KR20170085899A - Culturing System of Lugworm - Google Patents

Abstract

The present invention provides an air conditioner comprising a water tank 140, a device unit 130 provided in the water tank 140, an air injection unit 110 provided outside the water tank 140 to supply air to the water tank 140, A seawater injection unit 120 for supplying seawater to the water tank 140, and a seawater discharge hole 144 for discharging seawater; The apparatus unit 130 is constructed in a two-layered structure, and a large amount of lagoon larvae are generated using the lagoon feeding apparatus 131, and the larvae are used for collecting larvae. The present invention relates to a vat cultivation system 100 for facilitating the management and transportation of germs in the case of releasing seedlings and selling seeds.

Description

[0001] Culturing System of Lugworm [

The present invention relates to a cultivation system for a barnacle, and more particularly, to a barn culture system capable of collecting large quantities of barnacles larvae from a barnacus caterpillar without loss and culturing the insects.

Although the method of culturing the insect pests is already carried out in Korea, the technical problem in the process of insect pests has caused many larvae to die.

When the temperature of the seawater is higher than a certain temperature (18 ° C) at the end of May, it starts to form and breed larvae. However, in order to collect large amounts of larvae, a relatively large amount of lagoons, a caterpillar that houses the larvae, and a larvae collection box, which is a structure to extract the larvae, are required. In order to collect larvae, There is a drawback that it requires manpower.

Korean Registered Patent No. 10-1332884 (Nov. 19, 2013)

The present invention has been proposed in order to solve the above problems and it is possible to collect a large amount of lugworm larvae by inserting a large amount of lugwort larvae with no loss or leakage, And it is an object of the present invention to provide a culturing system for a lagoon which is easy to move.

The culturing system of the lug according to the present invention comprises a water tank and a device part installed inside the water tank; Wherein the device portion comprises at least one heifter culturing device that is upwardly open, and at least one caterpillar device stacked on the heifer culture device and open upward; A caterpillar culture system is provided in which an insect feeding apparatus is stacked on the insect culture apparatus so that the upward opening of the insect culture apparatus is exposed.

In this case, the caterpillar-growing apparatus comprises a caterpillar holding box having a plurality of through-holes opened upward, a first net made of a fine mesh and provided in the caterpillar cage so as to close the through hole of the caterpillar cage, ; And the first net is formed of a fine mesh formed into a through hole having a size that does not permit passage of a caterpillar caterpillar.

In the above, the insect culture apparatus comprises a second insect culture incubation box having a plurality of through holes formed upwardly, a second net made of a fine net provided in the insect cell culture box to block the through holes of the second insect culture box, ; The through hole formed in the second net is formed to be smaller than the through hole size of the first net, and the lug is prevented from passing through the puncture.

In this case, the bottom surface of the water tank is inclined downward to one side, and a sea water discharge hole is formed at one end of the bottom surface.

In the above, a support is further provided between the bottom surface and the antifungal culture device; The support portion is composed of an upper plate provided with a plurality of through holes and an inclined support portion provided below the upper plate to allow the upper plate to be horizontal when the support portion is installed on the bottom surface.

 The present invention relates to a method for cultivating a lugwort larvae, comprising the steps of placing a larval larvae in a lethal insect culture device, placing a small amount of labor and cost, collecting larvae of the lugwort largely without loss, And seedlings are easy to manage and move, it is effective to increase productivity and raise income of fishermen.

FIG. 1 is a structural view showing a conventional barbagus scattering management apparatus,
FIG. 2 is a schematic perspective view showing a water tank for spawning a lagoon provided in a lagoon scattering management apparatus of the prior art,
FIG. 3 is a plan view showing the cultivation system of the present invention,
Fig. 4 is a schematic cross-sectional view taken along the line AA in Fig. 3,
Fig. 5 is an enlarged view of part B of Fig. 4,
FIG. 6 is a schematic perspective view showing a supporting part provided in the culturing system of the clogs of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings. In the detailed description, description of the contents described in the prior art will be omitted.

