KR200481959Y1 - A bottom frame of of net fixation for cultivation of abalone - Google Patents

Abstract

An outer frame which is formed in a square shape according to the present invention and is installed at one or more sides in the lateral and longitudinal directions and is connected to the end portions to form a square frame structure; A corner fixture for fixing the outer frame ends provided in the lateral and longitudinal directions; At least one inner frame arranged at a predetermined interval between one side of the outer frame and a corresponding outer side frame in a rectangular shape; The inner frame and the inner fixed portion connecting and fixing the connection portion of the inner pipe and the outer pipe, the weight of the lower frame is higher than that of the conventional lower frame, so that the weight is lighter and easier to install and manage. It is possible to form the frame with a small volume with little deformation and corrosion, so that the volume of the frame becomes small, so that the effect of algae is small and the loading is easy.

Description

Technical Field [0001] The present invention relates to a bottom frame for fixing an abalone mesh manufactured by a draw-forming method,

The present invention relates to a lower frame for fixing a cage net of an abalone, and more particularly to a lower frame for fixing a cage net of an abalone, comprising at least one outer frame formed in a rectangular shape in lateral and longitudinal directions, And at least one inner frame that is installed at a predetermined interval between outer pipes corresponding to the outer pipes. The inner and outer frames are made of FRP (Fiber Reinforced Plastics) And a lower frame for fixing an overturned cage net, which is easy to be loaded in a small volume because the weight is reduced although the specific gravity is increased as compared with the conventional lower frame.

Abalone is a molluscan animal belonging to the Haliotidae and the Haliotis , and more than 100 species are known worldwide. The major species distributed in Korea are abalone, horse abalone, black abalone, subalpine abalone, pentalgia and giant obsidian.

The industrialization of abalone farming in Korea began in 1972 with the study on the production of seedling for abalone and shellfish in the seedling producing country of Korea in the cultivation field of Bukjeju National Fisheries Research and Development Agency. After that, in the 1980s, the seedlings were produced at 11 cultivation sites under the National Fisheries Research and Development Agency (NISA), and the effort was made to distribute or release them to the aquaculture farmers.

Abalone aquaculture technology has been developed along with the development of aquaculture technology and aquaculture equipment. Especially, in 2000, caged aquaculture technology was developed in Heuksan Island. Since 2003, aquaculture through marine cage facilities has been activated mainly in the western coast of the south coast of Wando. Respectively.

Most abalone aquaculture is a combination of aquaculture and marine cage farming. It first breeds abalone spores in the aquaculture tank. When the sparrow grows to some extent, it migrates to abalone cage farms in the coastal ocean and fosters long-term success. This method has the advantage of increasing the survival rate of stalks through the aquaculture tank and decreasing the cost of the stalks in the marine cages.

Most aquaculture facilities in marine cage farms are constructed by cross-linking a pipe-shaped upper frame horizontally and vertically to form a frame structure, buoy or anchor to attach to the water surface, and similarly, a lower frame forming a frame structure And are spaced apart from the upper frame at regular intervals. In addition, the spacing space between the upper and lower frames is connected to and fixed to the frame by a cage net of a certain mesh size, and a space formed by the cage net accommodates more than one shelter do.

Such aquaculture facilities are installed in seawater for a long period of time, and a single aquaculture facility is accommodated in a form in which a plurality of shelters are loaded, so that a device such as a crane is required to be used due to the weight of the aquaculture facilities. Should be highly corrosive to salinity and durable so as not to deform the frame even in a marine environment due to rough waves and strong winds.

The lower frame, which forms the aquaculture facility, is installed on the bottom of the cage net to keep the floor of the cage net flat to secure the aquaculture space and to support the shelter housed in the cage net. The conventional lower frame forms a square frame structure by means of a cylindrical connecting pipe connected between a conventional El storage, a T (T) type coupling pipe and an El storage and a Tie coupling pipe.

However, such a structure is problematic in that it is difficult to securely fix the joint portion to be connected to the elec- tric storage or T-type joint pipe, so that it is loosened or deformed easily, and even if the rope portion of the net is fixed with a strap, The surface of the metal plate is slippery, and thus the metal plate must flow into the lower mold.

In addition, most of the lower frames are made of plastic such as polypropylene carbonate (PPC) or polyethylene and have a low specific gravity. Therefore, weight is added to the lower frame, or a skeleton of a railway is formed and coated with plastic, Increase the load strength so that it sinks.

