KR20100080871A - Frp coating floodgate and hoisting device - Google Patents

Abstract

PURPOSE: An assembly and installation structure of a multi-stage coated floating flood gate and a flood gate opening device are provided to prevent a flood gate directly exposed to water by employing FRP coating on the flood gate surface. CONSTITUTION: A flood gate assembly(1) comprises an upper beam, a horizontal beam, and a lower beam to endure against water pressure. A plurality of vertical beams are arranged and put together. Side plates are welded to both sides of the upper, horizontal, and lower beams. A hollow shaft is welded through the vertical beam assembled between the upper beam and the horizontal beam. A front panel with a hollow shaft pass hole is welded to the front side of all the assembled beams. A back plate with a hollow shaft pass hole is welded to the back side of all the assembled beams.

Description

Assembly and installation structure of multi-stage coated salvage gate and gate take-out device {FRP COATING FLOODGATE AND HOISTING DEVICE}

The present invention relates to the assembly and installation structure of the water gate to take out the waterway to control the water level and to manage the water resources, and the technology relating to the extraction device.

The present invention is a technique related to the hydrology used to control the channel, the main background technology of the hydromechanical technical standards, hydrodynamics, kinematics, metal materials, FRP coating technology.

The present invention as a main object of the present invention to prevent the pollution of the metal that can be caused by contact with water for a long time in the environmental conditions in which the water gate is installed, and to devise a separate means to facilitate the control of the water gate.

The present invention applies an environmentally friendly FRP coating to the surface of the water to prevent corrosion of the water for a long time, divided into several stages to reduce the weight of the water, and has a dedicated drawer to facilitate the opening and closing of the water gate .

By applying FRP coating on the surface of the metal gate, the gate can be prevented from being directly exposed to water, thus preventing corrosion of the gate in the long run and preventing environmental pollution. By using a special drawer for opening and closing it can be seen that the effect of improving the opening and closing of the gate very easy.

In constructing water gates installed to manage water resources by controlling the water level in the waterways such as rivers, rivers, Yeosu soil and reservoirs,

As shown in FIG. 1, one or more doors are assembled in one door frame assembly 2 to configure the door assembly 1 in several stages so as to open and close the waterway as a whole.

The hydrological assembly 1 described above arranges the upper beam 20, the horizontal beam 3, and the lower beam 21 in the horizontal direction as shown in FIG. 2 so as to withstand the hydraulic load in the installed environment. A plurality of vertical beams a (4) and vertical beams (75) in the direction to weld and assemble, and both sides end of the upper beam (2), horizontal beam (3) and lower beam (21) arranged in the horizontal direction The side plates 5 are respectively welded and assembled so as to have the same height between the upper surface of the upper beam 20 and the lower surface of the lower beam 21, and are positioned on the same distance from the vertical center of the water gate symmetrically and the upper beam 20 And the pipe-shaped hollow shaft 8 are welded and assembled by passing through the vertical beam 4 near the upper end of the vertical beam a 4 assembled between the horizontal beam 3 and the above-described welding work process. Weld the front plate (6) at the front ends of all welded beams, and the back plate (7) at the rear ends of all beams, The face plate 6 is formed with a hollow shaft through hole a (69) to avoid interference with the hollow shaft (8), and the rear plate (7) with a hollow shaft through hole (b) to avoid interference with the hollow shaft (8). ).

FIG. 3 shows the hydrologic weld 71 in which the above-described overall welding work process is completed, and the FRP coating 9 is applied to the entire surface of the hydrologic weld 71 to prevent corrosion. The FRP coating body 72 which completed FRP coating on the whole outer surface of the weld body 71 is shown.

As shown in FIG. 5 and FIG. 6, both side ends of the front surface of the FRP coating body 72, in which the FRP coating is completed, a plurality of fixing bolts a12 are formed on the side plate of the side support plate having a plurality of assembling holes. (11) and bolt assembly holes 18 formed on both side surfaces of the FRP coating body 72 so as to correspond to the above-mentioned fixing bolt a (12) through the "P" shaped side index rubber (10) formed of a rubber material By fixing to each side index rubber 10 is firmly fixed to the FRP coating body 72, the front lower portion of the FRP coating body 72 also a plurality of fixing bolts a (12) to the flat iron of the stainless steel Lower index plate 14 through the lower support plate 14 and holes formed of rubber material "L" shaped through the lower index rubber 13 formed by fixing the bolt assembly hole corresponding to the above-mentioned fixing bolt a (12) The rubber 13 is firmly fixed to the FRP coating body 72 so that both sides and the bottom of the FRP coating body 72 Both index rubbers are fixed.

