KR101559512B1 - Aggregate Drop Apparatus for Barge - Google Patents

Abstract

The present invention provides an aggregate injecting apparatus for a barge, comprising: a barge main body including an aggregate reception part (11) vertically passing through a center thereof and air compartments (12) included in lower parts of both sides of the aggregate reception part (11); an opened/closed door (20) positioned on a lower end of the aggregate reception part (11) to be rotatably coupled with the barge main body (10) through a hinge and opened/closed to allow aggregation to be received into the aggregation reception part (11) or inject aggregate received in the aggregate reception part (11); and an opening/closing means opening and closing the opened/closed door (20). According to the present invention, aggregate is injected into a sea-bed to reduce the time for pavement, thereby reducing the entire construction period.

Description

[0001] Aggregate Drop Apparatus for Barge [

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an aggregate feeding device using a barge, and more particularly, to an aggregate feeding device using a barge to drop a aggregate on a marine ground using a barge to construct a breakwater, .

Generally, when constructing breakwaters and reclamation of reclaimed land, aggregate such as gravel, sand, and rock is dropped on the ground and installed.

The aggregate of the offshore ground is installed in the water by using the excavation equipment in a state where a certain amount of aggregate is loaded on the upper part of the ship such as a barge, and the inputted aggregate is uniformly installed by performing the selection in the water.

An example of a device for laying aggregates using a barge is Korean Registered Utility Model No. 20-0432122 (entitled: Design of a Subsea Pavement Using Mobile Sleeve Pipe), which is shown in FIG.

The bottom asphalt aggregate adhering apparatus includes an aggregate or concrete installation apparatus in which a hopper 102 and a casing pipe 101 are installed on a barge line 100. The aggregate or concrete installation apparatus includes a sleeve pipe 110 installed up and down outside the tip of the casing pipe, ; A winch motor (120) for providing power to raise and lower the sleeve pipe; A wire rope 130 connecting the sleeve pipe and the winch motor; Guiding means (140) for smoothly raising and lowering the sleeve pipe along the casing pipe; And a wire rope guide (150) for guiding the wire rope; .

Another example of a device for laying aggregates using a barge is the Korean Registered Utility Model No. 20-0435085 (design name: a water pressure aggregate installation device using a water level car to lay aggregate on the sea floor) 2.

The water aggregate placing apparatus includes a water pump 210 for supplying seawater to an upper part of the hopper 204, and a water pump 210 for supplying seawater to the upper part of the hopper 204, A pipe 213 for supplying seawater along the periphery of the upper part of the hopper 204 and a pipe 213 connected to the pipe for spraying the seawater into the casing pipe 205, A nozzle 214 is further provided.

The above-described aggregate laying apparatuses have an advantage in that they can accurately lay aggregate on the sea floor. However, since the aggregate is loaded on a barge and the loaded aggregate is put back into the hopper by using a crane, There is a problem that it takes a lot of time. Particularly, when the aggregate is put into the initial seabed surface, it is necessary to input a rock having a large size. However, there is a problem that the input amount is limited when the crane is put into the hopper, .

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an aggregate material input device using a barge to shorten the overall air by shortening the time for putting aggregate on the sea floor will be.

Another object of the present invention is to provide an apparatus for injecting an aggregate using a barge to facilitate the installation of small aggregates.

The apparatus for injecting an aggregate using a barge according to the present invention is characterized in that a rectangular shaped aggregate receiving portion 11 is vertically provided at a central portion and an air chamber 12 is provided at both sides of the aggregate receiving portion 11 A barge main body (10) provided; And is disposed at the lower end of the aggregate receiving portion 11 and hinged to the barge main body 10 in a rotatable manner so as to receive the aggregate in the aggregate receiving portion 11 or to discharge the aggregate contained in the aggregate receiving portion 11 An opening / closing door (20) opened / closed; Opening / closing means (30) for opening / closing the opening / closing door (20); And a control unit.

In addition, the opening and closing door 20 is hinged to one side of the barge main body 10 so as to be rotatable.

