KR20100077506A - Floodgate that use winch - Google Patents

Abstract

PURPOSE: A floodgate using a winch is provided to be stably ascended and descended by supporting both sides of a floodgate body to guide grooves of a floodgate structure. CONSTITUTION: A floodgate using a winch comprises a floodgate body, a skin plate(30), an elastic body, a winch, and a wire rope end assembly. The floodgate is ascended and descended along guide grooves of a floodgate structure(10). The skin plate is installed on the front surface of the floodgate body. The elastic body is installed in the skin plate and is in contact with an elastic body support plate(14). The winch is installed on the top of the floodgate structure and ascends and descends the floodgate body along the guide grooves. The wire rope end assembly is installed on the top of the floodgate structure and is connected to the end of a wire rope.

Description

Floodgate that uses winch {Floodgate that use winch}

The present invention relates to a sluice using a winch, and more specifically, both sides of the sluice body is elevated in a state that is stably supported in the guide groove of the sluice structure, as well as properly supporting the inland sea water pressure is prevented from leaking, It relates to a water gate using a winch that prevents the cylinder from flowing in the horizontal direction when the cylinder is elevated in the vertical direction along the circumference of the inner cylinder.

In general, the hydrologic system is installed on the freshwater facilities such as dams, river embankments, reservoirs, reservoirs, or reservoirs to artificially control freshwater or low yields by controlling drainage and preventing backflow. It is a facility to guarantee the quality.

The structure of such a hydrological system is divided into a hydrological gate and a lifting device for elevating the hydrological gate. When opening the water gate, the hoisting device is driven manually or by electric power to raise the rack bar connected to the center or both sides of the water gate, thus lifting the water gate to open the discharge passage of the waterway. When closing the gate, the elevated gate is lowered by its own weight. That is, the brake means of the hoisting device operates to prevent the reverse rotation of the pinion while the gate is raised, supporting the raised gate. When the gate is lowered, the brake means is released and the gate is lowered by its own weight. To close the release furnace. The sluice of such a sluice system is opened and closed along the guide rails opposite to the sluice sides to open and close the channel.

Such a conventional hydrologic system requires that the gate is correctly seated on the guide rail, the same hydraulic pressure is applied to the entire gate, and both sides of the gate are elevated at the same force and speed in order for the gate to be lifted smoothly along the guide rail.

However, such a conventional hydrological system, both sides of the hydrological gate lifted by the various factors such as mechanical tolerances between the various components of the hoisting device, the vibration caused by the drive of the hoisting device, the hydraulic pressure difference transmitted to the hydrological gate is not elevated under the same conditions You may not be able to. Therefore, both sides of the gate were not lifted stably in the guide rail and were lifted in a twisted state, so the gate was not lifted smoothly.

On the other hand, it is necessary to raise the gate for a certain period of time for drainage or maintenance of the hydrologic system. The raised gate is supported by the brake means of the hoisting device. When the brake means is damaged due to the weight of the gate or the deterioration of the brake unit, the raised gate descends by its own weight, which may cause a safety accident. .

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to provide a water gate using a winch so that both sides of the hydrologic body are elevated in a state stably supported by the guide groove of the hydrologic structure.

Another object of the present invention is to provide a hydrologic gate using a winch that properly supports inshore sea pressure and prevents leakage.

Still another object of the present invention is to provide a water gate using a winch which detects an excessive pulling of an end of the wire rope and compensates for the shaking of the wire rope.

Still another object of the present invention is to provide a water gate using a winch which prevents the outer cylinder from flowing in the horizontal direction when being lifted in the vertical direction along the circumference of the inner cylinder.

Still another object of the present invention is to provide a hydrologic gate using a winch which can reliably support the hydrologic gate in an elevated state.