However, if the frame has minute gaps, the rate of progress of the corrosion due to the salt is increased, and the weight of the frame itself becomes heavy, which makes the work difficult. Therefore, it is necessary to develop a lower frame which is lighter in weight compared with the strength and easy to maintain while there is little damage in the marine environment for a long time installation.

Korean Patent Registration No. 10-1261773 discloses an outer frame; A supporting frame connected to the inside of the outer frame, and a reinforcing frame integrally formed inside at least one of the outer frame and the supporting frame. Accordingly, there is disclosed a shelter stand for abalone cultivation which can easily manufacture and install a shelter stand and can improve bending strength. Korean Patent Laid-Open Publication No. 10-2014-0120988 discloses a method of manufacturing a semiconductor device in which first to fourth unit units extending in a direction orthogonal to each other at two corners of a square frame and having hollows and first to fourth unit units having opposite ends of the first to fourth unit units And transverse support members coupled to the first to fourth unit units so as to be spaced apart from each other across the frame forming space region formed by the first to fourth unit units, Each of the first to fourth unit units has a first portion extending in the horizontal direction and a second portion extending in a direction orthogonal to the extending direction of the first portion from one end of the first portion, And a fitting tube portion protruding in a direction parallel to the first portion so as to connect the members, wherein each of the first to fourth unit units has a hollow portion divided into a plurality of It is disclosed with respect to rollover fixed form nets lower mold for mutually locking is formed in a number of mutually separate upper and lower split pipes split tube so to be engaged by the locking unit. Korean Patent Laid-Open Publication No. 10-2016-0008912 discloses a frame formed by joining a transverse member and a longitudinal member of a metal material to each other in a lattice structure; A rope fixing piece formed around the outer rim of the frame and fixed so as to prevent the rope for holding the net shape formed around the bottom of the bottom of the rectangular net from flowing, And a PVC coating layer for coating the frame and the rope fixing piece so as to have corrosion resistance against seawater. Korean Registered Utility Model No. 20-0285581 discloses that a rectangular lower frame and an intermediate frame are spaced apart from each other by a predetermined distance and are fixed to the longitudinal side of the lower frame and the outer edge of the intermediate frame through corner posts, There is disclosed an overturning mold comprising an intermediate vertical bar on which support pillars are formed on both sides of the side of the frame, and intermediate horizontal bars formed on both sides of the longitudinal sides of the intermediate frame.

The present invention aims at solving the above-mentioned problems caused by increasing the weight of the material for increasing the specific gravity, and it is difficult to replace and maintain the lower frame that is installed at the breeding ground

In order to solve the above-mentioned problems, the present invention provides an outer frame, which is formed in a rectangular shape and is installed at least one side in a lateral direction and a lateral direction, A corner fixture for fixing the outer frame ends provided in the lateral and longitudinal directions; At least one inner frame arranged at a predetermined interval between one side of the outer frame and a corresponding outer side frame in a rectangular shape; And an inner fixing part connecting and fixing the connection part between the inner pipe and the outer pipe, wherein the inner and outer frames are made of FRP (Fiber Reinforced Plastics) Thereby providing a lower frame.

The lower frame of the present invention is formed of a FRP material manufactured by a draw-forming method, and has a specific gravity higher than that of a conventional lower frame, and is light in weight, facilitates installation and maintenance, has a high load strength, So that the volume of the frame is small, so that the influence of algae is small and the loading is easy.

In addition, since the lower frame for securing the overturning cranes is formed by a square pipe structure having an angle at the corners, the cranes are securely fixed between the corners of the pipes, so that there is little need to replace or repair the lower frame after installation. Therefore, there is no need to use a separate reinforcing bar, so that the material cost can be reduced and the labor for maintenance can be prevented and the cost can be saved.

Fig. 1 shows a conventional lower frame for securing an overturned cage net.
Fig. 2 is a perspective view of a lower frame for fixing the rolled cage net according to the present invention.
3 is an explanatory view of a corner fastener of a lower frame for securing an overturning cage net according to the present invention.
4 is a cross-sectional view of a corner fixture of a lower frame for securing a rolled cage net according to the present invention.
Fig. 5 is an explanatory view of an inner fastener of the lower frame for securing the rolled cage net according to the present invention.
FIG. 6 is an explanatory view for explaining a state in which a lower frame for fixing an overturned cage network and a cage network are combined.

