KR20170022116A

KR20170022116A - Layer Structure Cage Type Culturing Sea Cucumber Apparatus

Info

Publication number: KR20170022116A
Application number: KR1020150116706A
Authority: KR
Inventors: 안주영
Original assignee: 한국홍원주식회사
Priority date: 2015-08-19
Filing date: 2015-08-19
Publication date: 2017-03-02

Abstract

A layered sea cucumber aquaculture apparatus is disclosed. A layered sea crayfish culture system according to the present invention comprises: a farmhouse frame made up of a plurality of cases of a layered structure and having a plurality of flow holes formed on the bottom and side walls of each layer; A hinged door formed on each floor on one side of the farm frame; A sea cucumber forming member disposed at the bottom of each layer of the farm frame; And a plurality of hook members connected to each other on the upper surface of the farm frame and extending to the lower end in different directions and fixed to the lower end.

Description

{Layer Structure Cage Type Culturing Sea Cucumber Apparatus}

The present invention relates to a sea cucumber aquarium, and more particularly, to a sea cucumber aquarium which is capable of preventing pollution of water quality due to excretion of sea cucumber and reducing the labor required for cleaning, and a layered structure capable of culturing a large amount of sea cucumber The present invention relates to a caged sea cucumber culturing apparatus.

In recent years, interest in health and wellness has been increasing, and sea cucumbers have been recognized as the best health food or stamina foods such as sea ginseng in the Asian region including Korea and China.

Sea cucumbers grow at a temperature of 15 to 18 ° C, but they rarely eat food during periods of high water temperatures. Therefore, from around July when the Korean coast is warm, the digestive organs of the sea cucumbers are degenerated and enter the sea.

In addition, the sea cucumber is prohibited to be harvested in June and is prohibited from harvesting, and since July, the amount of harvesting of the sea cucumbers in the natural state is insufficient due to ecological physiological characteristics such as a decrease in harvest amount due to entering the harvesting season. Therefore, there are many studies on artificial cultivation of sea cucumber.

In order to cultivate sea cucumbers, sea cucumbers should be formed in the farming area in consideration of the characteristics of habitat ecology, such as corners and corners. .

A typical onshore aquaculture farm grows sea cucumbers by attaching the attachment substrate called shelltata into the farm, and the sea cucumbers attach to the attachment substrate and grow while feeding. In other words, when a fine powder feed which is fed to sea cucumber is administered in a water tank, the powder feed floats in the water and adheres to the bottom of the attachment machine or the water tank, and this feed grows while the sea cucumber sucks.

However, such aquaculture farms must be cleaned periodically because they are susceptible to contamination from the excreta of sea cucumbers inside the farm. However, in order to clean the farms, it is necessary to clean the bottom of the farm after discharging all the attached substrates installed inside. Therefore, it takes much time and trouble to clean.

The public utility model publication 20-2010-0008666 (public date: 2010. 09. 02)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method for preventing water pollution caused by feces of sea cucumber, It is intended to provide a caged sea cucumber culturing apparatus.

In order to accomplish the above object, the present invention provides a cage-type sea crayfish culture apparatus having a layered structure comprising a case frame having a plurality of layered cases and having a plurality of flow holes formed on bottom and side walls of each layer; A hinged door formed on each floor on one side of the farm frame; A sea cucumber forming member disposed at the bottom of each layer of the farm frame; And a plurality of hook members connected to each other on the upper surface of the farm farm frame and extending to the lower end of the farm farm frame in different directions and fixed to the lower end of the farm farm frame.

The above-described layered caged sea crayfish culturing apparatus may further include a penetrating member fixedly installed on the bottom of each layer of the farm frame and penetrating the hook member from the upper end to the lower end.

Here, the sea cucumber culture member may be composed of a zigzag-like attachment substrate in which the floor and the bone are repeated.

According to the present invention, the installation of the sea cucumber aquaculture apparatus on the sea, rather than the land, can prevent the water quality from being contaminated by the excretion of the sea cucumber, thereby reducing the cost and labor required for cleaning.

In addition, according to the present invention, by implementing the sea cucumber culture apparatus with a laminated structure, a large amount of sea cucumber can be cultured even in a narrow space.

1 is a schematic view of a caged sea cucumber culture apparatus having a laminated structure according to the present invention.
FIG. 2 is a view for explaining the inside of each layer of the caged sea crayfish culture apparatus shown in FIG. 1; FIG.
3 is a view showing an example of a sea cucumber culture member disposed inside each layer of the caged sea cucumber culture apparatus.
4 is a view showing an example of a penetrating member.
5 is a view showing an example of weight.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for forming a caged sea cucumber of a laminated structure according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view of a caged sea cucumber culture apparatus having a laminated structure according to the present invention.

