KR20030037320A - Raising structure for marine products - Google Patents

Abstract

PURPOSE: Provided is a cultivation structure for growing sea products which is installed under the sea and is used semi permanently. The structure is not polluting and environment friendly, mass producing unpolluted sea products. CONSTITUTION: The structure comprises: several horizontal tubes which bond the packings(113) to connect strings with shellfish shells hung on them; several assemblies(101) which have side inserting part(103) perpendicular to the horizontal tubes(111) and bottom insertion part(104) at the bottom part; several support tubes(121) which support the assemblies(101) by the bus(105) inserted into the bottom inserting part(104) of the assemblies(101); several top sockets(131) having vertical tube(141) insert parts at the bottom parts; a fixing bolt(134) which bolts the vertical insert part(133) of the top sockets(131) with the top part and several vertical tubes(141) at the bottom part which are buried into the soil of foreshore; bottom sockets(151) which connect the vertical tube to the vertical tube insert holes(152) with the control bolt(154) and have support tube insert holes(153) at one side; and support tube(162) of which the burying depth is controlled, being connected by the support tube holes(153) of the bottom sockets(151).

Description

Aquaculture of marine aquatic products {RAISING STRUCTURE FOR MARINE PRODUCTS}

The present invention relates to aquaculture structures of marine aquatic products. In particular, a plurality of horizontal tubes, which combine a plurality of packings to bind strings hanging on shells, etc., are combined into the side insert of the assembly and inserted into the lower insert of the assembly. And the support tube is inserted into the support tube insertion hole of the upper socket and then coupled to the lower portion of the vertical tube is coupled to the vertical tube insertion portion formed in the lower portion of the upper socket to be inserted into the inner layer of the shell The lower socket is made by combining a plurality of support tubes that can adjust the depth of vertical pipes to be squeezed. It is easy to install and dismantle by good assemblability, and a more rigid structure can be obtained. The surface is not corroded by the coating layer laminated by the support tube, the vertical tube and the support tube. It can be used semi-permanently and can prevent the contamination of sea water, so it has an environmentally friendly advantage to obtain an excellent aquaculture effect. Also, it can prevent corrosion inside the pipe by rubber stoppers which are connected to both ends or ends of each pipe. Therefore, the present invention relates to aquaculture products of marine aquatic products that can mass produce pollution-free aquaculture without contaminating the ocean.

Most aquaculture structures installed for aquatic marine products are made of wood or steel.

However, the aquaculture structure manufactured using the wood has a problem in that it cannot be used for a long period of time and periodically needs to be repaired or replaced due to frequent damage caused by rotting or algae due to contact with sea water.

In addition, since the marine structures are attached to the wood structure and parasitic, not only the beauty of the structure coming out at low tide, but also has a problem that does not harmonize with the surrounding environment.

On the other hand, the cultured structure produced by using the iron is a corrosion occurs by the contact with the sea water will result in the contamination of the sea water rather.

In addition, because the aquaculture of the steel farming structure is cultured in a state in which all of the surroundings of the structure is contaminated, the marine marine products are also contaminated.

As a result, they could not obtain high quality food and had a significant reduction in yield.

In addition, the aesthetics of the structure coming in at low tide due to the corrosion of the steel culture structure is not good, but also had a problem that does not harmonize with the surrounding environment.

In addition, the steel aquaculture structure is very difficult and inconvenient to assemble and release because it was installed in a random manner rather than being installed in a strictly planned state, and the time required for installation or dismantling is very inefficient. I had.

The purpose of the present invention for solving and solving these conventional problems,

When installing aquaculture structures, it is easy to install and dismantle due to good assemblability, and a more robust structure can be obtained, and it can be used semi-permanently because it does not corrode and can prevent contamination of seawater. It has the advantage of being environmentally friendly and aims to enable mass production of pollution-free aquaculture without contaminating the ocean.