The opening and closing door 20 is installed so as to be inclined downward from the lower end of the aggregate receiving portion 11 and rotates to receive the aggregate in the aggregate receiving portion 11, The door main body 21 is integrally formed on the upper portion of the door main body 21 so as to be spaced apart from the door main body 21 so that the door main body 21 is rotated by being pivotally coupled with the opening / And an upper column 22 provided at a lower end of the aggregate receiving portion 11. The upper column 22 is provided at a portion where the door main body 21 and the upper column 22 are connected to each other, And a hinge engaging portion (23) to be engaged.

The door main body 21 of the opening and closing door 20 includes a horizontal member 21a installed in the same direction as the rotation axis direction of the door main body 21 and spaced apart from the door main body 21, And a longitudinal member 21b which is installed at a right angle to the direction of the rotation axis of the main body 21 and is spaced apart from the main body 21 by a predetermined distance so that seawater can flow into the aggregate receiving portion 11 in a lattice form.

The opening / closing door 20 is hinged to both sides of the barge main body 10 so as to be rotatable, and a portion located between the respective hinge engaging portions is divided into two pieces having the same size in parallel with the hinge rotation axis .

At this time, the opening / closing door 20 is installed so as to be inclined downward from the lower end of the aggregate receiving portion 11 and is rotated so as to receive the aggregate in the aggregate receiving portion 11, The door main body 21 is integrally formed on the upper portion of the door main body 21 so as to be spaced apart from the door main body 21 so that the door main body 21 is rotated by being pivotally coupled with the opening / And an upper column 22 provided at a lower end of the aggregate receiving portion 11. The upper column 22 is provided at a portion where the door main body 21 and the upper column 22 are connected to each other, And a hinge engaging portion (23) to be engaged.

The door main body 21 of the opening and closing door 20 includes a horizontal member 21a installed in the same direction as the rotation axis direction of the door main body 21 and spaced apart from the door body 21, And a longitudinal member 21b which is installed at a right angle to the direction of the rotation axis of the main body 21 and is spaced apart from the main body 21 by a predetermined distance so that seawater can flow into the aggregate receiving portion 11 in a lattice form.

When the door body 21 is horizontally positioned at the end of each door body 21, a fork-shaped protrusion 21c is formed so that the ends of the door body 21 are engaged with each other .

The opening and closing means 30 includes a motor 31 provided on the upper portion of the barge main body 10 and a rotating shaft 32 provided with a winding portion 32a which is connected to the motor 31 and wound, And the other end is connected to the upper end of the upper column 22 to be wound or loosened by being connected to the upper end of the upper column 22, A wire 33 for pivoting the pillar 22 and a wire 33 wound around the pillar 22 and fixed to the barge main body 10 located at the rear of the upper pillar 22, And a pulley (34) for rotating the upper column (22) by pulling or loosening the wire (33) by winding or loosening the wire (33).

A plate which is coupled to the door main body 21 and closes a gap between the transverse member 21a and the longitudinal member 21b to accommodate small aggregate such as sand in the aggregate receiving section 11 .

The inside of the barge main body 10 located in the aggregate receiving portion 11 is inclined from the top to the bottom or formed in an arc shape so that the area of the aggregate receiving portion 11 increases from the upper portion to the lower portion .

The locking and unlocking fixture 22a is formed at an upper portion of one side of each of the upper pillars 22 so that the upper and lower pillars 22 are locked and unlocked when the opening and closing door 20 is closed. A lock and unlocking cylinder 41 which is positioned close to the fixture 22a and fixed to the barge main body 10 and a lock and unlock cylinder 41 which is slid by each of the lock and unlock cylinders 41, And locking and unlocking means (40) each composed of a locking and unlocking piston (42) which is coupled to and separated from the fixture (22a) to lock and unlock the upper column (22) of the opening and closing door (20) .

A pump 50 for introducing or discharging seawater into the air chamber 12 so that buoyancy can be adjusted according to the weight of aggregate contained in the aggregate receiving unit 11; Is further provided.

The barge main body 10 is further provided with a buoyancy auxiliary air bag 60 which is attachable to and detachable from the lower end of the air chamber 12 and adds buoyancy to the barge main body 10, And a release preventing plate 13 hinged to both sides of the lower end of the seal 12 and foldable and unfolded to prevent release of the buoyancy auxiliary air bag 60.