1 shows a conventional lower frame. The conventional lower frame shown in Fig. 1 is formed in a rectangular shape by a cylindrical connecting pipe connected between a normal El storing, a T-shaped connecting pipe and an El storing and a Tie-type connecting pipe. However, such a structure is problematic in that it can not be firmly fixed to the joint portion to be coupled with the el-sheath or tie-type joint pipe, and is thus loosened or deformed easily, and that the rope portion of the net is fixed to the lower frame by a string, The surface of the pipe is made slippery and it has to be flowed in the lower frame.

In addition, most of the lower frames are made of plastic such as polypropylene carbonate (PPC) or polyethylene and have a low specific gravity. Therefore, weight is added to the lower frame, or a skeleton of a railway is formed and coated with plastic, Increase the load strength so that it sinks. However, if the frame has minute gaps, the rate of progress of the corrosion due to the salt is increased, and the weight of the frame itself becomes heavy, which makes the work difficult.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an overall configuration of a subframe fixing subframe according to the present invention will be described with reference to the accompanying drawings.

Fig. 2 is a perspective view of a lower frame for fixing the rolled cage net according to the present invention. The lower frame for securing an overturning cranes net is formed to have a diameter capable of securing a culture space by securing a lower part of the cranes and fixing and supporting the overturning shelter provided inside the net.

The lower frame for fixing a rolled cage net of the present invention includes an outer frame 400 formed in a rectangular shape and installed at least one side in a lateral direction and a longitudinal direction, A corner fixture (200) for connecting and fixing external pipe ends provided in the lateral and longitudinal directions; At least one inner frame (500) installed at a predetermined interval between one side of the outer pipe and the outer pipe corresponding to the outer pipe in a rectangular shape; And an inner fixing part 300 connecting and fixing the connection part between the inner pipe and the outer pipe.

Drawing-molded FRP material Interior and exterior frame properties Item unit FRP material frame Structural steel aluminum Hard vinyl chloride Test method Shape Bar importance - 1.7-1.9 1.8 ~ 2.1 7.8 2.7 1.4 KSM3015 G.F CONTENT % 4.5 to 60 55 ~ 70 KSM3305 Tensile Strength (Vertical) kg / mm ² 35 to 55 60 to 70 35 to 50 7 to 28 3.9 to 6.3 KSM3015 Tensile Strength (Width) kg / mm ² 3 to 7 Tensile Elasticity (Vertical) kg / mm ² 2200-3000 21000 7000 250 to 420 KSM3015 Tensile Elasticity (Horizontal) kg / mm ² 500 to 700 Flexural Strength (Vertical) kg / mm ² 25 to 50 60 to 90 34 ~ 45 7 to 28 56 to 10.5 KSM3015 Flexural strength (horizontal) kg / mm ² 7 ~ 18 Flexural Elasticity (Vertical) kg / mm ² 1000 ~ 2000 2500 - 3500 21000 - 250 to 420 KSM3015 Flexural elasticity (horizontal) kg / mm ² 700 ~ 900 Compressive strength (vertical) kg / mm ² 30 to 50 40 to 50 45 - 6.3 to 7.7 KSM3015 Compressive strength (horizontal) kg / mm ² 10 to 15 Arc arcability sec 120 120 - - - KSM3015 Withstand voltage kV / mm 6-12 6-12 - - KSM3015 Absorption rate % 0.2 0.2 - - - KSM3015 Electrical conductivity E * 5 % 4.7 to 5.2 4.7 to 5.2 KSM3015 E * 6 4.5 to 5.1 4.5 to 5.1 - E * 6 4.3 ~ 4.7 4.3 ~ 4.7 Thermal conductivity kal.mh 0.24-0.28 0.24-0.28 40 0.15-0.28 KSM3015 Heat distortion temperature > 200 > 200 > 600 > 80

The outer frame 400 and the inner frame 500 of the present invention are formed in a square pipe structure so that the rope 900 of the cage net is firmly fixed to the edges of the inner and outer frames, . Therefore, it is possible to prevent the problem that the binding area of the rope is easily deformed due to the low fixing force of the existing frame and the cage net, and in addition, the repair and replacement cycle of the deformed device can be extended, There is an effect that the working time for the operation is shortened.

A circular insertion rod receiving groove may be formed on one side of the side surface of the corner fixing member so as to receive an insertion rod capable of giving elasticity when the frame is contacted with the insertion rod receiving groove. The inner and outer frames of the present invention are formed of FRP (Fiber Reinforced Plastics) and are manufactured through a drawing process. FRP is a composite material obtained by laminating and curing a glass fiber, which is a reinforcing material, by impregnating a thermosetting resin such as an unsaturated polyester resin or a phenol resin into a fiber reinforced resin or a reinforced plastic.

