KR200420986Y1 - Crane of floating dock - Google Patents

Abstract

The present invention relates to a flotation flotation crane, and more specifically, a lower post 10 for fixing the flotation flotation crane (A) to one end of the flotation flotation (B); A slew wing winch 20 fixed to an upper portion of the lower post 10 and connected to the frame 30 to rotate the frame 30 360 ° by using hydraulic power; It is connected to the slew wing winch 20 and rotates 360˚, and supports the power room 41, the rough winch 50, the hoisting winch 60, the slew wing bearing 70, and the slew wing post 80 at the top. A frame 30 having a counterweight 31 installed at a lower portion thereof; Located in the power room 41, the power pack 40 for generating hydraulic pressure which is the operating power of the slewing winch 20, roughing winch 50, hoisting winch (60); Located in the upper portion of the frame 30, the winch 50 to lift the boom 90 up or down through the rotational operation of winding or unwinding the roughing rope 51 by the hydraulic power; A hoisting winch (60) positioned above the frame (30) and capable of lifting a load of 30 tons through a rotational operation of winding or unwinding the hoisting rope (61) by using hydraulic power; Located in the upper portion of the frame 30, the slewing wing bearing 70 to enable the vertical movement of the boom 90 by the rough winch 50 as a reference point of the boom 90; Located at the top of the frame 30, and prevents the boom 90 from being excessively lifted, the roughing pulley 52 connected to the roughing winch 50 and the roughing rope 51, and the hoisting winch 60 And a slewing wing 80 to which the hoisting pulley 62 connected to the hoisting rope 61 is fixed; Rotating the slewing wing bearing (70) as a reference point, and rotates 360 ° by the frame 30 to enable the work at a distance, at the end, the hook portion 91 is connected to the hook portion 92 is configured boom 90; It is connected to the roughing winch 50 and the roughing pulley 52 by the roughing rope 51, and is connected to the boom 90 by the tension rope 101 connected to the end of the boom 90, thereby roughing winch 50. It characterized by consisting of a connection pulley 100 for transmitting the rotational force of the boom 90, by using a hydraulic power instead of the engine operated by the power source, by reducing the operating cost and no risk of failure of the engine, It is related to the flotation flotation crane which can increase the operating flexibility by the driving method and obtain a noise reduction effect.

Flotation Fleet, Crane, Electric, Balance, Hydraulic Drive

Description

Floating Vessel Crane {Crane of floating dock}

         1 is an embodiment of the flotation flotation crane of the present invention

         2 is a front view and a plan view of the flotation flotation crane of the present invention

              <Description of Symbols for Main Parts of Drawings>

A: Flotation Cradle Crane B: Flotation Fleet 10: Lower Post

20: slew wing winch 30: frame 31: counterweight

40: Power Pack 41: Power Pack 50: Rough Winch

51: roughing rope 52: roughing ring 60: hoisting winch

61: hoisting rope 62: hoisting Dorre 70: slewing wing bearing

80: slew wing post 90: boom 91: hook portion

92: ring portion 100: connection pulley 101: tension rope

     The present invention relates to a flotation flotation crane, and more specifically, a lower post 10 for fixing the flotation flotation crane (A) to one end of the flotation flotation (B); A slew wing winch 20 fixed to an upper portion of the lower post 10 and connected to the frame 30 to rotate the frame 30 by 360 ° using hydraulic power; It is connected to the slew wing winch 20 and rotates 360˚, and supports the power room 41, the rough winch 50, the hoisting winch 60, the slew wing bearing 70, and the slew wing post 80 at the top. A frame 30 having a counterweight 31 installed at a lower portion thereof; Located in the power room 41, the power pack 40 for generating hydraulic pressure which is the operating power of the slewing winch 20, roughing winch 50, hoisting winch (60); Located in the upper portion of the frame 30, the winch 50 to lift the boom 90 up or down through the rotational operation of winding or unwinding the roughing rope 51 by the hydraulic power; A hoisting winch (60) positioned above the frame (30) and capable of lifting a load of 30 tons through a rotational operation of winding or unwinding the hoisting rope (61) by using hydraulic power; Located in the upper portion of the frame 30, the slewing wing bearing 70 to enable the vertical movement of the boom 90 by the rough winch 50 as a reference point of the boom 90; Located at the top of the frame 30, and prevents the boom 90 from being excessively lifted, the roughing pulley 52 connected to the roughing winch 50 and the roughing rope 51, and the hoisting winch 60 And a slewing wing 80 to which the hoisting pulley 62 connected to the hoisting rope 61 is fixed; Rotating the slewing wing bearing (70) as a reference point, rotated 360 ° by the frame 30 to enable the work at a distance, at the end, the hook portion 91 is connected to the hook portion 92 is configured a boom ( 90); It is connected to the roughing winch 50 and the roughing pulley 52 by the roughing rope 51, and is connected to the boom 90 by the tension rope 101 connected to the end of the boom 90, thereby roughing winch 50. It characterized by consisting of a connection pulley 100 for transmitting the rotational force of the boom 90, by using a hydraulic power instead of the engine operated by the power source, by reducing the operating cost and no risk of failure of the engine, It is related to the flotation flotation crane which can increase the operating flexibility by the driving method and obtain a noise reduction effect.