In the present invention, the opening and closing door is closed by the opening and closing means and the aggregate is shipped to be accommodated in the aggregate containing portion provided in the barge main body by using a crane, etc. After the barge main body is moved to the dropping place, The opening and closing means opens the opening and closing means so that the aggregate contained in the aggregate receiving portion is simultaneously discharged into the water so that the aggregate is installed. Therefore, the time required for installing the aggregate is very short, .

In addition, the present invention is very advantageous in that the aggregate is simultaneously discharged into water, so that the water is flooded. Further, since the opening and closing means for driving the opening and closing door is provided above the barge line, corrosion from seawater can be minimized and repairing is easy.

Also, even if the particle size of the aggregate is small, such as sand, the forming force between the aggregates is reduced so that the side surface of the aggregate receiving portion is structured to be inclined or semi-arc shaped so that the aggregate contained in the aggregate receiving portion It is possible to facilitate dropping.

In the present invention, when the aggregate is received in the aggregate receiving part, it can be stacked as high as a truck, and a large amount of aggregate can be accommodated. Further, when the aggregate is loaded in the aggregate receiving part, the opening / closing door is inclined downward from the lower end of the aggregate receiving part, so that a larger amount of aggregate can be accommodated. In addition, since the opening / closing door is inclined downward from the lower end of the aggregate receiving portion, the impact of the aggregate on the opening / closing door can be reduced when the aggregate is dropped.

Further, since the opening / closing door is formed in a lattice shape and a large part of the aggregate contained in the aggregate receiving portion is operated by being immersed in water, the load of the aggregate contained in the aggregate receiving portion can be reduced and stably cope with the wave. Further, by reducing the load of the aggregate, the maneuverability of the barge line is improved, and the capacity of the motor, the engine, and the like driving the barge line can be reduced. In addition, since a large amount of aggregate is dropped in a state of being submerged in water, the impact applied to the opening / closing door at the time of inputting aggregate can be reduced.

In addition, three or more opening / closing means may be provided on the opening / closing door to prepare for an emergency such as a failure.

In addition, when the heavy aggregate material is loaded or the aggregate material is stacked on the aggregate receiving portion at a high height, buoyancy of the barge line is increased by using a buoyancy auxiliary air bag which can be detachably attached, so that stable loading is possible.

Further, when the height of the axle stacked in the water located in the lower part of the barge main body 10 is high, the buoyancy auxiliary air bag 60 further increases buoyancy in the barge main body 10, It makes it possible to put the aggregate into the water surface. As a result, the shaft can be stacked as high as possible, and the total air can be shortened due to accumulation of the shaft.

FIG. 1 and FIG. 2 are views showing an aggregate feeding device using a conventional barge.
3 is a perspective view illustrating a schematic structure of an apparatus for injecting an aggregate using a barge according to the present invention.
FIG. 4 is an exploded perspective view showing an open / close door separated from an aggregate feeding device using a barge according to the present invention.
5 is a perspective view showing an internal structure of an apparatus for injecting an aggregate using a barge according to the present invention.
6 is a plan view of an apparatus for injecting an aggregate using a barge according to the present invention.
7 is a longitudinal sectional view of an aggregate feeding device using a barge according to the present invention.
8 and 9 are longitudinal sectional views showing an operating state of an apparatus for injecting an aggregate using a barge according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

FIG. 3 is a perspective view showing a schematic structure of an apparatus for injecting an aggregate using a barge according to the present invention, FIG. 4 is a sectional view showing an apparatus for injecting an aggregate using a barge according to the present invention, FIG. 6 is a cross-sectional view illustrating an operation state of the buoyancy assisting air bladder of the apparatus for injecting an aggregate using the barge according to the present invention, and FIG. 7 is a sectional view showing the operation of the aggregate injecting apparatus using the barge according to the present invention. FIGS. 8 to 9 are plan views showing an apparatus for injecting an aggregate using a barge according to the present invention. FIG.