The sluice body using the present invention winch for achieving the above object, consisting of the upper block and the lower block, they are coupled by a block fixing bolt and block fixing nut, both sides are installed to be elevated along the guide groove of the sluice structure ; A skin plate installed on the front of the hydrologic main body on the outer sea side; An elastic body installed on the skin plate and in contact with a corresponding surface of the guide groove to support water pressure between the circumference of the skin plate and the guide groove and maintain watertightness; A hoisting apparatus installed on an upper portion of the hydrological structure and connected to a wire rope on both sides of the upper hydrologic body, and lifting the hydrological body along a guide groove; And a wire rope end assembly installed at an upper portion of the sluice structure and connected to an end of the wire rope to compensate for the shaking of the wire rope.

Another feature of the water gate using the winch of the present invention, the main track frame is provided on the inner front portion of the guide groove, the elastic support plate is provided on the inner front edge portion of the guide groove, An auxiliary track frame is installed on the inner rear side of the guide groove so as to face the main track frame, and an auxiliary roller rail including a fixing part and a guide protrusion is installed on an inner side of the guide groove.

Another feature of the sluice using the winch of the present invention, the sluice main body, in contact with the main track frame and the auxiliary track frame and roll along it, to support the inward sea water pressure of the sluice main body and to support the front and rear shaking of the sluice main body A plurality of main rollers are installed at equal intervals; A plurality of auxiliary rollers are provided at equal intervals on both sides of the hydrologic main body between the main rollers so as to contact the guide protrusions of the auxiliary roller rails, roll along the support rollers, and support the left and right swings of the hydrologic main body.

Another feature of the water gate using the winch of the present invention, the elastic body is fixed to the elastic fixing bolt and elastic fixing nut on the front surface of the skin plate, and protruding convex toward the elastic support plate in the center of the fixing portion The contact portion is in contact with the elastic support plate, the elastic deformation hole formed so that the elastic deformation and restoring force of the contact portion itself is improved when the contact portion is pressed in the center of the contact portion, and the contact portion is pressed to the opposite side fixing portion When the entire contact portion is pushed to the rear side and the pressure is removed, the elastic deformation groove is formed to restore the contact portion in the pushed state.

Another feature of the water gate using the winch of the present invention, the wire rope end assembly, and the bed is installed on the upper portion of the frame of the sluice structure and a through hole is formed in the center and a spherical groove is formed around the upper edge of the through hole; And an inner cylinder formed at a lower end thereof so as to be in surface contact with the spherical groove of the bed, the inner cylinder having a plurality of guide grooves formed radially in a vertical direction around an outer circumferential surface thereof, and slidingly coupled to an upper portion of the inner cylinder and being guided. An outer cylinder having a plurality of guide protrusions formed on an inner circumferential surface of the inner circumferential surface so as to be lifted along with the lower end, and a lower end penetrates the inner center of the outer cylinder, the inner cylinder and a bed, and is positioned below the frame and an upper end thereof is located above the outer cylinder. A spindle shaft positioned, a nut fastened to an upper end of the spindle shaft, and the spindle shaft A wire rope socket coupled to a lower end and an upper end of the wire rope, a coil spring provided inside the inner cylinder to elastically support the outer cylinder and the spindle shaft, and positioned above the coil spring and positioned above the outer cylinder. It is provided with a disk spring that is provided inside to compensate for the elasticity of the coil spring, and a limit switch that is installed on the outer side of the inner cylinder and the spindle shaft is pulled further downward than the set distance to detect it and transmit it to the controller.

As described above, the hydrological structure is provided with an auxiliary roller rail along the inner side of the guide groove, and the hydrological main body supports the front and rear shaking of the hydrologic main body while supporting the inward sea water pressure of the hydrological main body on both sides thereof. A plurality of main rollers are provided at equal intervals, and a plurality of auxiliary rollers are installed at equal intervals on both sides of the main body of the main rollers to support the left and right swings of the main body. Therefore, the gate is lifted by the guide groove, the auxiliary roller rail and the main rollers and the auxiliary rollers which are lifted along them and lifted in a stable state not to be moved back and forth, left and right. Therefore, since the main body is lifted while being stably supported on the hydrologic structure, the damage and wear of the parts are reduced, and thus the maintenance period is extended accordingly.