In order to achieve the above object, the present invention,

A plurality of horizontal pipes, which combine a plurality of packings, can be connected to the side inserts of the assembly and inserted into and fixed to the lower inserts of the assembly so as to bind strings hanging on shell shells. After inserting, the vertical pipe insertion portion formed at the lower portion of the upper socket combines a plurality of vertical tubes that are driven into the inner layer of the shell, and the lower socket coupled to the lower portion of the vertical tube can adjust the depth of vertical pipe penetration. After combining a plurality of support pipes, the coating pipes are combined with horizontal pipes, and a coating layer is laminated on the support pipes, vertical pipes and support pipes, and rubber stoppers are coupled to both ends or one end of each pipe to achieve the purpose of this paper. Will be.

1 is a perspective view showing the structure of the present invention aquaculture structure

Figure 2 is a cross-sectional view of the use state showing a state in which the present invention aquaculture structure is installed

Figure 3 is an enlarged cross-sectional view of the main part of the cultured structure of the present invention

4 is a view showing a process of bonding a coating tube to a horizontal tube of the present invention aquaculture structure

<Code Description of Main Parts of Drawing>

101-Assembly 102-Upper Insert

103-side insert 104-lower insert

105-bis 111-horizon

112-coating tube 113-packing

121-support tube 122-coating layer

123-Rubber Stopper 131-Top Socket

132-Support pipe insert 133-Vertical pipe insert

134-Anchor bolt 141-Vertical pipe

142-coating layer 143-rubber stopper

151-Lower Socket 152-Vertical Pipe Inserting Hole

153-supporting tube insertion hole 154-adjusting bolt

161-support tube 162-coating layer

163-rubber stopper 171-row

172-Shellfish Shell

The configuration of the present invention as described above will be described in detail by the accompanying drawings.

A plurality of horizontal pipes 111 that combine a plurality of packings 113 so as to bind the strings 171 hanging on the shell shell 172, etc.,

A plurality of assemblies 101 which combine the horizontal pipe 111 into a side insert 103 formed to be orthogonal to the upper insert 102 and a lower insert 104 formed at a lower portion thereof;

A plurality of support tubes 121 inserted into the lower inserting portion 104 of the assembly 101 and then fixed by the vis 102 to support the assembly 101;

The support pipe insertion hole 132 is inserted into the support pipe 121, and a plurality of upper sockets 131 having a vertical pipe insertion part 133 formed at the lower part thereof.

A plurality of vertical pipes 141 coupled to the upper part by the vertical pipe insertion part 133 of the upper socket 131 and fixed by a fixing bolt 134, and the lower part of the upper socket 131 being driven into the inner stratum;

A lower socket 151 which is coupled to the vertical pipe insertion hole 152 by the vertical pipe 141 and is fixed by the adjustment bolt 154 and forms a support pipe insertion hole 153 on one side thereof;

It is coupled to the support pipe insertion hole 153 of the lower socket 151 is configured with a support pipe 161 that can adjust the depth of the vertical pipe 141.

In addition, a plurality of coating pipes 112 closely coupled to the outer circumferential surface of the horizontal pipe 111 by a force contracted upon cooling coupled to the horizontal pipe 111 immediately after injection molding to prevent corrosion of the horizontal pipe 111. ) Was further provided.

In addition, in order to prevent corrosion of the support tube 121, the vertical tube 141, and the support tube 161, the coating layer 122 stacked on the surfaces of the support tube 121, the vertical tube 141, and the support tube 161. 142, 162 were further provided.

In addition, the horizontal tube 111, the support tube 121, the vertical tube 141, the horizontal tube 111 and the support tube 121 and the support to prevent the introduction of seawater into the interior of the support tube 161. Rubber stoppers 123, 163 and 143 coupled to both ends of the tube 161 and the end of the vertical tube 141 were further provided.

Referring to the operation of the present invention as described above is as follows.