FIG. 3 is a plan view showing the cultivation system of the present invention. FIG. 4 is a schematic cross-sectional view taken along the line AA of FIG. 3. FIG. 5 is an enlarged view of part B of FIG. FIG. 1 is a schematic perspective view showing a support part provided in the culture system. FIG.

3 or 4, the vulture culture system 100 includes a water tank 140, a device unit 130, an air injection unit 110, a sea water injection unit 120, (144).

The air injection unit 110 includes an air pipe 111 and an air injection unit 113. The air pipe (111) is a pipe through which air can pass. The air pipe 111 is fixed to a space skirt in which the heifer culture system 100 is installed and is vertically branched down from the skirt to the water tank 140. The air spraying unit 113 is connected to the air pipe 111 to spray the air moved in the air pipe 111 to the seawater filled in the water tank 140 and supply the air.

The seawater injection unit 120 is located above the water tub 140. The seawater injector 120 includes a seawater pipe 122 and a seawater sprayer 124. The sea water pipe 122 is provided in the form of a tube for moving seawater to the water tank 140. The sea water injection port 124 is connected to the sea water pipe 122 to supply seawater into the water tank 140.

The device unit 130 includes a caterpillar breeding device 131, a heifter culture device 133, and a support unit 135. The caterpillars raising device (131) is provided upward in a plurality of openings. Caterpillars are raised in the caterpillar-feeding device 131, and the larvae are scattered from the caterpillars and grown. The above-mentioned insect-cell culture device 133 is opened upward and provided in plural. The insect-cell culture device 133 provides a space in which the infested larvae are grown as insects. The caterpillar raising device 131 and the insect cell culture device 133 are stacked on the insect cell culture device 133 such that the upward opening of the insect cell culture device 133 is exposed. One caterpillar raising device (131) is placed at the center and stacked on 4 to 8 pieces of the above-mentioned insect cell culture device (133).

As shown in FIG. 5, the caterpillar raising device 131 includes a caterpillar breeding box 1312, a first net 1314, and a sand 1316. The caterpid cage 1312 is a rectangular parallelepiped having an upward opening, and a plurality of through holes are formed in the bottom surface. The through-hole may be formed on the side of the caterpillar cage 1312. For example, the caterpillar cage 1312 is formed to have a size of 40 cm in width, 25 cm in height, and 25 cm in height. The caterpillar cage 1312 can be made of various materials such as synthetic resin and metal.

The first mesh 1314 is made of a material such as mesh or the like, and is made of a fine mesh such as a mosquito net. The first nets 1314 are provided in the caterpillar cage 1312 so as to close the through holes of the caterpillar cage 1312. The first mesh 1314 may have a size in the range of 900-1,000 mu m in the size of the through hole of the first mesh 1314 so that the caterpillar can not come out of the caterpillar cage 1312 through the through holes but only sea water and larvae can escape. .

The sand 1316 is contained in the first net 1314. Within the sand 1316, caterpillars are raised and scattered into larvae.

The insect culture apparatus 133 includes a heifers culture box 1331, a second net 1333, and a sand 1335. The insect cell culture box 1331 is a rectangular parallelepiped having an upward opening, and a plurality of through holes are formed on the bottom surface. The through-hole may also be formed on the side of the insect cell culture box 1331. For example, the insect cell culture box 1331 is formed to have a size of a width of 40 cm, a length of 25 cm, and a height of 7 cm. The insect cell culture box 1331 can be made of various materials such as synthetic resin and metal.

The second network 1333 is made of a material such as mesh or the like, and is a fine mesh such as a mesh. The aperture of the second network 1333 is smaller than the aperture of the first network 1314. The second net 1333 is provided in the insect cell culture box 1331 so that the larva can not come out through the through hole of the insect cell culture box 1331. One side of the second mesh 1333 is formed in a range of 200-250 mu m so that the second net 1333 can not protrude out of the insect cell culture box 1333.