Referring to FIG. 1, a caged sea caged aquarium system 100 according to the present invention includes a fish farm frame 110, a hinged door 120, a sea cucumber forming member 130, a hooking member 140, and a penetrating member 150 ).

The farmhouse frame 110 is made up of a plurality of cases of a layered structure, and a plurality of flow holes are formed on the bottom and side walls of each layer. For example, as shown in FIG. 1, the farm site frame 110 may be formed of a case having five layers, and on the bottom and side walls of each of the layers, (112) is formed. At this time, the size of the flow hole may prevent the sea cucumber and natural enemies from flowing in and out, and it is preferable that the size of the flow hole is such that soil and sand of sea water and seabed surface can flow smoothly. Here, although FIG. 1 illustrates and describes a five-layered structure of the farm site frame 110, the number of farm site frame 110 is not limited to five.

The hinged door 120 is formed in each layer on one side of the farm frame 110. For example, as shown in FIG. 2, the hinged door 120 is provided with a handle at each left end thereof, and can be rotated while being pivoted about the right end when the handle is pushed forward.

The sea cucumber forming member 130 is disposed at the bottom of each layer of the aquaculture frame 110. That is, the sea cucumber forming member 130 is disposed at the bottom of each layer by opening each of the hinges 120 of the farm frame 110. At this time, as shown in FIG. 3, the sea cucumber cultivation member 130 may be composed of a staggered attachment substrate in which the floor 132 and the valleys 134 are repeated. Here, the attachment substrate may be made of any one or more of various materials such as mesh cloth, vinyl, ordinary cloth, shielding film, and net, and is not limited to a specific material. That is, the attachment substrate may be formed of any material as long as it can easily feed the feed of the sea cucumber introduced through the feeder or the circulation hole by the administrator, and can easily attach the sea cucumber to feed it.

The sea cucumbers enjoy feeding on the floor 132 due to the characteristics of their corners. In such a case, the excreta of the sea cucumbers falls along the slope and collects in the valley 134. At this time, seawater, soil, sand, and the like are distributed through the flow holes 112 formed on the side walls of the aquarium frame 110, and excrements of sea cucumbers accumulated in the valleys 134 of the sea cucumber forming member 130 are distributed together, (110). &Lt; / RTI >

The hanger member 140 is for connecting the aquarium frame 110 to an external structure (not shown) to place the aquarium frame 110 at a predetermined position on the sea, and is connected to the upper surface of the aquarium frame 110, And extend to the lower ends of the sides of the farmery frame 110 in different directions, and are fixed to the lower end of the farmery frame 110. At this time, the hook member 140 may be formed of a string, a wire, a chain, or the like, and a connection ring (not shown) may be provided at a point where the upper surface of the aquarium frame 110 is connected to each other.

The penetrating member 150 is fixedly installed outside the bottom of each layer of the aquaculture frame 110, and penetrates the hooking member 140 from the upper end to the lower end. At this time, as shown in Fig. 4, the penetrating member 150 is vertically formed as a cylindrical tube, its side surface is fixed to the frame outside the bottom of each layer, and the hook member 140 is moved from the upper end to the lower end Through. Thus, the hooking member 140 can be stably attached to the aquaculture frame 110 so that the aquaculture frame 110 can be poured into the seawater or can be lifted up over the seawater.

In order to prevent the shrimp frame 110 from being shaken, a weight 160 may be installed at the bottom of the shrimp frame 110, as shown in FIG. At this time, the weight 160 may be connected to a connection line 162 such as a string or a chain having a length from the lower end of the farm frame 110 to the sea floor surface 164.

100: Layered caged sea cucumber cultivation device
110: farm frame
112: Distribution ball
120: Hinged door
130: Absence of sea cucumber
132: floor
134: Goals
140:
150: penetrating member
160: Weights
162: connection line

Claims

A farmhouse frame made up of a plurality of layered cases and having a plurality of flow holes formed on the bottom and side walls of each layer;
A hinged door formed on each floor on one side of the aquarium frame;
A sea cucumber forming member disposed at the bottom of each layer of the farm frame; And
A plurality of hook members connected to each other at an upper surface of the farm frame and extending to the lower end of the farm frame through the side of the farm frame in different directions and fixed to the lower end of the farm frame;
Wherein the caged sea cucumber is in contact with the sea cucumber.

The method according to claim 1,
A penetrating member fixedly installed at the bottom of each layer of the farm frame and penetrating the hook member from the upper end to the lower end;
Further comprising a layered structure of the caged sea cucumber.

The method according to claim 1,
The sea cucumber culture unit comprises:
And a zigzag-shaped attachment substrate in which a floor and a bone are repeated.