The aggregate feeding device using the barge of the present invention mainly comprises a barge main body 10, an opening and closing door 20, and an opening and closing means 30.

The barge main body 10 is provided with a square aggregate receiving portion 11 vertically penetrating the central portion thereof and an air chamber 12 is provided on both sides of the aggregate receiving portion 11 at both sides. In addition, the barge main body 10 is provided with a known driving device for navigation like a general ship.

Since the upper portion of the aggregate receiving portion 11 is open, it can be stacked as high as a truck when receiving the aggregate in the aggregate receiving portion, so that a large amount of aggregate can be accommodated. An opening / closing door (20) is provided at the lower end of the aggregate receiving portion (11).

The inside of the air chamber 12 is preferably inclined from the upper part to the lower part so that the area of the aggregate receiving part 11 increases from the upper part to the lower part.

When the particle size of the aggregate is small, such as sand, the aggregate contained in the aggregate receiving portion 11 may generate cohesive force, and aggregate may remain in the aggregate receiving portion 11 at the time of release. Therefore, when the inside of the air chamber 12 is formed so as to be inclined from the upper part to the lower part, aggregate having a small particle size accommodated in the aggregate receiving part 11 can be easily discharged to the outside of the barge main body 10.

Thus, even if the particle size of the aggregate is small like sand, the forming force between the aggregates is reduced so that the side surface of the aggregate receiving portion is structured to have a tilted structure or an arc shape so that the aggregate contained in the aggregate receiving portion is discharged .

At this time, a plate (not shown) that is coupled to the door body 21 and closes a gap between the transverse member 21a and the longitudinal member 21b to accommodate small aggregate such as sand in the aggregate receiving portion 11 (Not shown).

The reinforcing portion is formed in the shape of a square bar spaced apart from the inner wall of the barge main body 10 forming the aggregate receiving portion 11 so that the aggregate receiving portion 11, So that the inner wall of the barge main body 10 is prevented from being damaged by collision with the aggregate.

The opening and closing door 20 is located at the lower end of the aggregate receiving portion 11 and hinged to the barge main body 10 in a rotatable manner to receive the aggregate in the aggregate receiving portion 11, To open and close the aggregate contained therein.

The opening and closing door 20 may be hinged to one side of the lower end of the aggregate receiving portion 11 of the barge main body 10 so as to be rotatable.

The opening and closing door 20 may be divided into two parts.

In the figure, the opening and closing door 20 is hinged to be rotatable on both sides of the lower end of the aggregate receiving portion 11 of the barge main body 10, and a portion located between the hinge rotation axes is parallel to the hinge rotation axis And it is divided into two by the same size.

The opening and closing door 20 is composed of a door main body 21, an upper column 22 and a hinge engaging portion 23.

The door main body 21 is pivoted to receive the aggregate in the aggregate receiving portion 11 or to drop the aggregate contained in the aggregate receiving portion 11. [

The door main body 21 is preferably installed so as to be inclined downward from the lower end of the aggregate receiving portion 11.

In addition, when the aggregate is loaded in the aggregate receiving portion, the opening / closing door is inclined downward from the lower end of the aggregate receiving portion 11, so that a larger amount of aggregate can be accommodated. In addition, since the opening and closing door is inclined downward from the lower end of the aggregate receiving portion 11, the impact of the aggregate on the opening and closing door 20 can be reduced when the aggregate is dropped.

The upper pillars 22 are integrally formed at the upper portion of the door main body 21 and are installed at regular intervals. The upper pillars 22 are coupled with the opening / closing means 30 to rotate the door main body 21.

The hinge joint portion 23 is provided at a portion where the door main body 21 and the upper column 22 are connected to each other and is hinged to the barge main body 10 located at the lower end of the aggregate receiving portion 11, .

It is preferable that the upper and lower pillars 22 and 21 of the opening and closing door 20 are inclined at an obtuse angle with each other inside the aggregate receiving portion 11. [ The reason why the upper column 22 and the door body 21 form an obtuse angle is to facilitate the operation of the opening and closing means.