In the process of assembling the sluice assembly (1) to the door frame assembly (2) in order to control the waterway, the sluice assembly (1) formed at the both ends of the door frame assembly (2) of the "c" shaped hydrological guide groove (36) The front and rear roller assembly 16 and the side roller assembly 15 are respectively fixed to the upper and lower sides of the FRP coating body 72 so that they can move smoothly without being twisted or caught in the interior thereof. Assemble firmly to the FRP coating body 72,

As shown in FIG. 10, a plurality of drawing rods 19, which are used as means for lifting or lowering a water gate, are assembled through a plurality of hollow shafts 8 fixed and welded in a welding operation process of the hydrologic assembly 1 The hydrologic assembly 1 is completed.

As shown in FIG. 16, the side roller assembly 15, which is assembled at both upper and lower sides of the sluice assembly 1, inserts the side rollers 58 inside the side roller bracket 57 formed in the shape of the letter “c”. The side rollers 58 center the fixing pins 59 by fixing the fixing pins 59 through the fixing pin assembly holes 60 and the side rollers 58 formed on both side portions of the side roller brackets 57 facing each other. Is configured to rotate in place, the inner bottom surface of the side roller bracket (57) a plurality of side roller assembly (15) using a plurality of fixing bolts b (17) to be fixed to the FRP coating body (72) The fixed bolt assembly hole a 61 is formed.

Front and rear roller assembly 16, which is assembled in the vicinity of the side roller assembly 15 on both upper and lower sides of the sluice assembly 1, has a front and rear roller formed in a "c" shape extended in the longitudinal direction as shown in FIG. Insert the front and rear rollers 63 and guide rollers 64 into the inside of the bracket 62, and fix the roller fixing bolts 65 at both ends in the longitudinal direction of the guide rollers 64 and the front and rear roller brackets 62. The front and rear rollers 63 are assembled to rotate in place about the roller fixing bolts 65 by fixing the fixing bolts 67 through the formed roller fixing bolt assembly holes 66 and rotating the front and rear rollers 63. A stop projection 76 is formed at one end of the guide roller 64 to be assembled therethrough, and a stop groove 77 is formed at one end of the front and rear rollers 63 to accommodate the stop projection 76 formed at the guide roller 64 described above. Front and rear rollers 63 are rotated in place and at the same time the guide rollers 64 are formed. Constrained from being separated, a plurality of front and rear roller assemblies 16 may be fixed to the FRP coating body 72 using a plurality of fixing bolts b 17 on the inner bottom surface of the front and rear roller brackets 62. The fixed bolt assembly hole b 68 is formed.

As shown in FIG. 7, the door frame assembly 2 has a shape of “ㅁ” having an open top, and has a letter “c” on the upper left and right ends of the bottom plate 23 based on the bottom plate 23. It is a structure for fixing the door frame 22 of the shape, the inner surface of the "c" shaped shape of the door frame 22 serves to guide the sluice assembly (1) as the sluice guide groove (36), A plurality of anchors 24 and reinforcement angles 25 are welded to the surface to support the door frame 22 in the concrete structure.

Looking at the principle of the exponential action between the hydrological assembly (1) and the door frame assembly (2) by the index rubber,

The hydrologic assembly 1 is assembled to the hydrologic guide groove 36 of the door frame assembly 2 shown in FIG. 7 so that the wedges 74 of the door frame assembly 2 are fixed to the four rear corners of the hydrological assembly 1. When the wedge a 73 is pushed forward, the hydrologic assembly 1 moves to the front relative to the door frame fixture 2 fixed to the concrete structure 29, as shown in FIG. 10 pressurizes the inner surface of the sluice guide groove 36 of the door frame 22 to exponentially prevent water from leaking between the side of the sluice assembly 1 and the side of the door frame assembly 2.

