KR102659351B1 - Waterborne aggregate placing equipment - Google Patents

Abstract

The present invention is a water-based aggregate installation method in which aggregate is selected, compacted, and laid on the underwater ground to reinforce the soft ground of the river bottom or seabed, to construct the foundation of an underwater structure, or to prevent scour of the river bottom, seabed, and underwater structures. It relates to equipment, and the configuration of the present invention for this purpose is a barge loaded with heavy equipment that is towed by a tugboat connected to the front while floating on the water and moves the aggregates loaded on the upper surface to the rear to be laid on the underwater ground. A water aggregate laying equipment comprising: a transfer unit installed at the rear end of the barge and consisting of a belt conveyor that transfers the aggregate moved through the heavy equipment to the rear and drops it onto the underwater ground; A height control unit provided in the shape of a plate in a width direction perpendicular to the transfer direction of the aggregates on the upper side of the transfer unit, linked to the speed at which the barge is towed, and guiding the height at which the aggregates are laid on the underwater ground to be adjusted; The height adjustment unit has a plate shape extending backward from both ends in the width direction and has a certain height to prevent aggregates from being lost outward in the width direction, as well as a transfer guide unit that guides the transfer of aggregates while controlling the width at which the aggregates are laid. ; and a cover part that covers the transport guide part to block dust or dust contained in the aggregates from scattering and prevents the aggregates from being lost along with the transport guide part.

Description

Waterborne aggregate placing equipment}

The present invention relates to aquatic aggregate laying equipment, and specifically, to reinforce the soft ground of a river bottom or seabed, to construct the foundation of an underwater structure, or to prevent scour of a riverbed, seabed, or underwater structure. It relates to aquatic aggregate laying equipment that levels, compacts, and lays on underwater ground.

In general, the work of dropping aggregate on the underwater ground is performed to reinforce the soft ground of the river bottom or seabed, to construct the foundation of an underwater structure, or to prevent scour of the river bottom, seabed, and underwater structures. do.

In particular, in deep rivers, seas, and river bottoms or seabeds where bridges are installed, the underwater bottom is severely scoured by high flow rates, and the underwater bottom where the bridge foundation is buried is exposed to high flow rates, causing rapid corrosion and wear. Of course, this caused problems such as environmental destruction, so the above-described aggregate laying work had to be performed.

In order to lay aggregate in water as described above, conventionally, as shown in FIG. 1, aggregate (2) such as riprap, crushed stone, or sand is loaded on a barge (1) and moved to the place where the aggregate (2) is to be dropped. , Aggregate (2) was dropped onto the underwater ground using heavy equipment (3) such as an excavator mounted on a barge (1).

However, when using the conventional aggregate dropping equipment as described above, the worker cannot check the condition of the underwater floor, so the worker arbitrarily adjusts the amount of aggregate dropped, so the laying thickness of the aggregate dropped on the underwater ground is uniform. This could not be done, and there was a problem of more severe scour occurring on underwater floors where aggregate was not laid or the amount of dropping was small.

Republic of Korea Registered Utility Model Publication No. 20-0375480 (announced on March 10, 2005)

The purpose of the present invention is to ensure that the laying height of the aggregates, which are dropped into the water and induced to be laid on the underwater ground, is linked to the speed at which the barge is towed, so that the aggregates can be laid evenly, and that the aggregates are evenly and compacted on the barge and in the water. The purpose is to provide aquatic aggregate laying equipment that allows laying of aggregates.

The floating aggregate laying equipment according to the present invention for achieving the above object is towed by a tugboat connected to the front while floating on the water, and is equipped with heavy equipment that moves the aggregates loaded on the upper surface to the rear and guides them to be laid on the underwater ground. A floating aggregate laying equipment including a barge, comprising: a conveyor consisting of a belt conveyor installed at the rear end of the barge to transport the aggregate moved through the heavy equipment rearward and drop it onto the underwater ground; A height control unit provided in the shape of a plate in a width direction perpendicular to the transfer direction of the aggregates on the upper side of the transfer unit, linked to the speed at which the barge is towed, and guiding the height at which the aggregates are laid on the underwater ground to be adjusted; The height adjustment unit has a plate shape extending backward from both ends in the width direction and has a certain height to prevent aggregates from being lost outward in the width direction, as well as a transfer guide unit that guides the transfer of aggregates while controlling the width at which the aggregates are laid. ; and a cover part that covers the transport guide part to block dust or dust contained in the aggregates from scattering and prevents the aggregates from being lost along with the transport guide part.