The skin plate is provided with an elastic body to support the water pressure between the periphery of the skin plate and the guide groove and to maintain the water tightness. The elastic body has an elastic deformation hole so that the elastic deformation and the restoring force of the contact itself are improved when the contact part is pressed in the center of the contact part. Is formed, and the elastic deformation groove is formed to restore the contact in the pushed state when the entire contact is pushed to the rear side when the contact is pressed to the opposite side fixing portion and the pressure is removed. Therefore, the elastic deformation of the contact itself is made smoothly by the elastic deformation hole of the contact part, and the entire contact part is deformed smoothly by the elastic deformation groove of the fixing part, so it is absorbed to some extent by absorbing the water pressure acting on the body of the water body. Protect the body.

The wire rope end assembly of the present invention elastically supports the end of the wire rope by the coil spring and the disk spring. Therefore, when the end of the wire rope is pulled momentarily downward, the coil spring and the disk spring is compressed and absorbs it, thereby absorbing the shock transmitted to the wire rope to some extent, thereby protecting the wire rope.

The wire rope end assembly is in surface contact so that the spherical groove of the bed and the spherical protrusion of the inner cylinder slide. Therefore, when an impact is generated at the end of the wire rope and shakes horizontally, the spherical protrusion of the inner cylinder slides along the spherical groove of the bed to absorb the impact. Therefore, the horizontal shock is absorbed and canceled to some extent by the bed and the inner cylinder, thereby preventing the wire rope and the spindle shaft from being damaged by the impact.

A plurality of guide grooves are formed radially around the inner cylinder in a vertical direction, and a plurality of guide protrusions are formed on the inner circumferential surface of the outer cylinder to be coupled to the guide groove and to be elevated along the guide cylinder. Therefore, when the outer cylinder is elevated in the vertical direction along the circumference of the inner cylinder is prevented from flowing in the horizontal direction. Therefore, since the outer cylinder is prevented from flowing in the horizontal direction by the guide grooves and the guide protrusions, the limit switch is prevented from escaping from the linear transfer path of the touch part, and thus the limit switch is inoperative despite the lifting of the outer cylinder. Problem is avoided.

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

Figure 1 is a schematic cross-sectional view showing a state in which the water gate using the winch of the present invention is installed, Figure 2 is a schematic front view showing the main part of Figure 1, Figures 3a to 3d is a schematic front view, side view, plan view, A partial enlarged view of the plan view. Figures 4a to 4e is a rear view showing the inland sea main body, a front view, a side view, a plan view, a side cross-sectional view showing the outer sea water main body, Figure 5 is an enlarged cross-sectional view of Figure 4c, Figure 6 is an enlarged cross-sectional view of FIG. to be. Figure 7 is a partially enlarged view showing the winch, Figures 8a and 8b is a schematic front view and plan view showing the power transmission of the winch, Figures 9a to 9c is a front view, side cross-sectional view, partial cross-sectional view showing a wire rope end assembly. to be.

The water gate using the winch of the present invention, the hydrologic main body 20, the skin plate 30, the elastic body 40, the winch 70, the wire rope end assembly 90 is installed so as to be elevated to the hydrologic structure (10) Is done.

In the sluice structure 10, as shown in FIGS. 3A to 3D, a main track frame 13 is provided at an inner front portion of the guide groove 12. An elastic support plate 14 is provided at the inner front edge portion of the guide groove 12 so that the contact portion 42 of the elastic body 40 to be described later is in contact. An auxiliary track frame 15 is installed at the inner rear portion of the guide groove 12 so as to face the main track frame 13. On the inner side of the guide groove 12 is provided an auxiliary roller rail 16 consisting of a fixed portion 17 and the guide protrusion 18. The auxiliary roller 60 to be described later is seated on the guide protrusion 18 of the auxiliary roller rail 16 and guided accordingly.

The sluice body 20 is composed of the upper block 21 and the lower block 22, as shown in Figs. 1, 2, 4A to 4E, and they are a block fixing bolt 23 and a block fixing nut 24. It is coupled by) and both sides are installed to be elevated along the guide groove 12 of the sluice structure (10).

