KR102474157B1 - Seabed rock berm leveling device - Google Patents

Abstract

The present invention relates to an underwater rubble stone picking device, and more particularly, to an underwater rubble stone picker capable of dropping rubble stones into water without a diver and performing a flattening operation at the same time.
An underwater rubble stone picker according to the present invention includes a moving means, a rubble stone frame means, and a chute means. The moving means can move forward and backward on the upper surface of the underwater foundation rubble stone having a flat upper surface and an inclined surface on the side. The rubble stone frame means includes an inlet through which rubble stones can flow in and an outlet formed thereon to support the rubble stones introduced through the inlet to be discharged to the inclined surface, so as to dispose the discharge port on the inclined surface. It is rotatably mounted on the means. The chute means is mounted on the moving means so that the rubble stone supplied into the water can be guided to the inlet.
According to the present invention, when the rubble stone is dropped from the barge, the rubble stone is dropped on the slope of the foundation rubble stone, the rubble stone is evenly laid at a certain height, and the rubble stone is pressed by the pressing plate to perform a flattening operation. Therefore, flattening work can be performed simultaneously with the dropping of rubble stones.

Description

Underwater rubble stone leveling device {Seabed rock berm leveling device}

The present invention relates to an underwater rubble stone picking device, and more particularly, to an underwater rubble stone picker capable of dropping rubble stones into water without a diver and performing a flattening operation at the same time.

During underwater construction, in order to install structures such as caisson, intake and drainage hull, immersed hull, and block underwater in the construction of quay walls, breakwaters, immersed tunnels, power plant water intakes, etc., rubble stones, which are the foundations, must be dropped and leveled (leveling work). .

In order to flatten the rubble in the water, conventionally, the barge is directly dropped into the water, the depth of the water is measured to see if the dropped height is appropriate, and the first drop is performed by adding additional drop to the insufficient part. The selection was done by adding or subtracting by measuring the height after installation.

Registered Utility No. 20-0327417 (Registered on September 09, 2003) Registration No. 10-0651697 (registration date: November 23, 2006) Registered Utility Model No. 20-0266873 (Registered on February 22, 2002) Patent Publication No. 10-2017-0020829 (published on February 24, 2017)

In the conventional case, the rubble stone drop-picking operation is a method in which the rubble stone is dropped into the water with a bucket of equipment such as an excavator on the surface of the water, and the diver goes into the water where the rubble stone is dropped and flattens the rubble stone. It was short and a large number of divers were mobilized to work in shifts.

In addition, there are many underwater working conditions such as tides and securing underwater visibility, and there is a problem in that underwater working efficiency is reduced due to a diver's working time limit.

As for a more advanced method, underwater equipment for leveling with an underwater excavator or underwater bulldozer has also been developed because underwater work by divers is difficult.

However, leveling work (leveling) by these equipment is also possible in very clean water where visibility is secured, and above all, even if underwater equipment such as an underwater excavator is used for leveling work (leveling) that first drops rubble stones and then adjusts the height secondly The problem was difficult to solve.

The present invention is to solve the above problems. An object of the present invention is to provide an underwater rubble stone leveling device capable of flatly leveling at the same time as dropping rubble stones.

In addition, an object of the present invention is to provide an underwater rubble leveling device capable of flatly leveling the bottom of the water without inputting a large number of divers.

An underwater rubble stone picker according to the present invention includes a moving means, a rubble stone frame means, and a chute means. The moving means can move forward and backward on the upper surface of the underwater foundation rubble stone having a flat upper surface and an inclined surface on the side. The rubble stone frame means includes an inlet through which the rubble stones can flow in and an outlet formed thereon to support the rubble stones introduced through the inlet to be discharged to the inclined surface, so as to dispose the discharge port on the inclined surface. It is rotatably mounted on the means. The chute means is mounted on the moving means so that the rubble stone supplied into the water can be guided to the inlet.