The height adjustment unit is provided in a plate shape and protrudes upward along the width direction at the front end, and is a transfer guide that guides the transfer of aggregates moved by the heavy equipment and piled up on the transfer unit in front of the height adjustment unit to the lower side of the height adjustment unit. absence; And it may include a support member to which both ends in the width direction of the height adjustment part are coupled by being installed to stand on the barge on both sides of the transfer part in the width direction.

The height adjustment unit further includes a height adjustment means for adjusting the installation height of the height adjustment unit on the upper side of the transfer unit, and the support members are installed in a pair spaced in the front and rear direction on both sides of the width direction of the transfer unit, The height adjustment means includes a plurality of adjustment holes formed at intervals along the vertical direction in the support member; And it may include; an adjustment protrusion formed to protrude in the width direction from both ends of the height adjustment unit in the width direction at front and rear ends corresponding to the adjustment holes and selectively fitted into the plurality of adjustment holes.

The height adjustment unit further includes a height adjustment means for adjusting the installation height of the height adjustment unit on the upper side of the transfer unit, and the support members are installed in a pair spaced in the front and rear direction on both sides of the width direction of the transfer unit, The height adjustment means includes an elevating hole formed in the form of a long hole along the vertical direction in the support member; Elevating protrusions are formed to protrude in the width direction at both ends of the height adjustment unit in the width direction at front and rear ends corresponding to the elevating hole and are coupled to penetrate the elevating hole; and a first cylinder provided on the barge and coupled to the lifting protrusion protruding outward in the width direction of the lifting hole to induce the height adjustment unit to move up and down.

The transfer guide unit may be arranged so that the aggregates transferred from the transfer unit past the height adjustment unit are collected and the width at which they are laid on the underwater ground is narrowed.

The cover part includes a cover plate that covers the transfer guide part; a plurality of second cylinders coupled to the bottom surface of the circumference of the cover plate and installed on the barge outside the transfer unit; And a vibration motor installed on the cover plate to cause the cover plate to vibrate in an upward and downward direction to compact the transported aggregates, wherein the cover plate forms an exit hole cut into a shape corresponding to the transfer guide portion. Accordingly, when vibration occurs in the vertical direction by the vibration motor, the transfer guide portion can be formed to protrude upward and downward through the protruding hole.

According to the configuration of the present invention described above, the height adjustment unit evenly adjusts the aggregates transported through the transport unit and controls the amount of aggregates dropped into the water by controlling the height at which the aggregates are transported in connection with the speed at which the barge is towed. Accordingly, there is an effect of uniformly controlling the laying height of the aggregates that are dropped into the water and guided to be laid on the underwater ground.

At the same time, through the transfer guide part, along with the height control part, it is possible to control the amount of aggregates being dropped, as well as the width of the aggregates being laid on the underwater ground. It is also possible to adjust the width of the aggregates being laid in the underwater ground, and the aggregates can be dropped and laid in a compacted state through the cover part. It is also effective.

Figure 1 is a schematic cross-sectional view to illustrate dropping aggregate into water through a conventional aggregate dropping equipment.
Figures 2 to 4 are a perspective view and a cross-sectional view schematically showing the water-based aggregate laying equipment according to the present invention.
Figures 5 and 6 are cross-sectional views schematically showing that the height of the water-based aggregate laying equipment according to the present invention is adjusted and arranged on the upper side of the transfer part by the height control means.
Figure 7 is a perspective view schematically showing water-based aggregate laying equipment according to an embodiment of the present invention.
Figures 8 and 9 are cross-sectional views schematically showing compaction of aggregates transported rearward through the height adjustment part through the cover part of the water-water aggregate laying equipment according to the same embodiment of the present invention as in Figure 7.

Hereinafter, with reference to the attached drawings, preferred implementation configurations for realizing the purpose of the present invention described above and the functional relationships according to these configurations will be described, and detailed descriptions of technical configurations that are the same or in the same category as the conventional ones will be omitted. Do this.

The present invention is a water-based aggregate installation method in which aggregate is selected, compacted, and laid on the underwater ground to reinforce the soft ground of the river bottom or seabed, to construct the foundation of an underwater structure, or to prevent scour of the river bottom, seabed, and underwater structures. It's about equipment.