In the hydrologic main body 20, the main rollers 50 and the auxiliary rollers 60 are installed. The main rollers 50 are installed on both sides of the sluice body 20 to be in contact with the main track frame 13 and the auxiliary track frame 15 and to support the water pressure on the inshore side of the sluice body 20 and the hydrological body 20. Support forward and backward shaking. A plurality of auxiliary rollers 60 are provided at equal intervals on both sides of the hydrologic main body 20 between the main rollers 50 to be in contact with the guide protrusions 18 of the auxiliary roller rails 16. Support shake from side to side.

The skin plate 30 is installed on the front surface of the hydrologic main body 20 on the outer sea side as shown in FIGS. 4D and 5, and faces the elastic support plate 14.

As shown in FIGS. 5 and 6, the elastic body 40 is installed around the skin plate 30 and is in contact with the elastic support plate 14 so as to be disposed between the circumference of the skin plate 30 and the elastic support plate 14. To support water pressure and maintain water tightness.

This elastic body 40 consists of the fixing | fixed part 41 and the contact part 42. As shown in FIG. The fixing part 41 is fixed to the front surface of the skin plate 30 with an elastic fixing bolt 45 and an elastic fixing nut 46. An elastic deformation hole 43 is formed in the fixing portion 41. The elastic deformation hole 43 is formed so that the elastic deformation and the restoring force of the contact portion 42 itself are improved when the contact portion 42 is pressed in the center of the contact portion 42.

The contact portion 42 protrudes convexly toward the elastic support plate 14 at the center of the fixed portion 41 and contacts the elastic support plate 14. An elastically deformed groove 44 is formed on the rear surface of the contact portion 42. The elastic deformation groove 44, when the contact portion 42 is pressed against the fixing portion 41 on the opposite side of the contact portion 42, the entire contact portion 42 is pushed to the rear side, and when the pressure is removed, the contact portion 42 in the pushed state is removed. Restore

The winch 70 is installed on the top of the sluice structure 10 and is connected to the upper side of the sluice body 20 by wire ropes 82 and lifts the sluice body 20 along the guide groove 12. Such a winding machine 70 is provided on the upper part of the frame 19 as shown in FIG. 7, FIG. 8A, FIG. 8B, and winds the wire rope 82 to the drum 79. As shown in FIG.

In the winch 70, the bases 71 are installed on both sides of the upper frame 19, the drive motor 72 is installed on the base 71 of one side of the two bases 71, the drive motor A brake 73 connected to the motor shaft of 72 and a speed reducer 74 connected to the brake 73 are provided.

Bases 71 are provided with shafts 75 which are connected to torque shafts 76. The reduction gear 74 is connected to the shaft 75 of one side of the shaft 75, so that the rotational power of the reduction gear 74 is the one shaft 75, the torque shaft 76, the other shaft 75 Is delivered).

Pinions 77 are coupled to the shafts 75, and drum gears 78 are engaged with the pinions 77, and drums 79 are connected to the drum gears 78. Accordingly, when the driving motor 72 is driven, the drum 79 is rotated, and thus the wire rope 82 is wound around the drum 79.

The wire rope 82 is wound around the drum 79 and passes through the upper sheave 80 on one side of the base 83 and passes through the lower sheave 81 on the upper side of the sluice main body 20. 90).

The wire rope end assembly 90 is installed on the top of the sluice structure 10 and connected to the end of the wire rope 82 to absorb and compensate for the shaking and impact of the wire rope 82.

The wire rope end assembly 90 is provided with a bed 91 as shown in Figs. 9A to 9C. The bed 91 is installed on the frame 19 of the sluice structure 10, and a through hole 92 is formed at the center thereof, and a spherical groove 93 is formed around the upper edge of the through hole 92.

The inner cylinder 94 is installed on the upper part of the bed 91. The inner cylinder 94 has a spherical protrusion 95 formed at a lower end thereof so as to be in surface contact with the spherical groove 93 of the bed 91, and a plurality of guide grooves 96 are formed radially along a vertical direction around the outer circumferential surface thereof. It is.