In addition, it is preferable that the above-mentioned underwater rubble stone picking device further includes a conduit means. The conduit means includes a plurality of baskets, flexible connecting strings and a winch. The plurality of baskets have upper and lower portions that are open, and have a wide upper portion and a narrow lower portion so that they can be sequentially inserted and stacked in a row. The connection string is such that the upper basket of the plurality of baskets can receive rubble stones input from the ground and the lower basket spreads the plurality of baskets in a row so that the input rubble stones can be guided to the chute means. Connect each basket. The winch is connected to the basket to overlap the plurality of unfolded baskets. Thus, the conduit means can supply the rubble stones introduced from the ground to the chute means.

In addition, in the underwater rubble picking device, the connection string is composed of each end connecting baskets adjacent to each other in the vertical direction, and each end is preferably connected to the adjacent end at a predetermined angle in the radial direction.

In addition, in the above-mentioned underwater rubble stone picking device, it is preferable that the chute means includes a chute and a fixing member. The chute is inclined so that the sandstone is slid and introduced into the inlet, and the lower part is located in the inlet. The fixing member is located at the top of the chute to fix the lower basket so that the rubble stones are dropped from the conduit means to the top of the chute.

In addition, in the underwater rubble stone picking device, the rubble stone frame means moves forward together with the rubble stone frame when the rubble stone frame advances so that the rubble stones dropped from the rubble stone frame are at the same height as the upper surface of the foundation rubble stone. It is preferable to further include a pressing plate compacting the upper surface of the.

In addition, in the above-mentioned underwater rubble stone picking device, it is preferable that the outlet is inclined to discharge the rubble stones on the inclined surface.

In addition, in the above-mentioned underwater rubble stone picking device, it is preferable that the pressing plate has a pressing surface inclined at a predetermined angle so that the pressing surface presses the upper surface of the rubble stone.

According to the present invention, when the rubble stone is dropped from the barge, the rubble stone is dropped on the slope of the foundation rubble stone, the rubble stone is evenly laid at a certain height, and the rubble stone is pressed by the pressing plate to perform a flattening operation. Therefore, flattening work can be performed simultaneously with the dropping of rubble stones.

In addition, underwater work by divers has many restrictions due to underwater work conditions in which underwater visibility must be secured according to the flow of tides or water turbidity, etc. can be replaced with In particular, in deep water, it is more efficient and safer than conventional work, and has the effect of reducing construction costs by shortening the work period.

1 is a conceptual diagram of an embodiment of a rubble stone picking device according to the present invention;
2 is a partial conceptual diagram of a moving means and a rubbing frame means of the embodiment of FIG. 1;
3 is a conceptual diagram of a basket and a connection spring in the embodiment of FIG. 1;
4 to 6 are conceptual diagrams of underwater rubble picking using the embodiment of FIG. 1 .

An embodiment of a rubble stone picking device according to the present invention will be described with reference to FIGS. 1 to 6 .

The rubble stone leveling device according to the present invention includes a moving means 10, a rubbing frame means 20, a chute means 30 and a conduit means 40.

The moving means 10 can move forward and backward on the upper surface 1a of the foundation rubble stone 1 in the water. The basic rubble stone 1 is basically formed by a diver submerging in water, and is made to a minimum size enough for the moving means 10 to work. Therefore, since the range of the basic rubble stones 1 is not large, a small number of divers can work within a short time. The foundation rubble stone 1 has a flat top surface 1a and an inclined side surface 1b.

The rubble stone frame means 20 drops the rubble stone (3) on the inclined side surface (1b) of the foundation rubble stone (1) in the water and flattens the upper surface of the dropped rubble stone (3) to cover the range of the foundation rubble stone (1) serves to widen the To this end, the rubbing stone frame means 20 includes a rubbing stone frame 21 and a pressing plate 25 and is rotatably mounted on the moving means 10.

The rubble stone frame 21 is formed with an inlet 24a through which the rubble stone 3 can flow in and an outlet 22b through which the rubble stone 3 introduced through the inlet 24a can be discharged to an inclined slope. At this time, the rubble stone frame 21 supports the rubble stone 3 so that it can be discharged to the slope through the discharge port 22b. In this embodiment, the rubble stone frame 21 is configured by being separated into a lower frame 22 and an upper frame 24.