Before installing the aquaculture structure of the present invention, the coating tube 112 is coupled to the horizontal tube 111 in a preliminary preparation step, and the support layer 121, the vertical tube 141, and the support tube 161 on the surface of the coating layer ( 122, 142, 162 will be formed.

First, a plurality of coating tubes 112 coupled to the surface of the horizontal tube 111 is formed by injection bar, if the coating tube 112 is combined with a horizontal tube 111 immediately after injection molding coating tube ( As the 112 is cooled, it closely adheres to the outer circumferential surface of the horizontal tube 111 by the contracting force, thereby maintaining a firm attachment state as shown in FIG. 4 so that the horizontal tube 111 can be prevented from contacting with the sea water. do.

In addition, in order to stack the coating layers 122, 142, and 162 on the surfaces of the support tube 121, the vertical tube 141, and the support tubes 161, the support tube 121, the vertical tube 141, and the support tube 121 are stacked. The coating layers 122, 142 and 162 are immersed in a water tank containing the coating liquid or spray spraying the coating liquid onto the surfaces of the support tube 121, the vertical tube 141 and the support tube 161. Since they are stacked, the support tube 121, the vertical tube 141, and the support tube 161 do not come into contact with sea water.

In addition, the plurality of upper and lower sockets 131 and 151 connecting the pipes are injection molded with synthetic resin material, and the bis 105, the fixing bolt 134, the adjusting bolt 154, etc. are made of stainless material. The rubber stoppers 123, 163, and 143 may be prevented from being corroded by being made of a rubber material.

By combining the elements prepared in advance as described above it is possible to obtain a culture structure of the present invention.

That is, Figure 1 is a perspective view showing the structure of the present invention culture structure, Figure 2 is a cross-sectional view of the use state showing a state of the invention invention culture structure is installed, Figure 3 is an enlarged cross-sectional view of the main portion of the invention culture structure, a horizontal tube ( The plurality of packings 113 are coupled at equal intervals to the outer circumferential surface of the coating tube 112 coupled to the 111.

The packing 113 is tied to the string 171 to suspend shellfish shells 172 that can be planted seed.

In addition, the plurality of horizontal tubes 111 coupling the packings 113 are coupled to the side insertion portion 103 of the assembly 101 positioned to be orthogonal to the horizontal tubes 111.

At this time, the upper insertion portion 102 formed to be orthogonal to the side insertion portion 103 of the assembly 101 is interposed by one packing 113 which is coupled to the horizontal tube 111 at equal intervals to the interference coupling.

In addition, the lower inserting portion 104 of the assembly 101 is inserted into the support tube 121, the lamination of the coating layer 122 on the surface and then fixed by the vis 105.

Then, the plurality of support tubes 121 are coupled to the support tube insertion hole 132 of the upper socket 131 at equal intervals.

In addition, the vertical socket insertion portion 133 of the upper socket 131 is inserted into the upper side of the vertical pipe 141 is formed with a coating layer 142 to be embedded in the inner shell and is fixed firmly by a fixing bolt 134.

In addition, the lower portion of the vertical pipe 141 is coupled to the vertical pipe insertion hole 152 of the lower socket 151 to be fixed by the adjustment bolt 154 and the support tube insertion hole 153 of the lower socket 151. Into the base tube 161, the coating layer 162 is formed.

The support tube 161 serves to adjust the depth of penetration of the vertical tube (141).

In addition, when the assembly of the tube is completed as described above, the rubber stopper 123, 163, 143 to both ends of the horizontal tube 111 and the support tube 121 and the support tube 161 and the end of the vertical tube 141. By combining them, it is possible to prevent the introduction of seawater into the horizontal tube 111, the support tube 121, the support tube 161, the vertical tube 141.

The assembled form structure as described above is driven to the bottom of the vertical pipe 141 by a predetermined depth as shown in Figure 2 to maintain a stable state without flow.

At this time, the support pipe 161 coupled to the support pipe insertion hole 153 of the lower socket 151 is located on the ground surface of the shell to prevent the vertical pipe 141 from falling further into the ground.

