KR101332725B1 - Ocean mat spreading apparatus - Google Patents

Abstract

The present invention relates to a device for installing a mat (10) to be piled up on the seabed in order to reinforce the soft ground, prevent scouring, and control the unnecessary surfacing of soil particles on the seabed ground in the construction of ports, breakwaters, and sea dikes. The present invention is mounted with a loading box (30), an upper roller (41), a guiding roller (42), and a driving roller (43) on the top surface of the a floating body (20) such as a barge floating in the water to statically unfold the mat (10) accepted in the loading box into zigzags through a plurality of rollers in serial order. According to the present invention, the marine mat (10) is stably and rapidly unfolded and installed without operating a massive rotation winding body (11); the construction convenience of relevant processes is significantly improved; and construction defects such as the breakage and curved piling of the mat (10) are fundamentally prevented.

Description

OCEAN MAT SPREADING APPARATUS}

The present invention relates to a device for installing a mat (10) laminated on the sea floor for the purpose of reinforcing soft ground, preventing scour, and suppressing undesired injuries of tombs in the sea bed when constructing a port, a breakwater or a seawall. The loading box 30, the upper roller 41, the induction roller 42, and the driving roller 43 are mounted on the upper surface of the floating body 20, such as a float floating on the water, and the loading box 30 The mat 10 stacked in a zigzag stack can be stably deployed while sequentially passing through the plurality of rollers.

In construction work involving construction of structures on the marine and coastal grounds such as ports, breakwaters, and seawalls, synthetic fiber is used in the seabed to prevent reinforcement of the undersea soft ground, and to prevent unnecessary injuries and scour in the seabed that may occur during construction. The mat 10, such as a sheet or a nonwoven fabric, is developed and laminated.

As shown in FIG. 1, the unfolding installation of the bottom mat 10 includes a winding body 11 in which the mat 10 is wound in a roll shape, such as a ship, barge, or pontoon. And the mat 10 wound around the winding body 11 while being moved along the construction planning route, laminated on the sea floor, and then dropping the heavy material 19 intermittently. 10) is carried out in a manner to suppress the injury, the related prior art is patent number 729069.

Conventional floating body 20 and winding body 11, including the patent 719069, the installation method based on the bottom mat 10 can be divided into the following two methods according to the position of the winding body (11).

First, the upper view of FIG. 1 is a method in which the wound body 11 is installed on the upper portion of the floating body 20, that is, the upper surface of the water surface, and the unloaded mat 10 is introduced into the water. Not only can be confirmed, there is an advantage that can be adjusted by the rotational speed of the take-up body 11 separately from the movement of the floating body 20 to adjust the development speed of the mat 10 and the tension of the mat 10 to be deployed, Not only there are many difficulties in driving and manipulating the heavy winding body 11, but also the rotational speed and the mat of the winding body 11 according to the working conditions such as the moving speed of the floating body 20, the current flow at the construction point, and the blue ( 10) There is a serious problem that can not control the tensile force acting on a).

In particular, a failure to adjust the tension force acting on the mat 10 during the driving operation of the winding body 11 can cause a serious problem that the mat 10 is broken, as well as the proper rotational speed of the winding body 11 If it is not possible to maintain the mat 10 is laminated or excessive bending is formed is a problem that can not expect the desired ground stability effect occurs.

1 shows that the mat 10 is unwound and unfolded while the take-up body 11 moves on the sea floor as the take-up body 11 moves in the water by inserting the take-up body 11 connected to the float 20 in water. As a method, the rotational drive itself of the winding body 11 can be performed relatively stable, but there is a serious problem that can not grasp the running state of the winding body 11 put in the water, especially in the seabed surface of uneven terrain There is a fundamental problem that is not applicable.

As such, the conventional marine mat 10 installation method of rotating the take-up body 11 to unwind the mat 10 has a fundamental limitation of the take-up body 11 itself, which cannot be agilely adjusted or immediately checked. Due to this problem, the development of the mat 10, which can be said to be a kind of pre-construction carried out before the construction in the construction of offshore structures, acts as the biggest difficulty throughout the entire construction.

The present invention was devised in view of the above-described problems, and in the apparatus for stacking the marine mat 10 on the sea bottom, the rectangular stacking box in which the mat 10 is stored on the upper surface of the floating body 20 floating on the water surface ( 30) is installed, the upper roller 41, the central axis is installed on the upper side of the loading box 30, parallel to the loading box 30 is installed, the induction roller parallel to the upper roller 41 on one side end of the floating body (20). 42 and the drive roller 43 is installed, the drive roller 43 is connected to the drive motor 49, the drive roller 43 is rotated as the drive motor 49 rotates, the loading box 30 The mat 10 is stacked and stacked in a zigzag, but the loaded mat 10 is drawn out is introduced into the water through the upper roller 41, the induction roller 42 and the driving roller 43 in sequence. It is a marine mat installation device.

Through the present invention, it is possible to stably and quickly deploy and install the marine mat 10 without the configuration and driving of the massive rotary winding body 11, thereby significantly improving the construction convenience of the relevant process, the mat (10) It is possible to fundamentally prevent construction defects, such as fracture and bending lamination of the wire).

In particular, since the large rotary winding body 11 and the related driving device, which are essential in the conventional method of installing the marine mat 10, are unnecessary, the power required for the mat 10 deployment and installation can be drastically reduced. When using the same amount of floating body 20 through the zigzag storage of the mat 10 in the loading box 30, it is possible to secure a significantly improved loading space compared to the prior art, the mat per injection number of the body 20 (10) The installation area can be significantly increased.