In addition, when the hydrologic assembly 1 is assembled to the hydrological guide groove 36 of the door frame assembly 2 as in the above-described operation, the hydrologic assembly 1 is fixed to the lower portion of the hydrologic assembly 1 by the lower weight of the lower index rubber. (13) acts to compress, the hydrophobic assembly (1) due to the weight of the hydrologic assembly (1) and the water from the bottom plate 23 of the door frame assembly (2) to prevent water from leaking The hydrostatic assembly (1) and the connection between the hydrological assembly (1) also serves to prevent water from leaking.

In FIG. 8, the actual installation state of the sluice can be seen. Typically, the sluice is installed inside the concrete structure 29, and the equipment is formed on the top of the sluice which has already been installed to install a drawer for opening and closing the sluice. A plurality of vertical steel structures 26 are fixed to the mounting surface 78 with anchor bolts 34, and the upper steel structures 27 are fixed to and connected to the upper ends of the vertical steel structures 26, and the upper steel structures 27 By fixing the horizontal iron structure 28 connecting the central portion of the bottom of the steel structure is formed so that the hoist 30 can move along the horizontal steel structure 28.

The conventional hoist 30 is provided with a speed reducer that increases the output by reducing the rotational speed of the motor and the electric power generating power therein, since the wire drum is formed on the rear end of the reducer so that the wire 31 is wound. When the operation switch 33 is operated, the wire drum is rotated in the forward and reverse directions by the electric motor and the reducer. The wire drum is wound or unwound to lift the load suspended on the hook 32 fixed to the end of the wire 31. In the present invention, in place of the normal load is configured to connect a dedicated hydrograph withdrawal device 35 capable of withdrawing the hydrology to the hook (32).

As shown in detail in FIG. 13, 14 and 15,

With the support frame 44 as a basic frame, the withdrawal bar fixture a 39 and the withdrawal bar fixture b 40 are located on the front and rear surfaces of the support 44 at the same distance around the support 44. (39) and the withdrawal bar fixture b (40) slide along the inclined surface (80) formed at the withdrawal bar fixture (39) and withdrawal bar fixture (40) with the withdrawal rod (19) fixed to the sluice assembly (1). Hanging jaw 46 is formed that can be coupled to the

The hinge bolt 52 is assembled to the hinge nut 53 through the draw bar fixture b 40 through the draw bar fixture a 39, the washer 54, and the through-hole 55, and a plurality of fixing bolts c. (79) is used to connect and secure with the connector (43) so that the draw-out bar fastener a (39) and the draw-out bar fastener b (40) interlock, and are fixed to the nut (56) through the central portion of the connector (42) Holes drilled in the end of the spring fixing bolt a (49) and through the end of the spring fixing bolt b (50) assembled to the nut 56 through the inner bottom surface of both ends of the support 44 By connecting the spring 42 between the drawout bar fixture a (39) and the drawout bar fixture b (40) rotates in place about the hinge bolt (52),

As can be seen in FIG. 12, when the sluice extraction device 35 is inserted into the door frame assembly 2, the withdrawal bar 19 fixed to the sluice assembly 1 has a withdrawal bar fixture a (39) and withdrawal beacon. The spring 42 is restored to a position stopped by the upper end of the connector 43 and the support 44 to provide a restoring force so that the slide 42 can slide along the inclined surface 80 formed in the tennis ball b 40. and,

The derivative 41 is fixed to the front and rear surfaces near both side ends of the support 44, and serves to guide the hydrologic extraction device 35 to be easily coupled with the hydrologic assembly 1, and the support 44 The front and rear roller assembly 16 and the side roller assembly 15 are fixed to a plurality of fixing bolts b 17 on the side support members 45 fixed to both side end surfaces of the side support, and the hydrologic extraction device to control the water level. When entering 35 into the sluice guide groove 36 of the door frame assembly 2 serves to guide the sluice extraction device 35 to move stably without twisting.