             In general, the flotation ship is a kind of barge for various port bridges and small ship drying, and it is a floating dock instead of the expensive dry dock. Move to the crane for fine drying work.

        However, in the case of the non-powered floating dock in the related art, it is driven by using an engine operated by light oil, which requires a lot of operating costs, and there is a waste of cost and time due to frequent failure of the engine. There was a problem that occurred.

Therefore, an object of the present invention is to devise to improve the various problems as described above, by using a hydraulic power instead of the engine operated by the power source, by reducing the operating cost and the risk of failure of the engine, The purpose of the present invention is to provide a floating support crane that can increase the operating flexibility and reduce noise by the driving method.

      The present invention relates to a flotation flotation crane, and more specifically, a lower post 10 for fixing the flotation flotation crane (A) to one end of the flotation flotation (B); A slew wing winch 20 fixed to an upper portion of the lower post 10 and connected to the frame 30 to rotate the frame 30 360 ° by using hydraulic power; It is connected to the slew wing winch 20 and rotates 360˚, and supports the power room 41, the rough winch 50, the hoisting winch 60, the slew wing bearing 70, and the slew wing post 80 at the top. A frame 30 having a counterweight 31 installed at a lower portion thereof; Located in the power room 41, the power pack 40 for generating hydraulic pressure which is the operating power of the slewing winch 20, roughing winch 50, hoisting winch (60); Located in the upper portion of the frame 30, the winch 50 to lift the boom 90 up or down through the rotational operation of winding or unwinding the roughing rope 51 by the hydraulic power; A hoisting winch (60) positioned above the frame (30) and capable of lifting a load of 30 tons through a rotational operation of winding or unwinding the hoisting rope (61) by using hydraulic power; Located in the upper portion of the frame 30, the slewing wing bearing 70 to enable the vertical movement of the boom 90 by the rough winch 50 as a reference point of the boom 90; Located at the top of the frame 30, and prevents the boom 90 from being excessively lifted, the roughing pulley 52 connected to the roughing winch 50 and the roughing rope 51, and the hoisting winch 60 And a slewing wing 80 to which the hoisting pulley 62 connected to the hoisting rope 61 is fixed; Rotating the slewing wing bearing (70) as a reference point, rotated 360 ° by the frame 30 to enable the work at a distance, at the end, the hook portion 91 is connected to the hook portion 92 is configured a boom ( 90); It is connected to the roughing winch 50 and the roughing pulley 52 by the roughing rope 51, and is connected to the boom 90 by the tension rope 101 connected to the end of the boom 90, thereby providing the roughing winch 50. It characterized by consisting of a connection pulley 100 for transmitting the rotational force of the boom 90, by using the hydraulic power instead of the engine operated by the power source, by reducing the operating cost, there is no risk of failure of the engine, It is related with a floating ship crane that can increase the operating flexibility by the hydraulic drive method and obtain a noise reduction effect.

      Referring to the configuration of the present invention in more detail through the accompanying drawings as follows.

      1 is an embodiment of the flotation flotation crane of the present invention,

      As shown in FIG. 1, the flotation ship crane A of the present invention is installed in various harbor bridges and a non-powered floating dock for small vessel drying to be used for detailed drying of a ship.

      2 is a front view and a plan view of the flotation flotation crane of the present invention,

      Among the configuration and operation principle of the flotation crane (A) of the present invention, the first configuration in detail,

      The lower post 10 fixes the flotation cradle A to one end of the flotation bag B, and the lower end of the lower post 10 is inserted into the flotation ship B and fixed.

      Slew wing winch 20 is fixed to the upper portion of the lower post 10 is connected to the frame 30, and rotates the frame 30 360 ° by hydraulic power,

      The frame 30 is connected to the slew wing winch 20 and rotates 360 °, and has a powerroom 41, a rough winch 50, a hoisting winch 60, a slew wing bearing 70, and a slew wing. Supporting the post 80, the balance weight 31 is to be installed at the bottom.

      The power pack 40 is located in the power room 41 and generates hydraulic pressure, which is an operating power of the slewing winch 20, the roughing winch 50, and the hoisting winch 60.

      The roughing winch 50 is positioned above the frame 30 and allows the boom 90 to be lifted up or down through a rotational operation of winding or unwinding the roughing rope 51 by hydraulic power.

      The hoisting winch 60 is located on the top of the frame 30, by lifting the load of 30 tons through the rotational operation of winding or unwinding the hoisting rope 61 by the hydraulic power,

      The slewing wing 70 is located above the frame 30 and enables the up and down movement of the boom 90 by the roughing winch 50 as the reference point of movement of the boom 90.