For this purpose, the configuration of the water-based aggregate laying equipment according to the present invention is, as shown in Figures 2 to 9, the aggregate (2) is towed by a tugboat (4) connected to the front in a floating state on the water and loaded on the upper surface. It is a floating aggregate laying equipment including a barge (1) equipped with heavy equipment (3) that moves the aggregate to the rear and guides it to be laid on the underwater ground, and includes a transfer unit (100), a height adjustment unit (200), and a transfer guide unit (300). and a cover portion 400.

The transport unit 100 of the present invention may be installed at the rear end of the barge 1 and may be in the form of a belt conveyor that transports the aggregates 2 moved by heavy equipment 3 backwards and drops them onto the underwater ground.

Here, the transfer unit 100 may be arranged so that its rear end coincides with the rear end of the barge 1, or may be arranged to protrude rearward than the rear end of the barge 1.

The height adjustment unit 200 of the present invention has a plate shape and is provided in the width direction perpendicular to the transfer direction of the aggregates 2 on the upper side of the transfer unit 100, and is linked to the speed at which the barge 1 is towed and aggregates 2 ) can be implemented in a form that guides the height of laying on the underwater ground to be adjusted.

Here, the height adjustment unit 200 may not be configured in the form of a plate as described above, but may be applied in the form of a square tube, pipe, or beam disposed in the width direction on the upper side of the transfer unit 100.

Meanwhile, the height adjustment unit 200 has a plate shape and is provided at the front end to protrude upward along the width direction and is moved from the front end of the barge 1 by heavy equipment 3 to the transfer unit 100 in front of the height adjustment unit 200. It may be in a form including a transport guide member 210 that guides the transport of the aggregates 2 piled on the bed to the lower side of the height adjustment unit 200.

Here, the transfer guidance member 210 is provided to protrude upward along the width direction at the front end of the height adjustment unit 200, and protrudes in a vertical direction from the front end of the height adjustment unit 200 or is inclined diagonally forward. It may protrude or curve forward to form a convex shape, and is flexible enough to respond to the pressure that may be applied depending on the rear transfer pressure of the aggregates (2) transported on the transfer unit (100) or the load of the aggregates (2). It may be made of material.

In addition, the height adjustment unit 200 is installed to stand on the barge 1 on both sides in the width direction of the transfer unit 100, and includes a support member 220 to which both ends in the width direction of the height adjustment unit 200 are coupled. It can be.

At this time, the support member 220 has a preset front-to-back thickness and can be applied in the form of a plate, square pipe, pipe, or beam installed on the barge 1.

Meanwhile, the height adjustment unit 220 may further include a height adjustment means 230 for adjusting the installation height of the height adjustment unit 200 on the upper side of the transfer unit 100.

For example, the support members 220 may be installed as a pair spaced apart in the front and rear directions on both sides of the transfer unit 100 in the width direction, that is, they may be applied as a pair arranged on both sides of the transfer unit 100 in the width direction. there is.

Here, the height adjustment means 230 has a plate shape with a plurality of adjustment holes 231 formed at intervals along the vertical direction in the support member 220 and a thickness in the vertical direction, as shown in FIGS. 4 and 5. At both ends in the width direction of the height adjustment portion 200, the front and rear ends corresponding to the adjustment holes 231 formed in the pair of support members 220 are protruded in the width direction and are formed to extend in the vertical direction to the plurality of adjustment holes 231. It may be formed in a form including an adjusting protrusion 232 that is selectively fitted.

Through this height adjustment means 230, the transfer unit ( By adjusting the height at which the height adjustment unit 200 is placed on the upper side of the 100), the barge 1 maintains the state of being towed at an already set speed and adjusts the height of the aggregate 2 transported through the transfer unit 100. As the control unit 200 is made even and linked to the speed at which the barge 1 is towed, and the height at which the aggregates 2 are transported is adjusted, the amount of aggregates 2 dropped into the water is adjusted. It is possible to uniformly adjust the laying height of the aggregates 2 that are dropped and guided to be laid on the underwater ground.

As an embodiment different from the height adjustment means 230 having a form including the adjustment hole 231 and the adjustment protrusion 232 described above, as shown in FIG. 6, the support member 220 is located on both sides in the width direction of the transfer unit 100. It is installed as a pair with a gap in the front and rear directions, respectively, with an elevating hole 233 formed in the form of a long hole along the vertical direction in the support member 220, and a pair of lifting holes 233 at both ends in the width direction of the height adjustment part 200. A lifting protrusion 234 is formed to protrude in the width direction at the front and rear ends corresponding to the lifting hole 233 formed in the support member 220 and is coupled to penetrate the lifting hole 233, and is provided on the barge 1 to raise and lower it. It may be implemented in a form including a first cylinder 235 that is coupled to the lifting protrusion 234 protruding outward in the width direction of the ball 233 and induces the raising and lowering of the height adjustment unit 200.