In order to connect the hydrologic extraction device 35 to the hoist 30, the plurality of upper fixing bodies 48 are symmetrically fixed at the same distance from the center of the upper surface of the support 44, and the penetrating central portion of the upper fixing body 48 The eye bolt 47 is fixed, and the eye bolt penetrates the fixing wire 38 to make a knot, and the end of the knot is fixed by the clamp 51, and the hook 37 is inserted into the center of the fixing wire 51 to wire the wire. It is connected to the hook (32) fixed to the end of (31).

10 to 12 illustrate a process of disassembling the sluice assembly 1, the hook fixed to the end of the wire 31 connected to the hoist 30 configured to move along the horizontal steel structure 28. 32) to assemble the sluice extraction device 35, and shows the process of separating and lifting the sluice assembly (1) from the door frame assembly (2) using the sluice extraction device (35).

First degree. Overall assembly state of sluice assembly and door frame assembly

Second degree. Exploded View of Hydrologic Assemblies

Third degree. State of completion of welding work of sluice assembly

4th. FRP Coating Completion Status of Hydrologic Assembly

5th. State of assembly of parts of sluice assembly

6th. Assembly status of hydrologic assembly

7th. Outline drawing of door frame assembly

8th. State of installation of the floodgate

9th. Assembly perspective view 1 of the present invention (ready to open the gate)

10th. Assembly perspective view 2 of the present invention (lower water drawer equipment)

11th. Assembled perspective view-3 (gate pull out) of the present invention

12th. Assembly perspective-4 of the present invention (progression)

13th. Assembly perspective of the hydrograph

14th. Exploded View of Hydrologic Dispenser

Article 15. Partial detail view of the hydrograph

16th. Exploded View of Side Roller Assembly

Figure 17. Exploded View of Front and Rear Roller Assembly

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

1. Hydrologic assembly 2. Door frame assembly

3. Horizontal Beam 4. Vertical Beam a

5. Side panel 6. Front panel

7. Back panel 8. Hollow shaft

9. FRP coating 10. Side index rubber

11. Side support plate 12. Fixing bolt a

13. Lower index rubber 14. Lower support plate

15. Side roller assembly 16. Front and back roller assembly

17. Fixing bolt b 18. Bolt assembly

19. Pull out rod 20. Upper beam

21.Below Beam 22. Door Frame

23. Bottom plate 24. Anchor

25. Reinforcement angle 26. Vertical steel structure

27. Upper Steel Structure 28. Horizontal Steel Structure

29. Concrete Structure 30. Hoist

31.Wire 32.Hook

33. Operation switch 34. Anchor bolt

35. Sluice Gate 36. Sluice Gate

37. Loop 38. Fixed Wire

39. withdrawal rod fixture b 40. withdrawal rod fixture b

41. Derivatives 42. Springs

43. End Connections 44. Supports

45. Side Support 46. Hanging Jaw

47. Eye bolt 48. Upper fixing body

49. Spring fixing bolt a 50. Spring fixing bolt b

51.Clamp 52.Hinge Bolt

53.Hinge nut 54.Washer

55.Through hole 56.Nut

57. Side Roller Bracket 58. Side Roller

59. Locking Pin 60. Locking Pin Assembly Hole

61. Fixing bolt assembly: 62. Front and rear roller brackets

63. Front and back roller 64. Guide roller

65. Roller fixing bolts 66. Roller fixing bolts

67. Fixing nut 68. Fixing bolt assembly b

69. Hollow shaft through hole a 70. Hollow shaft through hole b

71. Hydrologic welder 72. FRP coating agent

73. Wedge 74. Wedge b

75. Vertical Beam b 76. Stopper

77. Stopping groove 78. Mounting surface

79. Fixing bolt 80. Slope

Claims (4)