In order to accommodate the aggregate in the aggregate receiving portion 11 while the opening and closing door 20 is closed, the aggregate is dropped into the aggregate receiving portion 11 by using a crane or the like to be received. In this state, after the barge line is moved to the place where the aggregate is to be dropped, the opening and closing door 20 is opened so that the aggregate materials contained in the aggregate receiving portion 11 are simultaneously discharged.

As described above, according to the present invention, since the aggregate is simultaneously discharged into the water due to the opening of the opening and closing door 20, it is advantageous when the water flow is high.

The door main body 21 of the opening and closing door 20 includes a horizontal member 21a installed in the same direction as the rotation axis direction of the door main body 21 and spaced apart from the door body 21, And a longitudinal member 21b which is installed at a right angle to the direction of the axis of rotation of the pivot shaft 21a and spaced apart from the pivot shaft 21b by a predetermined distance so that seawater can flow into the aggregate receiving portion 11. [

When the door body 21 of the opening and closing door 20 is shaped like a lattice and seawater flows into the aggregate receiving portion 11 as described above, a large amount of aggregate contained in the aggregate receiving portion 11 is immersed in water The load of the aggregate contained in the aggregate receiving part 11 can be reduced, and it is possible to cope with the wave stably. Further, by reducing the load of the aggregate, the maneuverability of the barge line is improved, and the capacity of the motor, the engine, and the like driving the barge line can be reduced. Also, since the aggregate is dropped in a state where a large part of the aggregate is immersed in water, the impact applied to the opening and closing door 20 at the time of inputting the aggregate can be reduced.

Further, since the opening / closing door 20 is inclined downward from the lower end of the aggregate receiving portion when the aggregate is loaded in the aggregate receiving portion, a larger amount of aggregate can be accommodated. However, when the amount of aggregate is small The door body 21 of the opening and closing door 20 is horizontally positioned so that the aggregate can be loaded in the aggregate receiving portion 11. [ When the door main body 21 of the opening and closing door 20 is horizontally positioned, a fork-shaped protruding portion 21c is formed so that the end portions of the respective door main bodies 21 are staggered with each other.

9, when the aggregate contained in the aggregate receiving part 11 is released by the opening of the opening / closing door 20, the aggregate located on the upper part of the upper post 22 is dropped, So that the aggregate can be prevented from being impacted on the upper end of the upper column 22 and fall down along the inclined surface at the rear of the upper column 22, 22b. The impact preventing portion 22b also serves to prevent the aggregate from penetrating into the rear of the upper column 22 when the aggregate falls.

The opening and closing means 30 serves to open and close the opening and closing door 20 and includes a motor 31, a rotating shaft 32, a wire 33 (see FIG. 3) And a pulley 34, as shown in Fig.

The motor 31 is installed in the upper part of the inside of the barge main body 10.

The rotation shaft 32 is provided with a winding portion 32a that is connected to the motor 31 and is rotated to wind the wire.

The wire 33 is connected to the winding portion 32a and wound or loosened by the rotation of the rotation shaft 32. The other end of the wire 33 is connected to the upper end of the upper column 22 to be wound or loosened, And serves to rotate the upper column 22. When the wire 33 is loosened, the door main body 21 is rotated by its own weight and the upper pillar 22 formed integrally with the door main body 21 is rotated.

The wire 33 is wound on the pulley 34 and is fixed to the barge main body 10 located at the rear of the upper column 22. The wire 33 is wound by the rotation of the rotating shaft 32, Or by pulling or loosening by loosening to rotate the upper column 22.

At this time, the opening and closing means 30 is installed in the upper part of the barge main body 10 close to the upper column 22. [

Since the opening and closing means for driving the opening and closing door is installed above the barge line, corrosion from seawater can be minimized and repairing can be facilitated.

Although the opening and closing means 30 of the present invention is operated by winding the wire 33 using the motor 31, another type of opening and closing means for opening and closing the opening and closing door may be used. For example, it is of course possible to use a chain instead of a wire, an opening / closing means using a hydraulic or pneumatic device using a cylinder and a piston, and an opening / closing means using a gear.