Table 1 shows the physical properties of the inner and outer frames made of the FRP material of the drawn-out molding according to the present invention as compared with the structural steel, aluminum and hard vinyl chloride manufactured as examples. The drawing process is a process of melting a compound obtained by mixing a thermosetting resin with a thermosetting resin, injecting the compound into a heated metal mold capable of forming each pipe frame, passing through a mold, cooling, And cutting the drawn product to a desired length through a cutter.

 Since FRP has good workability, light weight, high mechanical strength and heat resistance as well as high strength of load due to its light weight compared to strength, it is possible to reduce the load There is an effect that it is not only necessary to supply but also it is easy to load as well as to maintain a sufficient load even if it is formed into a small volume. Further, the manufacturing process of the frame is simple and simplified because it is manufactured by the draw-forming, and the production cost can be reduced.

As the reinforcing material forming the FRP of the present invention, there are chopped Straand Mat, Rovin Cloth, Yarn Colth, and Surface Mat as glass fibers. Or it can be used in combination with other kinds of things.

The thermosetting resin is selected from the group consisting of an unsaturated polyester, a vinyl ester, an epoxy, a phenol, and a urethane. Unsaturated polyester resin (UPR) is an insoluble and thermosetting plastic. It is excellent in required properties in comparison with price, and has excellent mechanical properties (strength), electrical insulation, corrosion resistance (chemical resistance) , Heat resistance, acid resistance, water resistance, and various applications of reinforcing materials.

Examples of the thermoplastic resin include saturated polyester resins, polystyrene, polyethylene and copolymers, polymethacrylic acid and copolymers, polyvinyl acetate and copolymers, vinyl chloride, policaprolactone, cellulose acetate butyrate, modified polyurethane and the like .

3 is an explanatory view of a corner fastener of a lower frame for securing an overturned cage net according to the present invention, and Fig. 4 is a cutaway view of a corner fastener. The corner fastener 200 of the present invention has frame structures 210a and 210b formed at one side in the horizontal and vertical directions in which the outer pipe is installed with a positive structure, (220a, 220b) are formed.

The frame receiving hole includes a frame receiving hole 210a for accommodating a distal end portion including an insertion rod and a frame receiving hole 210b for receiving a distal end portion of an outer frame to which the insertion rod is not inserted, .

 The protruding portion is composed of a protruding portion 220a which is clogged at the end portion without an insertion port and a protruding portion 220b in which the bolt hole 230 is formed so that the main bolt can be inserted when the protruding portion is engaged. Since one or more outer frames are connected and fixed in the lateral and vertical directions to form a rectangular frame structure, the corner fixture 200 is installed at four corners where the outer frames intersect at right angles, There are two external frames to be inserted.

Fig. 5 is an explanatory view of an inner fastener of the lower frame for securing the rolled cage net according to the present invention. As described above, the four corner fixtures 200 and the four outer frames 400 are combined to form a crisscross shape of the lower frame for fixing the net in the abdominal aquaculture farm, and one side of the outer frame 400 and the outer side A plurality of inner frames 500 are connected to the frame 400 at regular intervals.

The inner frame 500 is coupled to the outer frame 400 in the vertical direction by the inner fixture 300. Since the inner frame 500 is installed on the upper part of the inner frame 500 so as to couple with the abalone shelter installed inside the mesh network, four inner frames 500 should be installed if the abalone shelters are installed in two rows.

The inner fixture 300 for connecting and fixing the outer frame 400 and the inner frame 500 includes a horizontal frame in which the outer frame is inserted and fixed, The frame receiving portion 210a is vertically connected to one frame to form a (T) type structure. A bolt hole (230) is formed in a side wall of an opposing inner fastener body (310) in a direction in which the frame accommodating portion is installed.

An insert bar 250 made of wood or synthetic resin may be inserted into the ends of the inner and outer frames 500 and 400 inserted in the direction in which the bolt holes 230 of the corner fixture 200 and the inner fixture 300 are formed And the bolts to be engaged in the subsequent process can be fixed to the inner and outer frames via the insertion rod 250. [

The assembling order of the outer frames 400 inserted into the corner fixture 200 is first inserted into the end portion of the outer frame 400 which faces the protruding portion 220a blocked with the inserting portion of the frame accommodating portion 210b, The outer frame inserted in the direction in which the hole 230 is formed is inserted to the outer frame 400 inserted first with the insertion rod 250 inserted.