The upper cylinder 97 is coupled to the upper portion of the inner cylinder 94 to slide. The outer cylinder 97, a plurality of guide protrusions 99 are formed on the inner circumferential surface so as to slide coupled to the upper portion of the inner cylinder 94 and coupled to the guide groove 96 to be elevated along it. The touch unit 98 protrudes from the outer circumferential surface of the outer cylinder 97. The touch unit 98 moves up and down together when the external cylinder 97 moves up and operates the limit switch 106 to be described later.

The spindle shaft 100 is provided in the inner center of the outer cylinder 97, the inner cylinder 94, and the bed 91 so as to penetrate them. The spindle shaft 100 has a lower end positioned below the frame 19 and an upper end positioned above the outer cylinder 97. The nut 102 is fastened to the male screw portion 101 at the upper end of the spindle shaft 100.

The wire rope socket 103 is coupled to the lower end of the spindle shaft 100 and the upper end of the wire rope 82, and the outer cylinder 97 and the spindle shaft 100 are burned upward in the inner cylinder 94. The coil spring 104 is provided to support the sexual spring, and the disc spring 105 is provided in the outer cylinder 97 above the coil spring 104 to compensate for the elasticity of the coil spring 104.

A limit switch 106 is provided at one outer side of the inner cylinder 94. The limit switch 106 detects when the spindle shaft 100 is pulled further downward than the set distance so that the touch part 98 of the outer cylinder 97 contacts the limit switch 106 to detect a controller (not shown). To pass).

The water gate using the present invention winch of this configuration is installed to be elevated along the guide groove 12 of the water gate structure 10, as shown in Figs. 1 and 2 to open and close the waterway (11).

When the drive motor 72 of the winch 70 is driven by a controller (not shown), the main track frame 13 of the hydrologic main body 20 is installed in the guide groove 12 of the hydrologic structure 10. And while being in contact with the auxiliary track frame 15 is lifted along it. By the main roller 50, the main track frame 13, and the sub track frame 15, the water gate is lifted stably without shaking in the front-back direction.

On the other hand, the auxiliary roller 60 is seated on the guide protrusion 18 of the auxiliary roller rail 16 and is elevated accordingly. The auxiliary roller 60 not only guides the lifting and lowering of the sluice body 20 but also prevents the sluice body 20 from flowing in left and right directions. Therefore, the sluice main body 20 is lifted stably without moving back and forth, left and right by the main roller 50, the main track frame 13, the auxiliary track frame 15, the auxiliary roller 60, the auxiliary roller rail 16. do.

As such, the water gate lifted by the winch 70 has the following advantages.

First, the submerged roller rail 16 is provided in the sluice structure 10 along the inner side surface of the guide groove 12 as described above, and in the sluice body 20, the inland sea of the sluice body 20 on both sides thereof. A plurality of main rollers 50 are installed at equal intervals so as to support the front and rear shaking of the hydrologic main body 20 while supporting the side water pressure, and the hydrological main body 20 on both sides of the main hydrologic body 20 between the main rollers 50. A plurality of auxiliary rollers 60 are installed at equal intervals to support the left and right shaking of the.

Therefore, the sluice main body 20 is not swayed back and forth, left and right by the guide grooves 12, the auxiliary roller rails 16 and the main rollers 50 and the auxiliary rollers 60 which are brought into contact with and lifted along them. Ascend in the state.

Therefore, since the sluice body 20 is elevated in the stably supported state to the sluice structure 10, the damage and wear of the parts are reduced, thereby extending the maintenance period.

Second, the skin plate 30 is provided with an elastic body 40 to support the water pressure between the circumference of the skin plate 30 and the guide groove 12 and to maintain the water tightness. An elastic deformation hole 43 is formed in the elastic body 40 so that the elastic deformation and the restoring force of the contact part 42 are improved when the contact part 42 is pressed in the center of the contact part 42, and the opposite side of the contact part 42 is provided. When the contact portion 42 is pressed, the fixing portion 41 is formed with an elastic deformation groove 44 so as to restore the contact portion 42 in the pushed state when the entire contact portion is pushed to the rear side and the pressure is removed.

