KR20110118984A

KR20110118984A - Culture equipment for mollusk

Info

Publication number: KR20110118984A
Application number: KR1020100038419A
Authority: KR
Inventors: 정병재
Original assignee: 정병재
Priority date: 2010-04-26
Filing date: 2010-04-26
Publication date: 2011-11-02
Also published as: KR101196469B1

Abstract

The present invention is the top of the cylinder 1100 and the upper portion of the cylinder 1100 having a diameter of 5 ~ 10cm formed with a plurality of through holes 1101, the lid formed with a plurality of through holes 1201 to facilitate feeding In order to provide a cephalopod aquaculture device configured to be blocked by (1200), the present invention can prevent the official phenomenon, which is the largest closure of the cephalopod aquaculture by independently separating and raising each individual cephalopod individual, one by one By forming the lid and the lid to open and close, it is convenient to provide food, easy to clean, prevent the escape of cephalopods, and facilitate the ease.
In another aspect, the present invention is to block the body formed independently of the lid and the lid, but the cylinder, the lid, the bottom lid to form a plurality of through holes to enable the smooth circulation of birds to prevent damage to cephalopods by pirates It is a very useful invention that can raise fishermen's income by raising cephalopods caught in the farm and selling them at high prices during shortages.

Description

Cephalopod aquaculture equipment {Culture equipment for mollusk}

The present invention relates to a cephalopod aquaculture apparatus, and more particularly, to a cephalopod aquaculture apparatus for enabling a cephalopod aquaculture known to be almost impossible.

In general, octopus among the cephalopods captured in Korea is 70cm in length and 8cm in length of the outer membrane, thin and long, and longer arms than the outer membrane length. In particular, the body is composed of the body, head, and arms. The body, which looks like a head, has an egg-shaped heart, liver, stomach, intestines, gills, and genitalia. There is a brain in the head between the torso and arms, with a pair of left and right eyes, breathing by sucking water with a funnel that looks like a mouth attached to the head, with eight arms attached to the head and one to two rows of There is a sucker, the mouth is stuck in the middle of the arm, there is a sharp jaw plate, and there is a tongue in it.

In addition, octopus is distributed from the coastal intertidal to deep sea, but digs in shallow sea rocks or mud, and lays eggs from May to June.

Octopus has a good taste and nutritional value, and it has a very high preference for fish species and the timing of harvesting. There is a very serious disadvantage of such a price plunging.

Like this, when a large amount is collected, it may be frozen and shipped at a time when a small amount is collected.

Therefore, if a large octopus can be raised in the genital tract, it will be of great help to the fisherman's income.

Conventionally, the upper frame 3 consists of a vertical frame 4 and a lower frame 5 to form octopus, and at least one horizontal support 6 is provided between the upper frame 3 and the lower frame 5. Square ceramic with holes and ceramic plate 7 with band-like grooves in each layered space consisting of upper frame 3, lower frame 5 and / or horizontal support 6 The upper reef (1) having a large number of (8) and the cave type ceramic (9) having a structure suitable for the habit of the octopus is composed of a lower reef that allows a natural space to be formed. ), And the ceramic artificial reefs with the rectangular auxiliary frame (13) have been proposed Korean Utility Model Registration No. 20-256424, but this is a structure that can not protect octopus from pirates, and above all the characteristics of cephalopods Formula, that is, together Cooling could not prevent each other from eating. Therefore, the situation is not successful in the complete octopus farming until now.

The present invention was developed in order to solve the above problems, so that each individual cephalopods can be separated and raised independently of each individual cephalopods to prevent formal phenomena, and at the same time, the convenience of providing food to each cephalopods independently raised, It is to provide an apparatus that enables the culture of cephalopods by creating an optimal habitat environment for easy cleaning and smooth circulation of algae.

In order to achieve the above object, the present invention is characterized in that the top of the cylinder and the top of the cylinder is formed of a plurality of through-holes, the top is open and a plurality of through-holes are formed.

The cylinder and the lid is characterized in that the cylinder and the lid is coupled by the hinge portion formed on one side so as to be opened and closed, but is formed so as to administer the food by forming a locking portion on the other body and the lid facing the hinge portion.

The lower portion of the cylinder provided with the lid is characterized in that it is also configured by covering the bottom lid formed with a plurality of through holes.

The cylinder and the lower lid are coupled to each other by a hinge formed on one side, so that the opening and closing of the other side facing the hinge portion and the lower lid is formed so as to enable cleaning by forming a lock.

In another aspect, the present invention forms a protruding connector on one side of the tubular body and an insertion connector on the other side of the tubular body so that a plurality of cylinders are continuously connected by the combination of the protruding connector and the inserting connector, and the continuously connected tubular body. The lid for blocking the entire open upper portion and the bottom lid for blocking the entire open lower portion are formed, but the lid and the lid are configured to be coupled to the cylinder by the hinge portion and the lock portion.