In a multi-stage FRP-coated salvage gate that controls the channel, the hydrologic assembly 1 arranges the upper beam 20, the horizontal beam 3, and the lower beam 21 in the horizontal direction to withstand the hydraulic load in the installed environment. and, Place and weld and assemble a plurality of vertical beams a (4) and vertical beams (75) in the vertical direction, and the amount of the upper beam (2), the horizontal beam (3) and the lower beam (21) arranged in the horizontal direction At the side ends, the side plates 5 are welded and assembled so as to have the same height between the upper surface of the upper beam 20 and the lower surface of the lower beam 21. It is located on the same symmetrical distance from the vertical center of the sluice and passes through the vertical beam 4 near the upper end of the vertical beam a 4 assembled between the upper beam 20 and the horizontal beam 3 to form a hollow pipe. Weld and assemble the shaft (8), The front plate 6 is welded to the front end of all the beams welded and assembled by the welding process, and the rear plate 7 is welded to the rear end of all the beams, and the front plate 6 is connected to the hollow shaft 8. Forming a hollow shaft through-hole a (69) for avoiding interference, and forming a hollow shaft through-hole (b) for avoiding interference with the hollow shaft (8) in the rear plate (7), FRP coating (9) is applied to the entire surface of the hydrologic welded body 71 in which the entire welding operation is completed, in order to prevent corrosion due to contact with water, On both sides of the front side of the FRP coating body 72 where the FRP coating is completed, a plurality of fixing bolts a (12) are formed on the side support plate (11) formed with a plurality of assembling holes in the flat iron of stainless steel, and a rubber material "P. Each side index rubber (10) is fixed by bolt assembly holes (18) formed on both side end surfaces of the FRP coating body (72) to correspond to the fixing bolt (a) described above through the side index rubber (10). ) Is firmly fixed to the FRP coating body 72, On the lower end of the front surface of the FRP coating body 72, a plurality of fixing bolts a (12) are also made of stainless steel and the lower support plate 14 having a plurality of assembling holes formed therein, and an "L" shaped lower index formed of rubber material. The lower index rubber 13 is firmly fixed to the FRP coating body 72 by penetrating the rubber 13 to the bolt assembly hole formed to correspond to the fixing bolt a 12 described above. The door frame assembly 2 is formed in a shape of “ㅁ”, which is entirely open at the top, and fixes the door frame 22 having a “c” shape on the upper left and right ends of the bottom plate 23 based on the bottom plate 23. The "c" shaped inner surface of the door frame 22 serves to guide the sluice assembly 1 as the sluice guide groove 36, and the surface of the door frame 22 has a door frame in the concrete structure. Welding and fixing a plurality of anchors 24 and reinforcing angles 25 to support 22, In the process of assembling the sluice assembly (1) to the door frame assembly (2) in order to control the waterway, the sluice assembly (1) formed at the both ends of the door frame assembly (2) of the "c" shaped hydrological guide groove (36) The front and rear roller assembly 16 and the side roller assembly 15 are respectively fixed to the upper and lower sides of the FRP coating body 72 so that they can move smoothly without being twisted or caught in the interior thereof. Assemble firmly to the FRP coating body 72, A plurality of withdrawal rods 19, which are used as a means for lifting or lowering a water gate, are assembled through a plurality of hollow shafts 8 welded and fixed in the welding work process of the hydrologic assembly 1, thereby completing the water gate assembly 1 Assembly structure of the multi-stage coated salvage door characterized in that the technical configuration. The side roller assembly (15) of claim 1, wherein the side roller assemblies (15) assembled at both upper and lower sides of the sluice assembly (1) are inserted into the side rollers (58) inside the side roller brackets (57). The side rollers 58 are fixed to the fixing pins 59 by fixing the fixing pins 59 through the fixing pin assembly holes 60 and the side rollers 58 formed on opposite side surfaces of the roller bracket 57. Configured to rotate in place, On the inner bottom surface of the side roller bracket 57, a plurality of fixing bolt assembly holes a 61 are provided to fix the side roller assembly 15 to the FRP coating body 72 using a plurality of fixing bolts b17. Formed, The front and rear roller assembly 16 inserts the front and rear rollers 63 and the guide rollers 64 inside the front and rear roller brackets 62 formed in the "c" shape extending in the longitudinal direction, The roller fixing bolt 65 is fixed to the fixing bolt 67 through the roller fixing bolt assembly hole 66 formed at both ends of the guide roller 64 and the front and rear roller brackets 62 in the longitudinal direction, and fixed to the fixing roller 67. 