The upper pillars 22 are provided at three or more positions at regular intervals in the longitudinal direction of the opening and closing door 20 and at least three wires 33 of the opening and closing means 30 are provided to cause a failure It is desirable to prepare for emergencies.

7 and 8, in which the opening and closing door 20 is closed, when the rotation shaft 32 is rotated by the rotation of the motor 31 to release the wire 33 as shown in FIG. 9, The upper column 22 of the opening and closing door 20 is pivoted downward by the weight of the door main body 21 about the hinge engaging portion 23 toward the aggregate receiving portion 11 and the door main body 21 is opened The aggregate contained in the aggregate receiving portion 11 is dropped downward along the door main body 21 of the opening and closing door 20 to be dropped.

Thus, according to the present invention, the opening and closing door 30 is closed by the opening and closing means 30 and the aggregate is shipped to be accommodated in the aggregate receiving portion 11 provided in the barge main body 10 by using a crane or the like , The opening / closing door (20) is opened by the opening / closing means (30) without using a separate crane or the like after the barge main body (10) is moved to the dropping place, The aggregate is laid down by being poured into water at the same time. Therefore, it takes less time to construct the aggregate, and thus the air can be shortened.

3, 5 and 7 show a state in which the lower end of the aggregate receiving portion 11 is closed in a state in which the door main body 21 is horizontal. Fig. 8 shows a state in which the door main body 21 is inclined downward The lower end of the aggregate receiving portion 11 is closed.

8 shows a state in which the rotation shaft 32 is rotated by the rotation of the motor 31 in the state of Fig. 7 so that the wire 33 is pulleyed and the end of the projection 21c formed at the end of the door main body 21 And the lower end of the aggregate receiving portion 11 is closed.

8, when the lower end of the aggregate receiving portion 11 is closed with the door main body 21 inclined downward, the amount of aggregate contained in the aggregate receiving portion 11 becomes larger Is greater than the amount of aggregate contained in the aggregate receiving portion 11 shown in Fig.

As described above, according to the present invention, the door main body 21 is positioned horizontally or inclined so that it can be variably controlled according to the amount of aggregate.

When the door main body 21 is rotated in the state of Fig. 3, Fig. 5 and Fig. 7 with the amount of aggregate being less than that of Fig. 8, the end portions of the respective door bodies 21 are forked So that the protruded portion 21c is formed. Fig. 6 is a plan view of Fig. 3, Fig. 5 and Fig. 7, in which the protrusions 21c are stitched together.

The protruding portion 21c may close the lower end of the aggregate receiving portion 11 when the door main body 21 is inclined downward as shown in FIG.

When the rotation shaft 32 is rotated by the rotation of the motor 31 in the state of FIGS. 7 and 8 and the wire 33 is completely released, the state shown in FIG. 9 is attained. So that the aggregate can be dropped into the water.

The opening / closing door (20) can be rotated by its own weight and opened when the opening / closing means (30) is disabled. In such a case, a safety accident may occur in a state where the aggregate is accommodated in the aggregate receiving portion 11. [

Therefore, a locking and unlocking means (40) for maintaining the closed state of the opening / closing door (20) in order to maintain the aggregate receiving portion (11) In addition, a locking and unlocking fixture 22a is formed at an upper portion of one side of the upper column 22 of the opening / closing door 20. [

The locking and unlocking means 40 comprises a locking and unlocking cylinder 41 and a locking and unlocking piston 42 as shown in FIG.

The locking and unlocking cylinder 41 is located close to the locking and unlocking fixture 22a of the upper column 22 in the closed state of the opening and closing door 20, .

The locking and unlocking piston 42 is slid by each of the locking and unlocking cylinders 41 and is engaged with and separated from the locking and unlocking fixture 22a so that the upper and lower posts 22 ).

A pump 50 for introducing or draining the seawater into the air chamber 12 is provided on the barge main body 10 so that buoyancy can be adjusted according to the weight of aggregate contained in the aggregate receiving unit 11 .