In this way, it is possible to induce the raising and lowering of the lifting protrusion 234 protruding outward in the width direction of the lifting hole 233 through the first cylinder 235, and, like the height adjustment means 230 described above, at an already set speed. As the amount of aggregates (2) dropped into the water is adjusted by adjusting the height at which the aggregates (2) are transported in connection with the towing speed of the barge (1) that maintains the towed state, they are dropped into the water and become underwater. It is possible to uniformly adjust the installation height of the aggregates (2) that are guided to be laid on the ground.

As shown in Figures 2 to 9, the transport guide part 300 of the present invention is made of a plate shape extending rearward from both ends in the width direction of the height adjustment part 200 and has a constant height so that the aggregates 2 are placed in a widthwise direction. It can be implemented in a form that not only prevents loss to the outside of the direction, but also guides the transport of the aggregates 2 backward while controlling the width of the aggregates 2 being laid.

Here, the transfer guide unit 300 may be arranged so that its rear end coincides with the rear end of the transfer unit 100, or may be arranged to protrude rearward than the rear end of the transfer unit 100.

In addition, the transfer guide unit 300 may be made of a flexible material capable of responding to the pressure that may be applied depending on the width direction transfer pressure of the aggregates 2 transported on the transfer unit 100 or the load of the aggregates 2. In this state, it is possible to adjust the dropping and laying width of the aggregates (2) on the underwater ground, and the state arranged on the conveying unit 100 can be maintained regardless of the driving of the conveying unit 100 consisting of a belt conveyor. You can.

In addition, the transfer guide unit 300 may be arranged so that the aggregates 2 transported past the height adjustment unit 200 on the transfer unit 100 are collected and the width at which they are laid on the underwater ground is narrowed, which is the height adjustment unit ( 200), it can be used to control the amount of aggregates dropped.

As shown in FIGS. 2 to 4, the cover part 400 of the present invention covers the transport guide part 300 and blocks dust or dust contained in the aggregates 2 from scattering, while covering the transport guide part 300 and the transport guide part 300. Together, they can be implemented in a form that prevents loss of the aggregates (2).

In addition, apart from the height adjustment unit 200, transfer guide unit 300, and cover unit 400 described above in the present invention, a plurality of separate aggregate compaction devices are provided at the rear end of the transfer unit 100 to adjust the height. The aggregates 2, which are evenly distributed through the unit 200, can be laid in a compacted state on the underwater ground.

As an implementation example in which the function of compacting the aggregates 2 on the transfer unit 100 is added to the cover unit 400 described above, as shown in FIGS. 7 to 9, the cover unit 400 includes a transfer guide unit 300. A covering cover plate 410, a plurality of second cylinders 420 that are coupled to the bottom surface of the circumference of the cover plate 410 and installed to stand on the barge 1 on the outside of the transfer unit 100, and a cover plate ( 410) may be installed on the cover plate 410 to vibrate in the vertical direction and may include a vibration motor 430 that compacts the transported aggregates 2.

Here, the cover plate 410 forms an emerging hole 411 cut into a shape corresponding to the transfer guide unit 300, so that when vibration occurs in the vertical direction by the vibration motor 430, the transfer guide unit 300 It is possible to compact the aggregates 2 transported rearward in a state in which they form a shape that protrudes toward the upper and lower sides through the protruding hole 411.

In this way, through the above-described transfer guide unit 300, it is possible to control the amount of aggregates 2 to be dropped along with the height adjustment unit 200, as well as to adjust the width at which the aggregates 2 are laid on the underwater ground. And, the aggregates 2 can be dropped and laid in a compacted state through the cover part 400.

In addition, the first cylinder 235 and the second cylinder 420 may be a conventional pneumatic cylinder or hydraulic cylinder connected to a motor.

This underwater aggregate laying equipment of the present invention is equipped with a control unit electrically connected to the above-described motor and adjusts the placement height of the height adjustment unit 200 with the control unit during the transfer of the aggregates 2 on the transfer unit 100. It is possible to automatically adjust the amount of dropping and laying of the aggregates (2) and select the aggregates (2) according to the condition.