The present invention is to prevent each of the cephalopods individually separated and raised to prevent the official phenomenon, the largest end of the cephalopod culture.

In addition, the present invention is to form an individual body, so that each individual cephalopods can be separated and lifted independently one by one, but connected to the front and rear left and right to form a plurality of integrally, by forming the lid and the lid to open and close the entire body at once The food can be provided and cleaned at the same time, so it has a very convenient structure.

In addition, the present invention is to block the body formed independently with the lid and the lid, but by forming a plurality of through-holes for the smooth circulation of birds in the body and the lid, the lid prevents damage to cephalopods by pirates and prevents the escape of cephalopods. It is a very useful invention that can be a great help to fishermen's income by allowing cephalopods to survive in the optimum farming environment for a long time in the peak season to sell the cephalopods caught in high season.

1 is a reference perspective view of a conventional cephalopod aquaculture device.
Figure 2 is a front separation perspective view for showing a first embodiment of the present invention.
3 is a rear perspective view for showing the combined state of FIG.
4 is a longitudinal cross-sectional view of FIG.
Figure 5 is a front separation perspective view for showing a second embodiment of the present invention.
Figure 6 is a rear perspective view for showing the combined state of Figure 5;
7 is a longitudinal cross-sectional view of FIG.
8 is an exploded perspective view for showing a third embodiment of the present invention.
9 is a perspective view for showing the combined state of FIG.
10 is a longitudinal cross-sectional view of FIG.
11 is an exploded perspective view of a fourth embodiment of the present invention;
12 is a combined perspective view of FIG. 11.
Figure 13 is an exploded perspective view of a fifth embodiment of the present invention
14 is a combined perspective view of FIG. 13.
15 is a reference diagram for use of the present invention.

Accordingly, the configuration of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

First, as shown in FIG. 2, the present invention has an upper portion of the cylinder 1100 having a diameter of 5 to 10 cm and a plurality of through holes 1101 formed thereon, and the upper portion of the cylinder 1100 to facilitate feeding. Two through holes 1201 are configured to be blocked by the formed lid 1200. At this time, the cylinder 1100 has a bottomed structure, it is preferable that the through-hole 1101 is also formed on the bottom.

At this time, the diameter (width) of the through hole 1101 is preferably in the range of 5 ~ 10cm, if the diameter is less than 5cm is too narrow, difficult to format octopus, when the diameter is 10cm or more, one octopus is one cylinder ( 1100), because it occupies too much space, so the efficiency of farming falls.

In addition, the cylinder 1100 and the lid 1200 are coupled to be opened and closed by the hinge portion 1110 formed on one side of the cylinder 1100 and the lid 1200, the cylinder in a position opposite to the hinge portion 1110 1100 and the lid 1200 to form a locking portion 1120 to administer the food, to prevent the escape of octopus, and to block the encounter with other octopus and pirates at the source.

The hinge portion 1110 includes a protruding hinge 1111 and an insertion hinge 1112 which are coupled to correspond to each other. In order to avoid interference with each other, the protruding hinge 1111 has a horizontal direction on the side of the cylinder 1100. It is a structure protruding in pairs, the insertion hinge 1112 has a structure protruding in the vertical direction from one side of the lid (1200).

In the protruding hinge 1111 and the insertion hinge 1112, pin coupling holes 1111a and 1112a are punctured, respectively, and have a structure coupled to each other by a hinge pin 1500.

The locking part 1120 also includes a protruding lock 1121 and an insertion lock 1122 which are coupled to correspond to each other, so that the protruding lock 1121 is horizontal to the side of the cylinder 1100 to avoid interference with each other. It has a structure protruding in a pair in the direction, the insertion lock 1122 has a structure protruding in the vertical direction from one side of the lid (1200).

The protruding lock 1112 and the insertion lock 1122 has a structure in which the pin coupling holes 1121a and 1122a are perforated, respectively, by the locking pins 1400.

In addition, the present invention may form a bottom cover 1300, a plurality of through holes 1301 are perforated to facilitate cleaning in the lower portion of the cylinder 1100, as shown in Figure 5, the bottom lid 1300 Is the same as the configuration of the lid (1200).

As such, the configuration of the lid 1200 and the lower lid 1300 is the same, even if the inverted cylinder 1100 for feeding or cleaning the octopus is in the cylinder 1100 as it can facilitate the work convenience Because.

In addition, the present invention can be configured to form a connecting portion 1150 that can be connected to the cylinder 1100 continuously on one side and the other side of the cylinder 1100, as shown in Figure 8, which is a single cylinder When forming the lid 1200 and the lower lid 1300 every 1100, the hassle to open and close one lid 1200 and the lower lid 1300 every time feeding or cleaning occurs.