The main bolt 610 can be inserted into the bolt hole 230 formed toward the frame receiving portion 210a of the corner fastener 200 and the inner fastener 300 and can pass through the outer frame 400 The second bolt 620 is inserted from the side of the frame accommodating portion 210a into which the insertion rod 250 is inserted until a predetermined depth of the insertion rod 250 inserted into the frame accommodating portion 210a formed in the outer frame The main bolt of the insertion rod 250 is inserted farther from the end where it does not extend and the third bolt 630 is inserted into the insertion rod 250 so as not to be caught by the main bolt 610, Is appropriate.

The inner frame 500 coupled to the inner fixture can be changed in position according to the overturning shelter installed at the upper portion so that the main bolt 610 and the bolt hole 230 may be omitted in the inner fixture 300, Accordingly, the insertion rod 250 may be omitted.

FIG. 6 is an explanatory view for explaining a state in which a lower frame for fixing an overturned cage network and a cage network are combined. A rope insertion groove 710 is formed in a longitudinal direction below the frame receiving portion of the corner fastener, and a binding groove 750 is formed around the end of the rope insertion groove 710. If the rope 900 of the net is inserted into the rope insertion groove 710 of the corner fixture 200 and is bound to the binding groove 750 by the tie band 950 or the like, the cage net 800 can be more firmly fixed have.

Unlike the conventional cylindrical pipe structure in which the frame is loosened or the deformation portion of the rope fixing the cage net can not be easily changed when the lower frame of the present invention is installed on the farm, So that the cage net rope is firmly fixed between the corners of the outer frame, so that there is little need to replace and repair the lower frame even after installation. Therefore, there is no need to use a separate reinforcing bar, so that the material cost can be reduced and the labor for maintenance can be prevented and the cost can be saved.

Also, since the lower frame of the present invention is made of FRP material, it has a higher specific gravity than the conventional lower frame and is lighter in weight, facilitates installation and maintenance, has a high load strength and has little deformation and corrosion, So that the effect of algae is small and the loading is easy.

Since the lower frame of the present invention has almost no corrosion even when installed in seawater for a long period of time and is formed in a square shape unlike a normal cylindrical pipe structure, the cage web rope is firmly fixed between corners where angles are formed. The inner and outer frames forming the framework of the lower frame are formed of the FRP material through the drawing process by the manufacturing method. Since the manufacturing process is simple and the cost of purchasing is reduced, the cost of management of farm management can be reduced, and the weight of the apparatus can be reduced. Thus, the volume of the apparatus can be reduced and the number of shelters can be increased Therefore, it is possible to increase the profit of fishermen as well as to promote the development of high value-added aquaculture industry.

100: net fixing lower frame
200: Corner fixture 210a, 210b:
220a, 220b: protrusion 230: bolt hole
250: insertion rod 300: inner fastener
310: inner fastener body 400: outer frame
500: inner frame 610: main bolt
620: second bolt 630: third bolt
710: rope insertion groove 750:
800: Cage net 900: Rope
950: Thai band

Claims (5)

An outer frame connected to one or more frames in the horizontal and vertical directions to form a closed structure of the rectangular frame; A corner fixture connecting and fixing an end of an outer frame where the horizontal direction and the vertical direction meet;
At least one inner frame for connecting one side of the outer frame and an outer frame at the opposite side is formed; And an inner fixture connecting and fixing the inner frame and the outer frame;
The corner fastener has a positive (+) structure, and a frame receiving portion is formed in a lateral direction and a longitudinal direction of one of the sides, and a protrusion is formed in another transverse direction that is symmetrical with the lateral and longitudinal directions. An outer frame passing through the vertical direction is formed to be connected and fixed in a T shape,
The inner frame inserted into the inner fastener and the vertical frame inserted into the corner fastener are inserted into an insertion rod receiving groove with an insertion rod made of wood or synthetic resin to be engaged with an inner fastener or a corner fastener with a main bolt, A second bolt connection is made on the side of the part,
Wherein the outer frame and the inner frame are formed of an FRP material produced by drawing a compound obtained by melting a thermoplastic resin mixed with a thermosetting resin,
The thermosetting resin according to claim 1, wherein the thermosetting resin is at least one selected from the group consisting of unsaturated polyester, vinyl ester, epoxy, phenol and urethane.
The thermoplastic resin may be selected from the group consisting of saturated polyester resins, polystyrene, polyethylene and copolymers, polymethacrylic acid and copolymers, polyvinyl acetate and copolymers, vinyl chloride, policaprolactone, cellulose acetate butyrate, modified polyurethanes Wherein the lower frame is fixed to the lower frame, delete delete delete

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