The lower frame 22 has an opening 22a through which the rubble stone 3 can be introduced, and an outlet 22b. The opening 22a is formed at the top to receive the rubble stone 3 from the upper frame 24, and the outlet 22b is formed to be inclined so that it can be discharged to the inclined side surface 1b. At this time, it is preferable that the inclination of the outlet 22b is steeper than the inclination angle of the inclined side surface 1b. So, when the outlet 22b of the lower frame 22 is located on the side surface 1b of the foundation rubble stone 1, the rubble stone 3 introduced into the opening 22a is supported inside the lower frame 22 and discharged ( 22b) is discharged to the side (1b). And since the lower frame 22 must move forward, it is preferable not to touch the bottom of the water.

The upper frame 24 is formed with an inlet 24a and an outlet 24b. The inlet (24a) is formed at the top so that the ripple stones (3) falling from the chute means (30) can be supplied, and the outlet (24b) is the ripple stone (3) supplied to the inlet (24a) of the lower frame (22). It is formed at the bottom to be inserted into the opening 22a so that it can be supplied to the opening 22a. The rubble stone frame 21 confines the rubble stone 3 supplied from the chute means 30, and when the rubble stone frame 21 advances in the X direction, the rubble stone 3 trapped in the rubble stone frame 21 is discharged from the lower frame It is discharged through (22b).

At this time, the outlet 24b of the upper frame 24 forms the upper end of the rubble stone 3 discharged to the lower frame outlet 22b at a certain height, that is, the outlet 24b of the upper frame 24 forms the base rubble stone 1 It is located slightly higher than the upper surface 1a of and determines the height of the rubble stone 3 discharged by the outlet 24b. The upper surface of the foundation rubble stone 1 ( 1a) It is adjusted to the height.

When the rubbing stone frame 21 moves forward, the pressing plate 25 presses and flattens the upper surface of the rubble stone 3 dropped from the rubbing stone frame 21 while advancing together with the rubbing stone frame 21. To this end, the pressing plate 25 is coupled to the lower frame 22 . When the lower frame 22 of the rubble stone frame 21 advances, the rubble stone 3 supported inside the lower frame 22 is discharged to the inclined side surface 1b of the foundation rubble stone 1 through the outlet 22b. do. The pressing plate 25 presses the upper surface of the rubble stone 3 discharged on the inclined side surface 1b to flatten the rubble stone 3. To this end, the pressing plate 25 of this embodiment is formed with a pressing surface 26 for pressing the upper surface of the rubble stone. Since the pressing surface 26 is inclined at a certain angle, when the pressing plate 25 moves along the rubbing stone frame 21, the upper surface of the rubbing stone 3 dropped from the rubbing stone frame 21 is pressed.

Since the rubbing stone frame means 20 is rotatably mounted on the moving means 10 with a hydraulic cylinder or the like, the moving means 10 is moved and then the rubbing stone frame means 20 is rotated to open the discharge port 22b from the foundation rubble stone 1 ) It can be located on the inclined side (1b) of.

The chute means 30 is mounted on the moving means 10 so that the rubble stones 3 supplied from the conduit means 40 can be guided to the inlet 24a of the rubble stone mold 21. So, the chute means 30 moves together with the moving means 10. To this end, the chute means 30 includes a chute 31 and a fixing member 35. The chute 31 guides the rippling stones 3 falling from the conduit means 40 to the rippling stone frame 21. In this embodiment, the chute 31 is composed of an upper chute portion 32 and a lower chute portion 33. At this time, in the upper chute part 32 and the lower chute part 33, when the ripple stone 3 is supplied from the conduit means 40, the ripple stone 3 can be evenly distributed on the riprap stone frame 21 and fall off. It is desirable to form a

The fixing member 35 makes it possible to fix the basket 41 at the bottom of the conduit means 40 so that the rubble stone 3 is dropped from the conduit means 40 to the upper part of the chute 31. To this end, the fixing member 35 is mounted on the upper chute part 32 so that the lower basket 41 can be inserted.