Therefore, the elastic deformation of the contact portion 42 is made smoothly by the elastic deformation hole 43 of the contact portion 42 and the entire contact portion 42 is rearward by the elastic deformation groove 44 of the fixing portion 41. Since it deforms while pushing smoothly, it protects the hydrologic main body 20 by absorbing water pressure acting on the hydrologic main body 20 to some extent.

Third, the wire rope end assembly 90 of the present invention elastically supports the end of the wire rope 82 by the coil spring 104 and the disk spring 105.

Therefore, when the end of the wire rope 82 is momentarily pulled downward, the coil spring 104 and the disk spring 105 is compressed and absorbs it, thereby absorbing some of the shock transmitted to the wire rope 82, and thus the wire Protect the rope 82.

Fourth, the wire rope end assembly 90 is in surface contact so that the spherical groove 93 of the bed 91 and the spherical protrusion 95 of the inner cylinder 94 slide.

Therefore, when an impact is generated at the end of the wire rope 82 and is shaken in the horizontal direction, the spherical protrusion 95 of the inner cylinder 94 slides along the spherical groove 93 of the bed 91 to absorb the shock. Done.

Therefore, since the shock in the horizontal direction is absorbed and offset to some extent by the bed 91 and the inner cylinder 94, the wire rope 82 and the spindle shaft 100 are prevented to some extent from being damaged by the impact.

Fifth, a plurality of guide grooves 96 are formed radially around the inner cylinder 94 in a vertical direction, and a plurality of guide grooves 96 are coupled to the guide grooves 96 on the inner circumferential surface of the outer cylinder 97 to be lifted along the plurality of guide grooves 96. Guide protrusions 99 are formed.

Therefore, when the outer cylinder 97 is lifted in the vertical direction along the circumference of the inner cylinder 94 is prevented from flowing in the horizontal direction. Therefore, since the outer cylinder 97 is prevented from flowing in the horizontal direction by the guide grooves 96 and the guide protrusions 99, the limit switch 106 is prevented from being separated from the linear transfer path of the touch unit 98. Accordingly, the problem that the limit switch 106 is inoperative despite the lifting of the outer cylinder 97 is prevented.

Figure 1 is a schematic cross-sectional view showing a state in which the water gate is installed using the winch of the present invention

Figure 2 is a schematic front view showing the main part of Figure 1

3A to 3D are schematic front, side, top, and partially enlarged views of the hydrological structure

Figures 4a to 4e is a rear view showing the inland sea main body, a front view, a side view, a plan view, a side cross-sectional view showing the outer sea side main body

5 is an enlarged cross-sectional view of FIG. 4C.

6 is an enlarged cross-sectional view of FIG.

7 is a partially enlarged view showing a winch

8a and 8b is a schematic front view and a plan view showing the power transmission of the winch

9A to 9C are front view, side cross-sectional view, and partial cross-sectional view showing the wire rope end assembly.

* Description of the symbols for the main parts of the drawings *

10: hydrologic structure 11: water channel

12: guide groove 13: main track frame

14: elastic support plate 15: auxiliary track frame

16: auxiliary roller rail 17, 41: fixed part

18: guide protrusion 19: frame

20: hydrologic body 21: upper block

22: lower block 23: block fixing bolt

24: block fixing nut 30: skin plate

40: elastic body 42: contact portion

43: elastic deformation hole 44: elastic deformation groove

45: elastic body fixing bolt 46: elastic body fixing nut

50: main roller 60: auxiliary roller

70: winch 71: base

72: drive motor 73: brake

74: reducer 75: shaft

76: torque shaft 77: pinion

78: drum gear 79: drum

80: upper sheave 81: lower sheave

82: wire rope 90: wire rope end assembly

91: bed 92: through hole

93: spherical groove 94: inner cylinder

95: spherical protrusion 96: guide groove

97: external cylinder 98: touch unit

99: guide protrusion 100: spindle axis

101: male thread 102: nut

103: wire rope socket 104: coil spring

105: disc spring 106: limit switch

Claims (5)

