KR20220007969A - A shelter for sea cucumber aquaculture. - Google Patents

Abstract

Provided is a sea cucumber cultivation shelter, comprising: a water quality measurement unit which measures a cultivation environment inside the sea cucumber shelter in real-time and stores, transmits, and receives measurement data; a shelter part composed of a plurality of layers in which one or more polyhedral-shaped unit shelters having a predetermined area and height are vertically stacked; and a light blocking part including a plate-shaped flat plate on an uppermost end of the shelter part and blocking plates covering edges of the flat plate and formed to be inclined downward, wherein the flat plate is installed to be connected with one end of the respective blocking plates, wherein an attachment mesh net is installed on the other end of the blocking plate. Accordingly, the cultivation environment inside the shelter is sensed, and the sensed data is transmitted and received to and from a transmission/reception packet along a routing path so that there is no data packet loss and delay. Therefore, compared to a case in which a sea cucumber shelter is installed at a long distance from the coast, stable transmission and reception of data is achieved. Accordingly, the water quality environment of the inside of the sea cucumber shelter can be monitored in real-time, one or more individual sea cucumber cultivation shelters can be easily and individually monitored. The present invention can block sunlight and hold abundant food for sea cucumbers and thus has the effect of increasing the growth rate of the sea cucumbers.

Description

A shelter for sea cucumber aquaculture with the eaves structure of a hanok

The present invention relates to a shelter for aquaculture of sea cucumbers having an eaves structure of a hanok. Considering the biological characteristics of sea cucumbers, it is possible to reduce the culture stress of sea cucumbers and to provide abundant floating food in the water by staying in the shelter to increase sea cucumber growth efficiency. , It relates to a shelter for aquaculture of sea cucumbers that can be installed based on the Internet of Things that can monitor the water quality environment in the shelter in real time.

Sea cucumbers belonging to the echinoderm phylum Sea cucumber river mainly inhabit the bottom of the inner bay at a depth of about 20 m in the intertidal zone or on reefs and gravel fields along the coast. In summer, when the water temperature is 24℃ or higher, sea cucumbers go into a summer dormancy, so wild-caught sea cucumbers cannot be collected during this time.

That is, sea cucumber individuals that have finished spawning between May and June either hide in dark places such as under rocks or crevices of rocks, or move toward the open sea, and this is the time when they enter the bottom. After that, when the water temperature is 25℃ or higher, it enters a fasting state, and the digestive tract is regressed and there is no exercise at all. In this way, the sea cucumber does not ingest any food and contracts and becomes inactive, and when the water temperature drops, it resumes activity.

Wild-caught sea cucumbers are mainly caught by diving fisheries (28%) or haenyeo (33%) in village fisheries between April and June. Annual sea cucumber production in Korea was more than 3,000 tons in 1980, but decreased to about 2,000 tons in 1990 and to around 1,000 tons in the 2000s, and then increased to 2,900 tons again in 2007, but after 2009 Although the production of sea cucumbers is showing a downward trend again, the production amount is continuously rising due to the recent surge in unit prices.

In particular, as sea cucumber is a treasure trove of nutrition that is in the spotlight around the world, not only is its value very high, but also the price established at home and abroad is very high. , is establishing a plan to achieve $10 billion in exports by 2020. To this end, sea cucumber culture has been attempted in various ways, but complete aquaculture technology such as seedling production is not secured, and there are difficulties due to insufficient development of high-quality seedlings.

Young sea cucumbers weighing 2.0 to 2.5 g mainly feed on adherent microalgae, while adults consume pearls from the seabed and contain organic matter and microscopic organisms such as protozoa, crustaceans, molluscs, and fish carcasses. Since animals and plants are consumed, the feed cost required for raising sea cucumbers is low, so the sea cucumber aquaculture industry is highly likely to develop industrially even in situations where other aquaculture varieties face difficulties due to the increase in feed prices. In addition, although the consumption of sea cucumbers in Korea and China continues to increase every year, wild sea cucumbers alone are not sufficient to meet the demand.

In general, sea cucumber aquaculture can be classified into aquaculture techniques such as onshore tank, tidal-flat festival, sea surface cage, abalone cage complex culture, and sponge chaerong culture. In a difficult situation, R&D continues.