Therefore, when the cylinder 1100 is connected to the front and rear, left and right, front and rear and right and left, a unit of "octopus farming set" is formed by combining a plurality of cylinders 1100 into one, the lid 1200 in the upper and lower portions of the octopus farming set ) And the bottom lid (1300) is formed so that the upper and lower portions of the octopus form set at once can be fed to the entire octopus form set by opening and closing the lid 1200 and the bottom lid (1300) You can clean it. This is very convenient and easy to manage compared to open the lid 1200 or open the lower lid 1300 to feed or clean.

In this case, in forming the connecting portion 1150, each cylinder 1100 forming the octopus form set forms a protruding connector 1151 and an insertion connector 1152 corresponding to each other, so that a plurality of cylinders 1100 are continuously front, rear, left, and right. To be connected.

Of course, the protruding connector 1151 and the insert connector 1152 functions as a connecting means when the cylinder 1100 is connected, but the protruding connector 1151 and the insert connector 1152 at the rear end eventually cover the lid 1200 and the bottom. It functions as a hinge portion and a locking portion of the lid 1300.

At this time, the reason for forming the protruding connector 1151 and the insertion connector 1152 perpendicular to the center of the cylinder 1100 is that the number of cylinders 1100 requires a large number of manufacturing by extrusion molding rather than the manufacturing method by injection molding Because the cost is cheaper, it is a configuration for subtracting the extrusion molding structure.

Of course, the cylinder 1100 may be manufactured by injection.

Connection of the plurality of cylinders 1100 by the protruding connector 1151 and the insertion connector 1152 may be continuously coupled by a thin bar. In this case, it is preferable that the iron bar coupling holes formed in the upper and lower portions of the protruding connector 1151 and the insertion connector 1152 are made of different heights so that the iron bars do not interfere with each other.

In the present invention, all the through-holes formed in the cylinder and the lid, the bottom cover, etc. is a configuration necessary to increase the survival rate of the octopus by smoothing the flow of algae when putting the cylinder 1100 into the sea to form octopus. However, the size of the through hole is difficult to occupy the size of octopus.

As described above, the present invention has been described by means of a limited embodiment, but the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains to the technical spirit of the present invention and claims to be described below. Various modifications and variations are possible within the scope of equivalents.

1000: the present invention cephalopod aquaculture device
1100: cylinder
1110: hinge portion 1120: locking portion
1150: connection
1200; Lid 1300: Bottom lid
1400: locking pin 1500: hinge pin
1600: coupling pin
A: Cephalopods

Claims

The upper portion of the cylinder body 1100 having a diameter of 5 to 10 cm and the plurality of through holes 1101 formed thereon and the upper portion of the cylinder 1100 are formed with a plurality of through holes 1201 to easily feed the lid 1200. Cephalopod aquaculture device, characterized in that configured to be blocked by.

According to claim 1, The cylinder 1100 and the lid 1200 is coupled to be opened and closed by a hinge portion formed on one side of the cylinder 1100 and the lid 1200, the cylinder 1100 in a position facing the hinge portion Cephalopod aquaculture device, characterized in that the lid 1200 is formed to lock the food can be administered, prevent the escape of octopus, and to block the encounter with other octopus and pirates at the source.

The lower lid 1300 of the plurality of through holes 1301 is perforated in the lower portion of the cylinder 1100 so as to be opened and closed by a hinge formed at one side of the cylinder 1100 and the bottom lid 1300. And, cephalopod aquaculture device, characterized in that configured to be formed in the position opposite to the hinge portion.

According to claim 2 and 3, wherein the hinge portion is composed of a protruding hinge and an insertion hinge coupled to each other, the protruding hinge protrudes in a pair in the horizontal direction on the side of the cylinder 1100, the insertion hinge is a lid or Cephalopod aquaculture device, characterized in that configured to protrude in the vertical direction from one side of the lower lid.

According to claim 2 and 3, wherein the locking portion is composed of a protrusion lock and an insertion lock coupled to correspond to each other, the protrusion lock is projected in a pair in the horizontal direction on the side of the cylinder, the insertion lock of the lid or bottom lid Cephalopod aquaculture device, characterized in that configured to protrude in a vertical direction from one side.

2. Cephalopod aquaculture apparatus according to claim 1, characterized in that one side and the other side of the tubular body (1100) are formed such that a connecting portion (1150) is formed to connect the tubular body (1100) with a coupling pin continuously in front and rear or left and right.

7. The cephalopod aquaculture apparatus according to claim 6, wherein the connection part (1150) comprises a protruding connector (1151) and an insertion connector (1152) corresponding to each other.