And, the depth of the vertical pipe 141 is loosened the adjustment bolt 154, so that the lower socket 151 and the support pipe 161 can be moved up and down as indicated by the virtual line of Figure 2 It is possible to easily adjust the depth of the vertical pipe 141.

As shown in FIG. 2, the strings 171 on which the shells 172, which are spawned, are seeded, are tied to the plurality of packings 113, one by one line, in a structure installed as above.

As described above, the present invention can be easily installed by good assembly properties when installing a simple form of the structure, and can be disassembled in the reverse order of the assembly, thereby obtaining a more robust structure.

In addition, since all the components of the present invention are coated or made of synthetic resin and stainless steel, it is possible to use semi-permanently because there is no corrosion.

In addition, since the microorganisms are not attached to the coating tube and the coating layer so as to prevent parasitics, they always maintain a clean and beautiful state, so they look good with the surrounding environment.

In addition, the weak structure of the present invention does not corrode even when it comes into contact with seawater, thereby preventing contamination of seawater and furthermore, it is possible to mass-produce pollution-free aquaculture without contaminating the ocean, thereby obtaining excellent aquaculture effects. Environmentally friendly advantages.

In this way, the present invention combines a plurality of horizontal tubes, which combine a plurality of packings, to connect the strings hanging on shells, etc., into the side insert of the assembly, and is inserted into the lower insert of the assembly, and an upper socket on the support tube. After inserting the support tube insertion hole of the vertical socket insertion portion formed in the lower portion of the upper socket is coupled to a plurality of vertical tubes that are driven into the inner stratum of the shell, and the vertical pipe in the lower socket coupled to the lower portion of the vertical pipe It is formed by combining a plurality of support tubes with adjustable depth and then combining the coating tube with a horizontal tube, laminating a coating layer on the support tube, the vertical tube and the support tube, and combining rubber stoppers at both ends or one end of each tube. It is easy to install and dismantle due to good assemblability when installing the structure. It can be used for semi-permanent use without being corroded at the same time, and it can prevent the contamination of seawater, and it has the eco-friendly advantage to get the excellent aquaculture effect, and can mass-produce the pollution-free aquaculture without polluting the ocean. Has a useful effect.

Claims (4)

A plurality of horizontal pipes combining a plurality of packings to bind strings hanging on shells, etc., A plurality of assemblies which combine the horizontal tube with a side insert formed to be orthogonal to the upper insert and have a lower insert at the lower portion; A plurality of support tubes inserted into the lower insertion portion of the assembly and fixed by a vis to support the assembly; A plurality of upper sockets having a support tube insertion hole inserted into the support tube and having a vertical tube insertion portion at a lower side thereof; A plurality of vertical tubes which are fixed by fixing bolts by combining an upper portion with a vertical tube insertion portion of the upper socket, and the lower portion is driven into the inner stratum of the shell; A lower socket which is coupled to the vertical pipe insertion hole by the vertical pipe and is fixed by the adjustment bolt and forms a support pipe insertion hole on one side; Formed structure of marine aquatic products, characterized in that it is coupled to the support tube insertion hole of the lower socket and provided with a support tube for adjusting the depth of the vertical pipe. The method of claim 1, Formed structure of marine aquatic products, characterized in that it further comprises a plurality of coating tubes closely coupled to the outer circumferential surface of the horizontal tube by the force that is contracted upon cooling and coupled to the horizontal tube immediately after injection molding to prevent corrosion of the horizontal tube . The method of claim 1, Formed structure of marine aquatic products, characterized in that further comprising a coating layer laminated on the surface of the support tube, vertical tube, the support tube to prevent corrosion of the support tube, vertical tube, support tube. The method of claim 1, In order to prevent the introduction of seawater into the horizontal pipe, support pipe, vertical pipe, support pipe, horizontal pipes and support pipes and rubber stoppers coupled to both ends of the support pipe and the end of the vertical pipe further characterized by Farmed marine products.