      The slewing post 80 is positioned on the upper part of the frame 30 and prevents the boom 90 from being excessively lifted, and is connected to the roughing winch 50 and the roughing rope 51. ), And a hoisting pulley 62 connected to the hoisting winch 60 and the hoisting rope 61 is fixed,

      The boom 90 rotates the slewing wing bearing 70 as a reference point, and rotates 360 ° by the frame 30 to allow a long distance operation. At the end, the hook portion 92 is connected to the hook portion ( 91).

      The connection pulley 100 is connected to the roughing winch 50 and the roughing pulley 52 by the roughing rope 51 and is connected to the boom 90 by the tension rope 101 connected to the end of the boom 90. Thus, the rotational force of the rough winch 50 is transmitted to the boom 90.

      Referring to the operation principle of the flotation flotation crane (A) configured as described above in detail,

      The operation of the boom 90 of the float support crane (A) of the present invention,

      The roughing winch 50 operating by hydraulic power is wound or unwound the roughing rope 51, and thus the connection pulley 100 connected through the roughing rope 51 and the roughing pulley 52 is pulled or released, thereby connecting The boom 90 connected by the pulley 100 and the tension rope 101 is rotated upward by 80 ° based on the horizontal direction.

      The operation of the ring portion 92,

      The hoisting winch 60 operating by hydraulic power is wound or unwound by the hoisting rope 61, thereby hoisting the hook part 91 connected through the hoisting rope 61 and the hoisting pulley 62. The rotational force of the winch 60 is transmitted so that the ring portion 92 moves up and down.

      As described above, although the present invention has been described with reference to the above embodiments, it is not necessarily limited thereto, and various modifications may be made without departing from the scope and spirit of the present invention.

             Referring to the effects of the above-described configuration and operation in detail as follows.

      Flotation flotation crane according to the present invention uses hydraulic power instead of the engine operated by diesel power source to reduce operating cost, risk of engine failure, increase hydraulic flexibility and reduce noise by hydraulic driving method. It can provide such effects.

Claims (3)

    In floating flotation crane,     A lower post 10 having one lower end inserted into the support ship B to fix the support ship crane A to one end of the support ship B;     A slew wing winch 20 fixed to an upper portion of the lower post 10 and connected to the frame 30 to rotate the frame 30 360 ° by using hydraulic power;     It is connected to the slew wing winch 20 and rotates 360˚, and supports the power room 41, the rough winch 50, the hoisting winch 60, the slew wing bearing 70, and the slew wing post 80 at the top. A frame 30 having a counterweight 31 installed at a lower portion thereof;     Located in the power room 41, the power pack 40 for generating hydraulic pressure which is the operating power of the slewing winch 20, roughing winch 50, hoisting winch (60);     Located in the upper portion of the frame 30, the winch 50 to lift the boom 90 up or down through the rotational operation of winding or unwinding the roughing rope 51 by the hydraulic power;     A hoisting winch (60) positioned above the frame (30) and capable of lifting a load of 30 tons through a rotational operation of winding or unwinding the hoisting rope (61) by using hydraulic power;     Located in the upper portion of the frame 30, the slewing wing bearing 70 to enable the vertical movement of the boom 90 by the rough winch 50 as a reference point of the boom 90;     Located at the top of the frame 30, and prevents the boom 90 from being excessively lifted, the roughing pulley 52 connected to the roughing winch 50 and the roughing rope 51, and the hoisting winch 60 And a slewing wing 80 to which the hoisting pulley 62 connected to the hoisting rope 61 is fixed;     Rotating the slewing wing bearing (70) as a reference point, rotated 360 ° by the frame 30 to enable the work at a distance, at the end, the hook portion 91 is connected to the hook portion 92 is configured a boom ( 90);     It is connected to the roughing winch 50 and the roughing pulley 52 by the roughing rope 51, and is connected to the boom 90 by the tension rope 101 connected to the end of the boom 90, thereby roughing winch 50. Floating flotation crane, characterized in that consisting of a connection pulley 100 for transmitting the rotational force of the boom (90).          The boom 90 of claim 1, wherein the boom 90     The roughing winch 50 operating by hydraulic power is wound or unwound the roughing rope 51, and thus the connection pulley 100 connected through the roughing rope 51 and the roughing pulley 52 is pulled or released, thereby connecting Flotation flotation crane, characterized in that the boom (90) connected by the pulley 100 and the tension rope 101 is rotated up to 80 degrees relative to the horizontal.            The method of claim 1, wherein the ring portion 92     The hoisting winch 60 operating by hydraulic power is wound or unwound by the hoisting rope 61, thereby hoisting the hook part 91 connected through the hoisting rope 61 and the hoisting pulley 62. Floating force for the crane characterized in that the rotational force of the winch 60 is transmitted to the ring portion 92 to move up and down.

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