When the aggregate is received in the aggregate receiving portion 11 of the barge main body 10, the pump 50 is operated in the air chamber 12 to drain the seawater flowing into the air chamber 12, The buoyancy of the barge main body 10 is increased so that the aggregate is discharged from the aggregate receiving portion 11 of the barge main body 10 and is empty, So that buoyancy of the barge main body 10 can be controlled by reducing buoyancy of the barge main body 10. [

The buoyant force can be adjusted by using the buoyancy auxiliary air bag 60 (see FIG. 9) that adds buoyancy to the barge main body 10 when the aggregate loaded in the aggregate receiving portion 11 is heavy.

When the heavy aggregate material is loaded or the aggregate material is stacked on the aggregate material receiving portion at a high height, buoyancy of the barge ship is increased by using the buoyancy auxiliary air bag 60 that can be attached and detached, Can be stably loaded.

The buoyancy auxiliary air bag 60 is detachably attached to the lower end of the barge main body 10 and serves to add buoyancy to the barge main body 10 to multiply.

The buoyancy auxiliary air bladder 60 increases the buoyancy of the barge main body 10 by increasing the buoyancy force of the barge main body 10 to the highest possible level when the height of the axle stacked in the water located at the lower part of the barge main body 10 is high, So that the aggregate can be input. As a result, the shaft can be stacked as high as possible, and thus the air can be shortened.

The buoyancy auxiliary air bag 60 may be provided on both sides of the barge body 10 as viewed from above, or may have the same shape as the barge body 10.

At this time, the buoyancy auxiliary air bag 60 is located at the lower portion of the barge main body 10, and in order to prevent the buoyancy auxiliary air bag 60 from being separated from the lower portion of the barge main body 10, 13).

The departure prevention plate 13 is hinged to both sides of the lower end of the barge main body 10 to be folded and folded to prevent the buoyancy auxiliary air bag 60 from escaping.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10: barge main body 11: aggregate receiving part
12: air chamber 20: opening / closing door
21: door main body 21a:
21b: longitudinal member 21c:
22: upper column 23: hinge coupling part
30: opening / closing means 31: motor
32a: winding section 32: rotating shaft
33: Wire 34: Drape
40: locking and unlocking means 50: pump
60: Buoyancy auxiliary air bag

Claims (14)