63 is assembled to rotate in place about the roller fixing bolt (65), A stop protrusion 76 is formed at one end of the guide roller 64 to assemble through the front and back rollers 63, and a stop protrusion 76 formed at the guide roller 64 described above at one end of the front and back rollers 63. The front and rear rollers 63 are constrained so as not to be separated from the guide rollers 64 while being rotated in place by forming the stop groove 77 to accommodate the front and rear surfaces of the front and rear roller brackets 62. It is a multi-stage coating characterized by a technical configuration in which a plurality of fixing bolt assembly holes b (68) are formed to fix the roller assembly (16) to the FRP coating body (72) using a plurality of fixing bolts (17). Assembly structure of the positive door. Typically, the water gate is installed inside the concrete structure 29, and a plurality of vertical steel structures 26 on the equipment mounting surface 78 formed on the top of the water gate, which has already been installed, in order to install a drawing device for opening and closing the water gate. To the anchor bolt 34 and the upper steel structure 27 is fixed to the upper end of the vertical steel structure 26 and connected, and fixed to the horizontal steel structure 28 connecting the center of the bottom surface of the upper steel structure 27 To form a steel structure so that the hoist 30 can move along the horizontal steel structure 28, The conventional hoist 30 is provided with a speed reducer that increases the output by reducing the rotational speed of the motor and the electric power generating power therein, since the wire drum is formed on the rear end of the reducer so that the wire 31 is wound. When the operation switch 33 is operated, the wire drum is rotated in the forward and reverse directions by the electric motor and the reducer. The wire drum is wound or unwound to lift the load suspended on the hook 32 fixed to the end of the wire 31. In the present invention, the installation structure of the multi-stage coating lifting sluice door, characterized in that the technical configuration for connecting a dedicated hydrology withdrawal device 35 capable of withdrawing the sluice to the hook (32) in place of the conventional load. The hydrological extraction device 35 of claim 3 has a support frame 44 as a basic frame, and the extraction bar fixtures a 39 and the extraction bar fixtures b 40 are provided at the same distance about the support 44. Located at the front and rear sides of the pull-out bar fixture a (39) and the pull-out bar fixture b (40), the drawer bar (19) fixed to the sluice assembly (1) has a draw-out bar fixture a (39) and the draw-out bar fixture b (40). The engaging jaw 46 is formed to slide and engage along the inclined surface 80 formed in the), The hinge bolt 52 is assembled to the hinge nut 53 through the draw bar fixture b 40 through the draw bar fixture a 39, the washer 54, and the through-hole 55, and a plurality of fixing bolts c. (79) is used to connect and secure with the connector (43) so that the draw-out bar fastener a (39) and the draw-out bar fastener b (40) interlock, and are fixed to the nut (56) through the central portion of the connector (42) Between the hole drilled at the end of the spring fixing bolt a (49) and the hole drilled at the end of the spring fixing bolt b (50) assembled to the nut 56 through both inner end surfaces of the inner bottom surface of the support body 44. By connecting the spring (42) to the drawer bar fixture (39) and the drawer bar fixture b (40) rotates in place about the hinge bolt (52), In the case of inserting the sluice extraction device 35 into the door frame assembly 2, the withdrawal bar 19 fixed to the sluice assembly 1 is formed in the draw bar fixture a 39 and the draw bar fixture b 40. The spring 42 provides a restoring force to be restored and stopped to a position where it is stopped by the upper end of the connector 43 and the support 44 so as to be able to slide and engage along the inclined surface 80, The derivative 41 is fixed to the front and rear surfaces near both side ends of the support 44, and serves to guide the hydrologic extraction device 35 to be easily coupled with the hydrologic assembly 1, and the support 44 The front and rear roller assembly 16 and the side roller assembly 15 are fixed to a plurality of fixing bolts b 17 on the side supports 45 fixed to both side end surfaces of the back side. In order to connect the hydrologic extraction device 35 to the hoist 30, the plurality of upper fixing bodies 48 are symmetrically fixed at the same distance from the center of the upper surface of the support 44, and the penetrating central portion of the upper fixing body 48 The eye bolt 47 is fixed, and the eye bolt penetrates the fixing wire 38 to make a knot, and the end of the knot is fixed by the clamp 51, and the hook 37 is inserted into the center of the fixing wire 51 to wire the wire. A drawer of the multi-stage coated salvage gate characterized in that the configuration can be connected to the hook (32) fixed to the end of (31).

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