KR102490229B1 - Bracket connection device for manufacturing floating structures. - Google Patents

Abstract

Provided is a connection device having a partition, which comprises: a buoyancy tube fixing frame formed with a diameter and size such that one end of a buoyancy tube can be accommodated; and a support frame integrally connected to the buoyancy tube fixing frame to support a panel unit installed in an upper part, where a plurality of support members are connected horizontally and vertically in an upper part of the buoyancy tube fixing frame to form a plurality of fixing holes. According to the present invention, at least one buoyancy tube with predetermined length is not integrally formed, but connected to each other by means of the connection device to enhance support force that prevents a conventional bending phenomenon and dissipate the ripple effect by moving along with a swell due to ocean currents through connection of the unit body, not the integrated form, thereby enhancing stability and minimizing damage to the installed structure as well as the panel installed in the upper part.

Description

Bracket connection device for manufacturing floating structures.}

The present invention relates to a bracket connecting device used in the manufacture of floating structures such as fish farms and pontoons. By connecting a plurality of buoyancy pipes floating on the water in the longitudinal direction, resistance to rolling and pitching caused by ocean current flow and waves is reduced. It relates to a bracket connection device having a bulkhead capable of increasing the stability of a floating structure.

Various types of floating structures are being installed along the freshwater or sea surface or along the waterside area. there is

Floating structures are divided into raft type, ship type, and barge type. The raft type is made of wood or steel, and since there is no magnetic buoyancy in the form of a raft, buoyancy materials such as Styrofoam, FRP, drums, and synthetic rubber are used at the bottom so that the structure can float. The material of the house is usually steel beams, wooden In most cases, steel panels and the like are installed.

In addition, floats, which are a type of floating structure, are installed to fix fishing gear or farm facilities, to direct the course of a ship to help safe navigation, or to warn of the existence of maritime hazards such as reefs and sunken ships, and further fix fishing nets or fishing nets. Not only can its use be expanded to mark the location of the water, but it is also very diverse, such as being used to float floating photovoltaic facilities on the water.

Recently, polyethylene (PE), preferably medium density polyethylene (MDPE) or high density polyethylene (HDPE), which has excellent corrosion resistance, mechanical strength and recyclability, and can be easily and firmly bonded and assembled by thermal fusion method, has been used. Most of them are floating structures composed of buoyancy tubes and connecting devices.

At this time, the connection device can be a medium forming one or more structural units, and a plurality of floor panels arranged in parallel with the longitudinal direction of the buoyancy tube are installed on the upper part to provide space on the sea. The buoyancy tube is fixed by penetrating a fixing part formed in a generally circular shape provided in the connection device, and is formed to a length corresponding to the width of the target structure. Accordingly, as the size of the structure increases, the length of the buoyancy tube also increases.

The buoyancy tube is made of a polyethylene (PE) material, and bending occurs, which increases as the length of the buoyancy tube increases and the load on the top increases. This bending phenomenon causes instability and damage to buildings installed on floating structures. In addition, as the length increases, the swell due to the ocean current increases, so there is a problem that the shaking becomes severe.

Accordingly, Korean Patent Registration No. 10-2030559 discloses a rotating bracket for aquatic structures and suggests the effect of improving bearing capacity according to the increase in load, but the prior art documents show the deepening of the swell by the ocean current due to the connection of a plurality of unit objects. No mitigating effects are disclosed. Accordingly, an object of the present invention is to provide a bracket connection device having a bulkhead capable of responding to swells caused by ocean currents while providing strong bearing capacity even with an increase in load.

Korean Utility Model Registration No. 20-0252317 discloses a buoy bracket consisting of a plurality of support holes formed on the front surface and connecting pieces installed between the support holes for strength reinforcement, and inserted into the support holes formed on both sides of the buoy bracket. A cage device consisting of a fixed buoy pipe, a buoy support pipe inserted and fixed into a support hole formed in the center of the buoy bracket, and a bracket support pipe installed between the buoy brackets and inserted into and fixed to the outside of the buoy support pipe. It discloses the buoy bracket support device of Korean Utility Model Registration No. 20-0309866 discloses a prefabricated wave-resistant cage device that strengthens the structure of a pipe bracket connecting buoy pipes and installs a scaffolding bracket on the upper side so that the scaffolding can be stably and firmly installed. . Korean Patent Registration No. 10-2030559 discloses a bracket for a floating structure, the bracket comprising: a connecting frame connected to a tubular buoyancy pipe; a fixed frame integrally connected to the connection frame and disposed in a direction crossing the longitudinal direction of the buoyancy tube; Disclosed is a rotational bracket for aquatic structures, characterized in that there is provided a rotational frame at an upper portion of the fixing frame and provided with a plurality of seating grooves into which a bottom panel is inserted. In Korean Utility Model Registration No. 20-0461384, the structure of the tube ring for assembling the buoyancy tube is improved with an outer large-diameter tube ring and an inner small-diameter tube support means, so that when a floating structure is installed, the inner small The diameter tube support means can be removed and replaced with a larger diameter buoyancy tube, while the arrangement of the inner small diameter tube support means is optimized so that the removal operation can be performed more quickly and easily. Even when the size of the buoyancy tube, which is the most important base of a floating structure, changes depending on the situation, it is possible to more actively cope with these design changes, thereby replacing the buoyancy tube so that the facility work of the floating structure can be performed more efficiently. It discloses about possible connection brackets for water structures.