It consists of the upper block 21 and the lower block 22 and they are coupled by the block fixing bolt 23 and the block fixing nut 24 and installed so that both sides are elevated along the guide groove 12 of the hydrologic structure 10. The hydrologic body 20; Skin plate 30 is installed on the front of the hydrological main body 20 of the outer sea side; An elastic body 40 installed on the skin plate 30 and contacting a corresponding surface of the guide groove 12 to support water pressure between the circumference of the skin plate 30 and the guide groove 12 and maintain watertightness; A lifting device 70 installed at an upper portion of the sluice structure 10 and connected to the upper both sides of the sluice body 20 by a wire rope 82 and elevating the sluice body 20 along the guide groove 12; A wire rope end assembly (90) installed on top of the sluice structure (10) and connected to an end of the wire rope (82) to compensate for the shaking of the wire rope (82). Hydrograph using. According to claim 1, The hydrological structure 10, The main track frame 13 is installed in the inner front portion of the guide groove 12, An elastic support plate 14 is installed at the inner front edge portion of the guide groove 12, An auxiliary track frame 15 is installed on the inner rear side of the guide groove 12 so as to face the main track frame 13. Sluice using a winch, characterized in that the auxiliary roller rail (16) consisting of a fixed portion (17) and a guide protrusion (18) is installed on the inner side of the guide groove (12). According to claim 2, The hydrological body 20, The main roller 50 on both sides in contact with the main track frame 13 and the auxiliary track frame 15 to roll along and to support the inward sea water pressure of the sluice body 20 and to support the front and rear shaking of the sluice body 20. A plurality of) are installed at equal intervals; Auxiliary rollers on both sides of the hydrologic main body 20 between the main rollers 50 so as to be in contact with the guide protrusion 18 of the auxiliary roller rail 16 and roll along it to support the left and right shaking of the hydrological main body 20. Sluice gate using a hoisting machine, characterized in that a plurality of 60 is installed at equal intervals. The method of claim 2, wherein the elastic body 40, A fixing part 41 fixed to the front surface of the skin plate 30 with an elastic fixing bolt 45 and an elastic fixing nut 46; A contact portion 42 protruding convexly toward the elastic support plate 14 at the center of the fixing portion 41 to be in contact with the elastic support plate 14; An elastic deformation hole 43 formed to improve elastic deformation and restoring force of the contact part 42 itself when the contact part 42 is pressed in the center of the contact part 42; When the contact part 42 is pressed against the fixing part 41 opposite to the contact part 42, the entire contact part 42 is pushed to the rear side thereof, and when the pressure is removed, elastic deformation to restore the contact part 42 in the pushed state. Sluice using a winch, characterized in that the groove 44 is formed. According to claim 1, wherein the wire rope end assembly 90, A bed 91 installed on the frame 19 of the sluice structure 10 and having a through hole 92 formed in the center thereof, and a spherical groove 93 formed around an upper edge of the through hole 92; An inner cylinder 94 in which a spherical protrusion 95 is formed at a lower end thereof so as to be in surface contact with the spherical groove 93 of the bed 91, and a plurality of guide grooves 96 are formed radially along a vertical direction around an outer circumferential surface thereof. Wow, An outer cylinder 97 slide-coupled to an upper portion of the inner cylinder 94 and coupled to the guide groove 96 so that a plurality of guide protrusions 99 are formed on an inner circumferential surface of the inner cylinder 94 so as to ascend along it; A spindle shaft having a lower end penetrating through the inner center of the outer cylinder 97, the inner cylinder 94, and the bed 91 and positioned below the frame 19 and having an upper end above the outer cylinder 97 ( 100), Nut 102 is fastened to the upper end of the spindle shaft 100, A wire rope socket 103 coupled to a lower end of the spindle shaft 100 and an upper end of the wire rope 82; A coil spring 104 provided inside the inner cylinder 94 to elastically support the outer cylinder 97 and the spindle shaft 100 upwardly; A disk spring 105 positioned above the coil spring 104 and provided in the outer cylinder 97 to compensate for the elasticity of the coil spring 104; Water gate using a winch is installed on the outer side of the inner cylinder (94) is made of a limit switch 106 to detect and transmit to the controller if the spindle shaft 100 is pulled further downward than the set distance .

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