In addition, in developing the mat 10, only a part drawn out of the loading box 30 is driven away from the conventional method of rotating the entire rotating body, and thus, the agile speed and tension control during the development of the mat 10 and the introduction of the water in water. This is possible, which enables effective response to currents and waves and greatly improves construction quality.

1 is a diagram illustrating a conventional marine mat installation method
2 is a perspective view of the present invention
Figure 3 is a perspective view of the partial excerpted roller excerpt of the present invention
Figure 4 is an explanatory view of the mat installation method through the present invention
5 is an explanatory view of the loading box stacking mat withdrawal method of the present invention

Detailed configuration and operation of the present invention will be described with reference to the accompanying drawings.

Figure 2 is a perspective view showing the appearance of the present invention, as shown in the present invention, the floating body 20, floating on the water surface such as ships, barges or pontoons, the loading box 30 is installed on the upper surface of the floating body 20 and It consists of a series of rollers and the like consisting of the upper roller 41 to the driving roller 43.

The loading box 30 installed on the upper surface of the floating body 20 is a rectangular box having a storage space having a long width that matches the width of the mat 10, and as shown in FIG. 2, an outer enclosure is surrounded by a wall 31. And an open top structure.

The upper roller 41 installed above the loading box 30 has a central axis parallel to the loading box 30, that is, installed in a direction orthogonal to the moving direction of the mat 10 in the process of withdrawing the mat 10 to be described later. , It is preferable to be sufficiently spaced apart from the upper end of the loading box 30 to enable stable driving.

In addition, in the present invention, in addition to the upper roller 41, a series of roller systems are constructed, which are combined with the induction roller 42 and the driving roller 43, and the series of rollers is illustrated in FIG.

2 and 3, the upper roller 41, the induction roller 42 and the driving roller 43 which are installed on the upper surface of the floating body 20 are installed so that the central axis of all parallel to the upper roller 41, ) Is installed on the top of the support (51) protruding to the upper body 20 to maintain a sufficiently spaced state from the top of the loading box 30, the guide roller 42 and the driving roller 43 is floating in the loading box (30) 20 is installed on the bracket 52 spaced apart from the side, the central axis of the induction roller 42 is installed to be located below the central axis of the drive roller 43, the drive motor (43) on the drive roller (43) As the driving motor 49 rotates, the driving roller 43 is rotated.

As shown in FIG. 4, the mat 10 loaded in the loading box 30 of the present invention is stacked and stacked in a zigzag manner, and as shown in FIG. 4, the mat 10 is drawn out as the driving roller 43 rotates. The roller 41, the induction roller 42, and the driving roller 43 are introduced into the water sequentially.

That is, as shown in FIG. 5, the mat 10 loaded in the loading box 30 is drawn out according to the rotation of the driving roller 43, and the mat 10 stacked in a zigzag in the loading box 30 is sequentially peeled off. The upper surface of the upper roller 41, the lower surface of the induction roller 42, and the driving roller 43 are moved through the upper surface.

Therefore, in the prior art, while the roll 10 is wound around the entire roll 11, the mat 10 is unwound, whereas in the present invention, most of the stacked mat 10 is only part of the upper layer of the mat 10 loaded in a stationary state. The upper roller 41 is peeled upward, and the driving roller 43 is not only capable of stable driving irrespective of the total weight of the mat 10 loaded on the floating body 20 by transferring only the extracted and drawn out portions. , The agile control of the development speed and tension of the mat 10 is possible.

In addition, by stacking the mat 10 in a stacking box 30 in a zigzag stack 30, the mat 10 loading space on the floating body 20 can be significantly expanded, and can be generated in the conventional winding body 11 method. It is possible to fundamentally suppress the center of gravity movement of the floating body 20 due to the unwinding of the winding body 11, which can significantly increase the construction stability and installation area of the mat 10 per number of times the floating body 20 is injected. Can be.

10: Matt
11: winding body
19: heavy material
20: floating body
30: loading box
31: wall
41: upper roller
42: induction roller
43: drive roller
49: drive motor
51: Holding
52: bracket

Claims (1)

In the device which is installed on the floating body 20 floating on the water surface, the floating mat 20 is laminated on the sea bottom while the floating body 20 is moved,
On the upper surface of the floating body 20 floating on the water surface is provided with a storage box 30 is formed in the accommodating space having a long width is formed therein and the mat 10 is accommodated as an open rectangular upper box;
In the upper part of the loading box 30, an upper roller 41 having a central axis parallel to the loading box 30 is installed on the upper end of the support 51 protruding upward from the floating body 20, and the upper roller 41 is mounted on the upper box of the loading box 30. Are spaced apart from;
An induction roller 42 and a driving roller 43 parallel to the upper roller 41 are installed at one side end of the floating body 20, and a central axis of the induction roller 42 is smaller than a central axis of the driving roller 43. It is installed to be located on the lower side and the drive roller 43 is connected to the drive motor 49, the drive roller 43 is rotated as the drive motor 49 rotates;
In the stacking box 30, the mat 10 is stacked in a zigzag stack, and only a part of the upper layer of the loaded mat 10 is separated by the upper roller 41 and pulled out to the upper side. Marine mat installation apparatus, characterized in that it is introduced into the water through the lower surface of the 42 and the upper surface of the drive roller 43 in sequence.

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