The present invention provides a strong bearing capacity even when the load is increased, and at the same time, in order to solve the problem of the existing floating structure being formed of synthetic resin such as polyethylene, the stability decreases due to the increase in pitching due to the increase in the bending phenomenon and the ocean current due to the increase in the load. It is intended to provide a connection device having a bulkhead capable of responding to the swell by.

A bracket connection device having a bulkhead according to an embodiment of the present invention includes a buoyancy tube fixing frame having a diameter and size that can be connected to one end of a buoyancy tube; A support frame integrally connected to the buoyancy tube fixing frame, a plurality of support members horizontally and vertically connected at the top of the buoyancy tube fixing frame to form a plurality of fixing holes, and supporting a panel portion installed thereon; may be made of

In addition, the buoyancy tube fixing frame may have a pipe tube shape of a certain length, and a curved bulkhead is formed at the inner center thereof, and seating grooves are provided at both ends to be bonded and fixed to one end of the buoyancy tube.

According to another embodiment of the present invention, a floating structure having a bracket connecting device having a barrier rib is installed, the connecting device having the above structure; A plurality of unit structures formed with a certain length by connecting and fixing one or more of the connecting device and the buoyancy pipe are installed at regular intervals in a row or transverse direction; The unit structure is fixed via a connecting frame; A panel may be installed above the connection frame to provide a space having a predetermined area.

The present invention is made so that one or more buoyancy tubes of a certain length can be connected through a non-integral connecting device, thereby improving the bearing capacity to prevent the existing bending phenomenon, as well as connecting a plurality of non-integral units together with the swell according to the ocean current. By moving, the ripple force can be dissipated, improving stability and minimizing damage to the floating structure installed together with the panel installed on the top.

1 shows a perspective view of a bracket connecting device in which a bulkhead is formed according to the present invention.
Figure 2 shows a side view and a cross-sectional view of the bracket connecting device formed with a partition wall of the present invention.
Figure 3 shows a bracket connection device for forming a closed frame forming both ends of the floating structure.
Figure 3 shows a cross-sectional view of the connection between the bracket connecting device and the buoyancy tube of the present invention.
Figure 4 shows a side view, a perspective view and a cross-sectional view in which a plurality of bracket connecting devices of the present invention are coupled.
5 is a cross-sectional view showing a method of fusing a bracket connection device and a buoyancy tube according to the present invention.
Figure 6 shows a floating structure in which the bracket connection device of the present invention is installed.

Hereinafter, it will be described in detail with reference to the drawings related to the connecting device on which the barrier rib is formed according to the present invention.

1 shows a perspective view of a bracket connecting device having a partition wall of the present invention, and FIG. 2 shows a side view and a cross-sectional view of a bracket connecting device having a partition wall of the present invention. The bracket connection device having a bulkhead of the present invention includes a buoyancy tube fixing frame 100 formed of a diameter and size that can be coupled or accommodated with one end of the buoyancy tube 300; It is integrally formed on the side and upper surface of the buoyancy tube fixing frame, and a plurality of support members are connected horizontally and vertically to the upper part of the buoyancy tube fixing frame to form a plurality of fixing holes 225, and the fixing holes pass through the connecting frame While binding the bracket connection devices spaced apart at regular intervals, the upper surface of the support frame is formed with a predetermined area so that the panel unit can be installed.

The buoyancy tube 300 referred to in the present invention may be a hollow body having a circular or polygonal cross-sectional structure and having a certain length to include buoyancy, and is preferably formed of a synthetic resin such as polyethylene (PE). Do. In addition, the bracket connection device referred to below means a bracket connection device in which a partition wall is formed according to the present invention.

