreign matter discharge means applied to the hydraulic lifting gate according to the present invention.

Figure 7 is an overall configuration of another hydraulic lifting gate of the present invention.

Figure 8 is an enlarged view of the coupling portion and the fixing means of the hydraulic lifting door of the present invention.

Figure 9 is a detailed view of the guide plate applied to another hydraulic lifting door of the present invention.

10 is a view showing the operating state of the foreign matter discharge means applied to another hydraulic lifting gate of the present invention.

Figure 11 is a view showing the operating state of another foreign matter discharge means applied to another hydraulic lifting gate of the present invention.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **

1: sluice 2: door frame

3: Index rubber 10: 1st watertight wedge

11 inclined portion 12 contact surface

20: second watertight wedge 21: inclined portion

22: contact surface 100, 200: lifting cylinder

110,210: coupling member 120, 220: receiving ring

122,222: guide plate 130: locking member

140, 150, 230, 240: foreign matter discharge means 250: fixing means

Claims (9)

In the water gate used to control the flow rate while being elevated and installed in various related waterways of the river or river to control the flow rate into the river or river for use as agricultural or industrial water, A lifting cylinder (100) located inside the door frame (2) to which the water gate (1) is coupled; A coupling member 110 formed of a coupling part 111 coupled to an upper end of the sluice 1 and a support part 112 extending to one side of the coupling part 111; A receiving ring 120 coupled to an upper end of the piston 101 of the lifting cylinder 100 and having a receiving hole 121 wider than a diameter of the support part 112 at the center thereof; A guide plate 122 positioned inside the door frame 2 and having a guide hole 123 for guiding up and down movement of the piston 101 included in the lifting cylinder 100; A locking member 130 positioned in the inner space of the door frame 2 to control and support the operation of the water gate 1; And, Located in the rear of the door frame (2) is rotated to the inside / outside of the door frame (2) foreign matter discharge means for removing the foreign matter located on the bottom surface of the water gate (1); hydraulic lifting door comprising a. In the water gate used to control the flow rate while being elevated and installed in various related waterways of the river or river to control the flow rate into the river or river for use as agricultural or industrial water, A lifting cylinder 200 located inside the door frame 2 to which the water gate 1 is coupled; A coupling member 210 formed of a coupling part 211 coupled to an upper end of the sluice 1 and a support part 212 extending to one side of the coupling part 211; A receiving ring 220 coupled to an upper end of the piston 201 of the lifting cylinder 200 and having a receiving hole 221 wider than a diameter of the support part 212 at the center thereof; A guide plate 222 positioned inside the door frame 2 and having a guide hole 223 for guiding up and down movement of the piston 201 included in the lifting cylinder 200; Foreign matter discharge means for removing the foreign matter located on the bottom of the water door (1) is located on the back of the door frame (2) is rotated to the inside / outside of the door frame (2); And, A plurality of hook parts 251 arranged on an upper side of the water gate 1, a support beam 252 coupled to an upper end of the door frame 2, and a support beam 252 located at a lower end of the support beam 252 and the support A moving member 254 having a rail portion 253 formed in the longitudinal direction of the beam 252 and a ring portion 255 accommodated in the rail portion 253 and inserted / removed into the hook portion 251 at a lower side thereof. And a fixing means 250 which is received and fixed to one side of the rail part 253 and is coupled to one side of the moving member 254 to move the moving member 254 in both directions. Hydraulic lifting gate, characterized in that configured including). The method of claim 1, The locking member 130, The first locking portion 131 crosses vertically with the stepped seating portion 133 on which the protrusion 132 and the support 112 of the coupling member 110 are seated, and the protrusion 132 is inserted. Hydraulic lifting door, characterized in that made of a second locking portion 134 formed with a hole (135). The method of claim 3, wherein The hydraulic lifting door, characterized in that the locking cylinder 136 is further coupled between the first locking portion 131 and the second locking portion 134. The method of claim 1 or 3, A plurality of detection sensors 138 are formed at equal intervals on the second locking part 134, and a laser measuring device 113 is further formed on the support part 112 so that the laser light of the laser measuring device 113 is formed. When the sensing sensor 138 of the second locking unit 134 is delivered, the sensing sensor 138 senses it and transmits it to the control unit, and the control unit receives the signal transmitted from the sensing sensor 138 to receive the locking cylinder 136. Operating the hydraulic lifting door characterized in that the support 112 is seated on the protrusion 132 of the first locking portion (131). The method according to claim 1 or 2, The outer peripheral surface of the piston (101,201) included in the lifting cylinder (100,200) is provided with a cylinder protective cover (4) which is fastened to prevent the piston (101,201) of the lifting cylinder (100,200) from being rusted by water or other foreign matter. Hydraulic lifting gate, characterized in that the. The method according to claim 1 or 2, Hydraulic lifting gate, characterized in that the buckling prevention plate (103,203) is further coupled to the upper end of the lifting cylinder (100,200) to prevent the buckling phenomenon of the lifting cylinder (100,200). The method according to claim 1 or 2, The foreign substance discharge means is located on the rear surface of the door frame (2) and the inner space is formed in the housing 141, the rotating cylinder 142 formed inside the housing 141, and one side is the rotating cylinder 142 Rotatingly coupled to the rotatable, the rotating body 143 is provided with a rotating shaft 144 on the other side, and the foreign matter discharge plate 145 installed on the rotating shaft 144 is rotated to the inside / outside of the door frame (2) Hydraulic winch door, characterized in that consisting of. The method according to claim 1 or 2, The foreign substance discharge means is a housing 151, a movable plate 152 formed on the inner bottom surface of the housing 151, the rack 153 is formed on the upper end, and the movement is connected to one side of the movable plate 152 A rotation shaft 156 formed on an outer circumference of the cylinder 154 and a pinion gear 157 positioned on an upper portion of the movable plate 152 and engaged with the rack 153 of the movable plate 152; Hydraulic lifting door coupled to the rotating shaft 156, comprising a foreign material discharge plate 158 is rotated to the inside / outside of the door frame (2).

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