The conduit means 40 makes it possible to supply the rippling stone 3 from the barge 7 to the chute 31. To this end, the conduit means 40 includes a plurality of baskets 41, a connecting string 43, and a winch 45. The plurality of baskets 41 have upper and lower portions open, and are formed with a wide upper portion and a narrow lower portion so that they can be sequentially inserted and stacked in a row. Since the upper and lower portions of the basket 41 are open, when the baskets 41 are arranged in a row, the basket 41 penetrates from the upper basket 41a to the lower basket 41b. Therefore, when the rubble stones 3 are dropped on the upper basket 41a, they fall through the lower basket 41b. In addition, since the basket 41 has a wide upper part and a narrow lower part, the baskets 41a may be overlapped. Even in this case, if the rubble stones 3 are dropped on the upper basket 41a, they fall through the lower basket 41b.

The connecting string 43 is formed flexibly and connects the basket 41 so that the basket 41 can be spread in a row from the barge 7 to the chute means 30. That is, the connection string 43 connects the baskets 41 adjacent to each other along the height direction. At this time, the connection string 43 is composed of each end connecting the baskets 41 adjacent to each other. In this embodiment, the basket 41 may be unfolded or folded. When the connection strings 43 are connected to the basket 41 so as to be straight in the vertical direction, when the baskets 41 are overlapped, the connection strings 43 overlap each other. In this case, because of the connection string 43, the basket 41 cannot be properly overlapped. In order to solve this problem, the connection string 43 connects the baskets 41 adjacent to each other vertically, and when connecting the next baskets 41 adjacent to each other, they are displaced at a certain angle in the radial direction. Therefore, each adjacent end of the connecting string 43 is displaced at a constant angle in the radial direction. That is, when connecting successively neighboring baskets 41_n1, 41_n2, 41_n3, a connection string 43 connecting the first neighboring baskets 41_n1 and 41_n2 and a connection string connecting the second neighboring baskets 41_n2 and 41_n3 ( 43) is shifted at a constant angle in the circumferential direction. In this case, when the baskets 41 are overlapped, the connecting strings 43 located up and down do not get tangled with each other.

The winch 45 is connected to the basket 41 so as to overlap a plurality of baskets 41 spread out. To this end, the winch 45 is mounted on the barge 7 so as to be connected to the basket 41b located at the bottom. When the winch 45 is wound, the basket 41 located at the bottom rises and the baskets 41 arranged in a row are sequentially stacked.

By using this embodiment, the rubble stone 3 is dropped into the water where the basic rubble stone 1 is formed, and the rubble stone picking operation can be performed. The basic rubble stone 1 is basically formed by diving by divers underwater, but since it is formed only in a size large enough for the means of transportation 10 to work, a small number of divers can work in a short time because the size is not large. do. At this time, the foundation rubble stone 1 has an upper surface 1a flat and a side surface 1b inclined.

If there is a basic rubbing stone (1), the moving means (10) is positioned on the upper surface (1a) of the basic rubbing stone (1). In addition, after moving the moving means 10 to the side surface 1b of the basic rubble stone 1, the rubble stone frame means 20 is rotated to open the outlet 22b of the lower frame 22 as shown in FIG. It is located on the side surface (1b) of (1).