When a plurality of buoyancy tubes of the floating structure are connected, the buoyancy tube fixing frame 100 shown in FIG. 3 of the present invention is disposed in the middle of the buoyancy tube to form a floating structure. A seating groove in which one end of the buoyancy tube in the shape of a pipe tube of a certain length can be seated and fixed inside the buoyancy tube fixing frame is provided at both ends with respect to the bulkhead, and a curved bulkhead 110 is located at the center of the inner center of the buoyancy tube fixing frame is formed

When the buoyancy tube fixing frame 100 is a floating structure unit formed at both ends of the buoyancy tube, a seating groove, which is a space in which one end of the buoyancy tube 300 can be seated and fixed, is formed at one end of the buoyancy tube fixing frame 100. It can be. The bulkhead has the effect of buffering the air pressure generated inside the buoyancy tube according to the change in water temperature by forming a convex curved portion in the opposite direction to which the buoyancy tube is installed.

The bulkhead and the fixed frame are integrally formed by injecting a synthetic resin melt into a mold with the same material structure, and the synthetic resin is preferably selected from polyethylene, polypropylene, polyurethane, etc. having excellent chemical resistance and impact resistance as a material. It is not necessarily limited to the materials listed in , and can be applied to all synthetic resin materials with equivalent or higher physical properties. The use of the same material is to facilitate fusion by forming the same conditions and environment due to the characteristics of polyethylene, which is the same material.

The support frame 200 is installed over the top from both sides of the buoyancy tube fixing frame 100, and is integrally formed with the buoyancy tube fixing frame. In the support frame, a plurality of support members are connected horizontally and vertically to form a plurality of fixing holes 225 forming a rib structure. The connecting frame is penetrated and fixed to the fixing hole. In addition, by forming the reinforcing part 210 in a closed form across the upper surface from both sides of the buoyancy tube fixing frame, the pressure exerted on the buoyancy tube fixing frame according to the load on the top of the support frame is distributed.

The fixing part 230 of the present invention is used to connect a bracket to a bracket or a bracket and a separate float, or to fix an accessory to the bracket itself, and is implemented in a circular ring shape as an embodiment of the present invention. It is not limited to this as long as it can be easily connected to the bracket.

Figure 3 shows a bracket connection device for forming a closed frame forming both ends of the floating structure. In the present invention, the closed frame is a bracket connecting device installed at the front and rear ends of the floating structure, and means a form in which the outer protruding pipe in the direction of the bulkhead having a curved portion is removed and only the curved portion of the bulkhead is left.

In a floating structure where one or more bracket connectors and buoyancy tubes are connected and fixed and extended to a certain length, a closing frame that can close the seating groove is installed on the front and last buoyancy tube fixing frames to ensure stability against ocean current water pressure. can be granted The closed frame can maintain the pressure inside the buoyancy tube by forming a convex watertight structure in the opposite direction to which the buoyancy tube is installed.

In addition, one or more through-holes may be formed in the curved ends of both ends of the bracket connecting device forming the closed frame forming both ends of the floating structure, and it may be formed to be opened and closed with bolts. The floating structure needs to adjust the height of the water surface depending on the installation location, and at this time, the seawater is poured into and drained from the closed frame through the through holes 115 at both ends so that the height of both ends of the floating structure can be adjusted.

Existing buoyancy tubes are formed with a length corresponding to the overall length of the entire structure. As the length increases, pitching by ocean currents becomes more severe, panels and structures installed on top of the buoyancy tube are damaged, and stability deteriorates. It is formed of a material, and there is a problem in that the more the load is applied, the more the bending phenomenon occurs.

From this, the present invention connects and fixes one or more buoyancy tubes through a bracket connecting device in which the buoyancy tube is not integrated, thereby preventing the existing bending phenomenon and improving the bearing capacity, as well as connecting units having non-integral bulkheads to improve ocean flow By moving along with the swell, it is possible to dissipate the ripple force, thereby improving stability and minimizing damage to the accessory panel installed at the top.

4 shows a side view and a perspective view in which a plurality of bracket connecting devices having a bulkhead according to the present invention are combined, and FIG. 5 shows a cross-sectional view showing how a bracket connecting device having a bulkhead according to the present invention and a buoyancy tube are fused together.