The sand 1335 is accommodated in the second net 1333. The larvae are seated with the sand 1335 and cultured as a microorganism. When a plurality of through holes are formed on the bottom surface of the insect cell culture box 1331, the second mesh 1333 is laid on the bottom of the insect cell culture box 1331 and the second insect cell 1333 ).

The device is constructed so that the caterpillars are raised and scattered in the sand 1316 in the caterpillars raising device 131 so that the larvae of the caterpillars are fed through the first net 1314 or the upper part of the opened caterpillar- And a system for culturing the larvae to grow into the insect cell culture box 1331 and the larvae to grow into the insect in the sand 1335. In addition, the insects of the lugwort cultivated in the insect cell culture device 133 are sold and moved to the insect cell culture box 1331 without being separated from the sand, so that they can be easily managed and moved, which is very efficient for increasing the productivity and increasing the income of the fishermen .

As shown in FIG. 4, the water tank 140 is formed as a rectangular parallelepiped having an inclined bottom surface 142 and side walls and opened upward. The water tank 140 can be made of various materials such as concrete. The bottom surface 142 of the water tub 140 is formed to be inclined downward to one side. The inclined angle of the bottom surface 142 is about 5 [deg.]. At one end of the bottom surface 142, a seawater discharge hole 144 is formed. Due to the inclination of the bottom surface 142, the sediment and contaminants move together with the seawater and are discharged to the seawater discharge hole 144, so that they can be cleaned and work can be performed with less manpower and cost. A seawater discharge hole 144 is formed at the lowest part of the bottom surface 142.

As shown in FIG. 6, the support part 135 can be manufactured in various materials and shapes. The supporter 135 is provided between the insect cell culture device 133 and the bottom surface 142 of the water tank 140 so that the insect cell culture device 133 is positioned horizontally. The supporting portion 135 is composed of an upper plate 1352 and an inclined supporting portion 1354.

The upper plate 1352 is formed of an upper plate having a plurality of through holes. The upper plate 1352 is provided at a lower portion of the insect culture apparatus 133. The inclined support portion 1354 is formed below the upper plate 1352. The inclined support portion 1354 is inclined downward to one side such that the upper plate 1352 is horizontal when the upper plate 1352 is installed on the bottom surface 142.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.

100: Lobster culture system
110: air injection unit
120: Seawater injection unit
130:
131: Caterpillars
133:
135: Support
140: aquarium
142:
144: Seawater discharge ball

Claims (5)

A water tank 140 and a device unit 130 installed inside the water tank 140; The device unit 130 includes one or more heifter culturing devices 133 opened upward, and one or more caterpillars 131 stacked on the heifter cultivation device 133 and opened upward; Characterized in that the insect feeding device (131) is stacked on the insect cell culture device (133) so that the upward opening of the insect cell culture device (133) is exposed. The caterpidry apparatus according to claim 1, wherein the caterpillar raising device (131) comprises a caterpillar cage (1312) having a plurality of through holes formed therein and a caterpillar cage (1312) A first mesh 1314 made of a fine mesh and a sand 1316 accommodated in the first mesh 1314;
Characterized in that the first net (1314) is made of a fine mesh formed into a through hole sized to prevent passage of a caterpillar caterpillar The method according to claim 2, wherein the insect cell culture device (133) comprises a heifter culture box (1331) having a plurality of through holes formed upwardly, and a heifter culture box (1331) A second mesh 1333 made of fine mesh and sand 1335 accommodated in the second mesh 1333;
Wherein the through-hole formed in the second net (1333) is formed to be smaller than the through-hole size of the first net (1314) The method according to claim 1, wherein the bottom surface (142) of the water tub (140) is downwardly inclined to one side, and a sea water discharge hole (144) is formed at one end of the bottom surface 5. The method according to claim 4, further comprising a support portion (135) between the bottom surface (142) and the heifter culture device (133); The supporting portion 135 includes an upper plate 1352 provided with a plurality of through holes and an inclined support portion 1352 provided below the upper plate 1352 so that the upper plate 1352 is horizontal when the supporting portion 135 is installed on the bottom surface 142 1354) < / RTI >

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