In addition, as the above-described control unit is electrically connected to the vibration motor 430, the driving of the second cylinder 420 and the vibration motor 430 is simultaneously controlled to pass the height adjustment unit 200 and be transported rearward. The work of compacting the aggregates 2 can be controlled so that it can be performed automatically.

At this time, the control unit may be electrically connected to the transfer unit 100 consisting of a belt conveyor to also control the transfer of the aggregates 2.

In the above, the present invention has been shown and described with reference to specific specific embodiments, but the present invention is not limited to the above-described embodiments, and various changes and modifications can be made without departing from the technical spirit of the present invention.

1: Barge 2: Aggregate
3: Heavy equipment 4: Tugboat
100: transfer unit 200: height adjustment unit
210: transfer guidance member 220: support member
230: Height adjustment means 231: Adjusting ball
232: Control projection 233: Elevating hole
234: Elevating projection 235: First cylinder
300: transfer guide part 400: cover part
410: Cover plate 411: Appearance hole
420: Second cylinder 430: Vibration motor

Claims (6)

A floating aggregate laying equipment that includes a barge loaded with heavy equipment that is towed by a tugboat connected to the front while floating on the water and moves the aggregate loaded on the upper surface to the rear to be laid on the underwater ground,
A transfer unit consisting of a belt conveyor installed at the rear end of the barge to transfer the aggregates moved through the heavy equipment to the rear and drop them onto the underwater ground;
A height control unit provided in the shape of a plate in a width direction perpendicular to the transfer direction of the aggregates on the upper side of the transfer unit, linked to the speed at which the barge is towed, and guiding the height at which the aggregates are laid on the underwater ground to be adjusted;
The height adjustment unit has a plate shape extending backward from both ends in the width direction and has a certain height to prevent aggregates from being lost outward in the width direction, as well as a transfer guide unit that guides the transfer of aggregates while controlling the width at which the aggregates are laid. ; and
It includes a cover part that covers the transport guide part to block dust or dust contained in the aggregates from scattering and prevents the aggregates from being lost along with the transport guide part;
The cover part,
A cover plate covering the transfer guide portion;
a plurality of second cylinders coupled to the bottom surface of the circumference of the cover plate and installed on the barge outside the transfer unit; and
It includes a vibration motor installed on the cover plate to cause the cover plate to vibrate in an upward and downward direction to compact the transported aggregates,
The cover plate forms a protruding hole cut into a shape corresponding to the transfer guide portion, so that when vibration occurs in the vertical direction by the vibration motor, the transfer guide portion protrudes upward and downward through the protruding hole. Water-based aggregate laying equipment, characterized in that. According to paragraph 1,
The height adjustment part,
A transfer guide member that is provided in a plate shape and protrudes upward along the width direction at the front end to guide the transfer of aggregates moved by the heavy equipment and piled up on the transfer unit in front of the height adjustment unit to the lower side of the height adjustment unit; and
A water-based aggregate laying equipment comprising: a support member that is installed on the barge on both sides of the transfer unit in the width direction and is coupled to both ends of the height adjustment unit in the width direction. According to paragraph 2,
The height adjustment unit further includes a height adjustment means for adjusting the installation height of the height adjustment unit on the upper side of the transfer unit, and the support members are installed in pairs spaced in the front and rear directions on both sides of the width direction of the transfer unit,
The height adjustment means is,
a plurality of adjustment holes formed at intervals along the vertical direction in the support member; and
Water-based aggregate laying equipment comprising: an adjustment protrusion formed at both ends in the width direction of the height adjustment unit to protrude in the width direction at front and rear ends corresponding to the adjustment hole and selectively fitted into the plurality of adjustment holes. According to paragraph 2,
The height adjustment unit further includes a height adjustment means for adjusting the installation height of the height adjustment unit on the upper side of the transfer unit, and the support members are installed in pairs spaced in the front and rear directions on both sides of the width direction of the transfer unit,
The height adjustment means is,
An elevating hole formed in a long hole shape along the vertical direction in the support member;
Elevating protrusions are formed to protrude in the width direction at both ends of the height adjustment unit in the width direction at front and rear ends corresponding to the elevating hole and are coupled to penetrate the elevating hole; and
A first cylinder provided on the barge and coupled to the lifting protrusion protruding outward in the width direction of the lifting hole to induce the height adjustment unit to move up and down. According to paragraph 1,
The transfer guide unit is a water-based aggregate laying equipment, characterized in that the aggregates transferred from the transfer unit past the height adjustment unit are collected and the width to be laid on the underwater ground is narrowed. delete

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