When the closed frame is coupled to both ends of the buoyancy tube having a certain length and manufactured as a unit float, bracket connecting devices are connected and installed at both ends of the buoyancy tube having a certain length. Then, the outer circumferential surface of the pipe on one side of the body having the curved portion of the bracket connecting device coupled to both ends of the buoyancy pipe is cut and formed into a closed frame in the form of leaving only the curved portion of the bulkhead.

In the manufacture of a floating structure in which several unit buoyancy bodies are connected, a single buoyancy tube is inserted and fixed in the seating groove of the bracket connecting device to the inside of the buoyancy tube fixing frame 100 according to the size of the circumference (insertion and fusion), or a high buoyancy tube fixing frame (100) A pipe buoyancy tube having the same circumference size is fusion-bonded to the end, and the buoyancy tube to be directed is also coupled to the buoyancy tube fixing frame 100 seating groove in the same way.

By fixing one side of the buoyancy tube fixing frame 100 to one side of the coupled buoyancy tube, it can be extended into a buoyancy tube having a product of unit lengths of a certain number of buoyancy tube pipes. The bracket connection device at both ends cuts the outer circumferential surface of the pipe on one side of the body having a curved portion and processes it into a closed frame in the form of leaving only the curved portion of the bulkhead. At least one through hole may be formed in the curved portion at the lateral end where the closed frame is formed, and it may be formed to be opened and closed with a bolt.

The closed frame installed at the front end and the last end of the fixed socket is a form in which the outer protruding pipe of the curved portion of the bracket connection device is removed, and can be manufactured by injecting melted material into the same mold for manufacturing the bracket connection device. A bracket connection device is manufactured by injecting molten material into a mold for manufacturing one bracket connection device, and the closed frame blocks the intaglio of the protruding pipe part in the direction of the bend in the mold frame with metal to prevent the molten material from entering the bracket with one mold. The connecting device and the closing frame can be manufactured separately.

6 shows an example of a floating structure using a bracket connection device having a bulkhead of the present invention. In the floating structure provided with the connecting device having a bulkhead of the present invention, a plurality of unit structures 400 formed with a certain length by connecting one or more connecting devices and a buoyancy pipe are installed at regular intervals in a row or in a lateral direction, and the unit The structure may be fixed via the connection frame 500 to form a floating structure. The panel is installed on top of the connection frame and installed to correspond to the length of the structure to be manufactured, thereby providing a sea space.

In the connecting frame, horizontal and vertical members of a length corresponding to the width and length of the structure are connected horizontally and vertically to form a plurality of spokes on a plane, and one or more unit structures are formed by penetrating and fixing the fixing holes of the support frame. Can be connected and fixed.

Floating structures have no land limitations and can be used in various fields such as floating breakwaters, floating buildings, marine leisure facilities, ship mooring facilities, floating piers, floating houses, offshore work boats, sofas, and fish farms, so the range of demand is wide. The present invention has industrial applicability by providing a connection device constituting a floating structure, which is expected to meet the needs of various related industries and contributes to profit creation.

100: buoyancy tube fixing frame 110: bulkhead 115: through hole
200: support frame 210: reinforcement
225: fixing hole 230: fixing part 300: buoyancy pipe
400: unit structure 500: connection frame

Claims (3)

A partition wall having a curved portion is formed at the outer or inner center of the buoyancy tube fixing frame of a pipe structure of a certain length in which one end of the buoyancy tube can be accommodated, and protruding seating grooves are provided at both ends around the partition wall,
At least one through hole 115 is formed in the bulkhead having a curved portion so that it can be opened and closed with a bolt,
A plurality of fixing holes are formed to penetrate the support member horizontally and vertically from the horizontal outer circumferential surface to the upper surface of the buoyancy pipe fixing frame, and the fixing holes are sealed on the side and upper surface connected to the buoyancy pipe fixing frame. The portion 210 is formed symmetrically on both sides and integrally formed with the support frame,
Bracket connecting device for floating structures, characterized in that one or more circular ring-shaped fixing parts are formed on the lower side of the outer circumferential surface of the buoyancy tube fixing frame
At least one buoyancy pipe in the form of a pipe tube and the bracket connection device for floating structures according to claim 1 are intersected and arranged, and the buoyancy tubes are inserted and welded into the seating grooves protruding from both ends of the buoyancy pipe fixing frame of the bracket connection device for floating structures. One or more buoyancy tube fixing frames and buoyancy tubes are extended to form one or more unit structures,
A floating structure characterized in that the protruding seating grooves of the buoyancy pipe fixing frames installed at the foremost and last ends of the unit structure are processed into a closed frame forming only the curved portion of the partition wall. delete

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