Then, the conduit means (40) is dropped in a row from the barge (7). Since the plurality of baskets 41 are coupled by the connection string 43, when the winch 45 is operated, the baskets 41 are dropped in a row. At this time, the lower basket 41b is fixed to the fixing member 35 of the chute means 30. Since the basket 41 is mounted on the barge 7, it can be moved by waves. Therefore, it is necessary that the basket 41 is fixed to the fixing member 35 in order to guide the rubbing stone 3 to the chute 31. In addition, since the plurality of baskets 41 are connected by the connection string 43, the length of the conduit means 40 can be adjusted. That is, the length of the conduit means 40 can be adjusted according to the water depth using the winch 45. When the basket 41 is fixed to the chute 31, the barge 7 drops the rubble stone 3 onto the basket 41a at the top of the conduit means 40. Then, as shown in FIG. 5, the rubbing stone 3 is supplied to the rubbing stone frame 21. In the rubble stone frame 21, the rubble stone 3 is supported by the lower frame 22 of the rubble stone frame 21 and disposed on the side surface 1b of the foundation slope 1. Then, while dropping the rubble stone 3 from the barge 7, the moving means 10 is moved in the direction of the arrow X. Then, the rubble stone frame 21 advances and the rubble stone 3 is discharged from the rubble stone frame 21 to increase the area of the foundation rubble stone 1. When the rubbing stone frame 21 moves forward, the pressing plate 25 presses the upper surface of the rubbing stone 3 dropped from the rubbing stone frame 21 while advancing together with the rubbing stone frame 21. Accordingly, the upper surface of the dropped rubble stones 3 is also formed flat. Therefore, according to this embodiment, it is possible to perform a flattening (leveling) operation simultaneously with dropping the rubble stones 3. And the divers can work on rippling without going underwater. Underwater work by divers has many limitations because it is necessary to secure underwater visibility according to the flow of current or turbidity of water. . In particular, the work according to the present embodiment in deep water can reduce the construction cost by shortening the work period more efficiently and safely than the work by a diver.

1: basic sand stone 3: sand stone
7: barge 10: means of transportation
20: sandstone frame means 21: sandstone frame
22: lower frame 22a: opening
22b: outlet 24: upper frame
24a: inlet 24b: outlet
25: press plate 26: press surface
30: chute means 31: chute
32: upper chute 33: lower chute
35: fixing member 40: conduit means
41: basket 43: connection string
45: winch

Claims (7)

A moving means capable of moving forward and backward on the upper surface of the basic rubble stone in the water having a flat upper surface and an inclined surface on the side;
An inlet through which rubble stones can flow in, and a rubble stone frame formed with an outlet capable of supporting the rubble stones introduced into the inlet to be discharged to the inclined surface so that the rubble stones introduced into the inlet are stacked higher than the height of the foundation rubble stones are provided to arrange the outlet on the inclined surface. A sandstone frame means rotatably mounted on the moving means so as to be able to do so;
And a chute means mounted on the moving means so that the rubble stone supplied into the water can be guided to the inlet,
The rubbing stone frame means is formed with a pressing surface inclined at a certain angle, so that when the rubbing stone frame advances, the rubble stone dropped from the rubble stone frame while advancing together with the rubble stone frame has the same height as the upper surface of the foundation rubble stone. The rubble stone picker, characterized in that it further comprises a pressing plate for pressing and compacting the upper surface of the dropped rubble stone. According to claim 1,
A plurality of baskets with upper and lower parts open and having a wide upper part and a narrow lower part so that they can be sequentially inserted and stacked in a row;
Among the plurality of baskets, the upper basket can receive the rubble stones input from the ground, and the lower basket can guide the input rubble stones to the chute means, so that the plurality of baskets are spread out in a row. A flexible connection string that connects;
The rubble stone picking device further comprises a conduit means for supplying the rubble stones introduced from the ground to the chute means having a winch connected to the basket so as to overlap the plurality of unfolded baskets. According to claim 2,
The connection string is composed of each end connecting the baskets adjacent to each other in the vertical direction, and each end is connected to the neighboring end at a predetermined angle in the radial direction. The method of claim 3, wherein the chute means
A chute with a lower portion located at the inlet by being inclined so that the rubble stones are slid and introduced into the inlet;
The conduit means includes a fixing member located on the upper part of the chute to fix the lower basket so that the rubble stones are dropped to the upper part of the chute. According to any one of claims 1 to 4,
The rubble stone picking device, characterized in that the outlet is formed inclined to discharge the rubble stone on the inclined surface.
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