delete delete delete A barge main body 10 having a square shaped aggregate receiving portion 11 vertically penetrating the central portion thereof and having an air chamber 12 at both sides below the aggregate receiving portion 11;
And is disposed at the lower end of the aggregate receiving portion 11 and hinged to the barge main body 10 in a rotatable manner so as to receive the aggregate in the aggregate receiving portion 11 or to discharge the aggregate contained in the aggregate receiving portion 11 An opening / closing door (20) opened / closed;
Closing means (30) for opening / closing the opening / closing door (20)
The opening and closing door 20 is hinged to one side of the lower end of the barge main body 10 to be rotatable,
The opening / closing door (20)
A door main body 21 installed to be inclined downward from the lower end of the aggregate receiving portion 11 and rotated to receive the aggregate in the aggregate receiving portion 11 or to discharge aggregate contained in the aggregate receiving portion 11; ,
An upper pillar 22 integrally formed at an upper portion of the door main body 21 and provided at a predetermined interval and pivotally coupled with the opening and closing means 30 to pivot the door main body 21,
A hinge engaging portion 23 provided at a portion where the door main body 21 and the upper column 22 are connected and rotatably hinged to the barge main body 10 located at the lower end of the aggregate receiving portion 11, Lt; / RTI >
The door main body 21 of the opening and closing door 20 includes a horizontal member 21a installed in the same direction as the direction of the rotation axis of the door main body 21 and spaced apart from each other by a predetermined distance, And a longitudinal member (21b) installed in a direction perpendicular to the coaxial direction and spaced apart from each other by a predetermined distance so that seawater can flow into the aggregate receiving portion (11). Device. delete A barge main body 10 having a square shaped aggregate receiving portion 11 vertically penetrating the central portion thereof and having an air chamber 12 at both sides below the aggregate receiving portion 11;
And is disposed at the lower end of the aggregate receiving portion 11 and hinged to the barge main body 10 in a rotatable manner so as to receive the aggregate in the aggregate receiving portion 11 or to discharge the aggregate contained in the aggregate receiving portion 11 An opening / closing door (20) opened / closed;
Closing means (30) for opening / closing the opening / closing door (20)
The opening / closing door 20 is hinged to both sides of the barge main body 10 so as to be rotatable, and a portion located between the hinge engaging portions is divided into two pieces having the same size in parallel with the hinge rotation axis,
The opening / closing door (20)
A door main body 21 installed to be inclined downward from the lower end of the aggregate receiving portion 11 and rotated to receive the aggregate in the aggregate receiving portion 11 or to discharge aggregate contained in the aggregate receiving portion 11; ,
An upper pillar 22 integrally formed at an upper portion of the door main body 21 and provided at a predetermined interval and pivotally coupled with the opening and closing means 30 to pivot the door main body 21,
A hinge engaging portion 23 provided at a portion where the door main body 21 and the upper column 22 are connected and rotatably hinged to the barge main body 10 located at the lower end of the aggregate receiving portion 11, And an aggregate feeding device using the barge. The method according to claim 6,
The door main body 21 of the opening and closing door 20 includes a horizontal member 21a installed in the same direction as the direction of the rotation axis of the door main body 21 and spaced apart from each other by a predetermined distance, And a longitudinal member (21b) installed in a direction perpendicular to the coaxial direction and spaced apart from each other by a predetermined distance so that seawater can flow into the aggregate receiving portion (11). Device. 8. The method of claim 7,
And a fork-shaped protrusion 21c is formed at an end of each door body 21 so that the ends of the door body 21 are engaged with each other when the door body 21 is horizontally positioned An aggregate injection device using a barge. The method according to claim 4 or 8,
The opening / closing means (30)
A motor 31 installed on the inside of the barge main body 10,
A rotating shaft 32 provided with a winding portion 32a connected to the motor 31 for winding the wire,
And the other end is connected to the upper end of the upper column 22 and is wound or unwound so that the upper end of the upper column 22 is engaged with the upper end of the upper column 22. [ A wire 33 for pivoting,
The wire 33 is wound and fixed to the barge main body 10 positioned at the rear of the upper column 22. The wire 33 is wound or pulled by the rotation of the rotating shaft 32 And a pulley (34) for rotating the upper column (22) by loosening the upper column (22). 10. The method of claim 9,
A plate that is coupled to the door body 21 and closes a gap between the transverse member 21a and the longitudinal member 21b to allow small aggregate such as sand to be accommodated in the aggregate receiving portion 11 And the aggregate is fed into the vessel. The method according to claim 4 or 8,
The inner side of the barge main body 10 located in the aggregate receiving portion 11 is inclined from the upper portion to the lower portion or formed in an arc shape so that the aggregate receiving portion 11 becomes wider as it goes from the upper portion to the lower portion Aggregate injection system using barge. The method according to claim 4 or 8,
A locking and unlocking fixture 22a is formed at an upper side portion of one side of each of the upper pillars 22,
The lock and unlocking cylinders 41 (41) and 42 (42) which are located close to the lock and unlocking fasteners 22a of the respective upper columns 22 in the closed state of the opening and closing door 20 and fixed to the barge main body 10, And a locking mechanism (not shown) which is slid by the respective locking and unlocking cylinders 41 and is engaged with and separated from the locking and unlocking fixture 22a to lock and unlock the upper column 22 of the opening and closing door 20 And a locking and unlocking means (40) composed of a locking and unlocking piston (42) of the barge. The method according to claim 4 or 8,
A pump 50 for introducing or draining the seawater into the air chamber 12 so that buoyancy can be adjusted according to the weight of aggregate contained in the aggregate receiving unit 11, Wherein the barge is provided with a plurality of barges. The method according to claim 4 or 8,
The buoyancy auxiliary air bag 60 is detachably attached to the lower end of the air chamber 12 of the barge main body 10 and adds buoyancy to the barge main body 10,
And a departure prevention plate 13 hinged to both sides of the lower end of the air chamber 12 of the barge main body 10 so as to be folded and folded to prevent the buoyancy auxiliary air bag 60 from being released. An aggregate injection device using a barge.

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