In general, a festival-style aquaculture method is used, but the festival-style culture method is an intertidal zone in an inland with good seawater communication such as traditional festival shrimp, waste salt fields, and idle land and low winds, or a place with clean water quality on land, no pollution, and fresh water inflow. It is suitable for sea cucumber farming for the purpose of industrialization in a place without

In the early years, the device for marine culture of sea cucumbers had a structure in which a polygonal plate member with a hole through which running water could pass was installed as the floor, and a plurality of pipe frames surrounded the edge of the bottom surface. One or more habitable shelters have been established. However, in the conventional sea cucumber culture shelter, when feed was not supplied at an appropriate time, a problem occurred in that the sea cucumber leaves the culture space. Accordingly, the present invention intends to provide a sea cucumber culture shelter having an eaves structure of a hanok that is provided with more abundant food and can monitor the water quality environment of the shelter in real time.

In Korean Patent Registration No. 10-1415366, a separate cage frame frame installed on the seabed, an external fixing frame fixed to the cage frame frame, an internal shelter that enters the external fixing frame, and a small sea cucumber inside the internal shelter escape to the outside. It is composed of an outer net to prevent damage and a funnel to block the entrance to the shelter. It is constructed as a prefabricated structure in the cage frame and installed on the seabed, so that damage to facilities due to strong waves is hardly occurred, thereby increasing the survival rate of livestock such as sea cucumbers. Disclosed are a double tube type sea cucumber cultivating shelter that can be raised and a sea cucumber cage using the same. Korean Patent Publication No. 10-2014-0056689 discloses a shelter for aquaculture of sea cucumbers and abalone, which includes a plurality of main bodies and a connector for connecting the main bodies, and is installed on the inner bottom surface of a water tank (not shown). Domestic Patent Publication No. 10-2016-0133274 discloses a shelter frame in which a plurality of polyhedral unit shelters having a predetermined area and height are vertically stacked to form one or more layers, and the bone shelter accommodated in the unit shelter includes mountains and valleys. It is possible to conveniently supply feed by providing a shelter for sea cucumber culture equipped with a feed container, characterized in that it has this repeating shape and is composed of a polyhedral feed container that can be inserted and removed through the shelter frame and the inside of the bone shelter. In addition, it is disclosed about a shelter for sea cucumber culture equipped with a feed box that can prevent sea cucumber from leaving the culture equipment by supplying sufficient feed, and can protect sea cucumber from natural enemies by isolating the breeding space of sea cucumber from the surrounding environment. . Korea Utility Model Publication No. 20-0419146 discloses a slat-shaped shelter, which is characterized by having a large number of large perforations used for multiple purposes on the upper part, unlike the existing shelters.

The present invention solves the problem that the conventional shelter for sea cucumber culture leaves the food floating in the water to the surface of the shelter because of the low retention rate, so it is possible to monitor the water quality environment of the sea cucumber shelter in real time. It is intended to provide a shelter for sea cucumber farming with the eaves structure of a hanok.

A sea cucumber farm according to an embodiment of the present invention includes: a water quality measurement unit that measures the aquaculture environment in the sea cucumber shelter in real time, and stores and transmits the measurement data; a shelter unit comprising a plurality of layers in which one or more unit shelters in a polyhedron shape having a predetermined area and height are vertically stacked; a light blocking unit connected to the uppermost end of the shelter unit, a plate-shaped plate, and one end of the blocking plate installed to form a downward slope while surrounding the edge of the plate; An attachment net may be installed at the other end of the blocking plate.

The unit shelter has a structure in which an internal space in which cultured sea cucumbers can be stored is formed, and a plurality of moving holes may be formed on the side so that the sea cucumbers stored in the durable space can move to the outside. The upper surface of the flat plate of the light blocking part may be formed in a recessed structure.

In addition, the water quality measurement unit includes a sensor unit that measures the aquaculture environment in the sea cucumber shelter in real time, a communication unit that stores data collected from the sensor module, and transmits the stored data to a user terminal through a communication network and receives a command; It may be composed of a control unit that controls the operation of the sensor unit according to a command received from the terminal.

Since the angle of the eaves of the blocking plate constituting the present invention is maintained at about 30 degrees, it blocks sunlight as much as possible in summer and helps the lower surface of the sea cucumber, and in winter, constant sunlight can be introduced into the shelter, so that the appropriate water temperature It has the effect of increasing the growth rate of sea cucumbers by maintaining them. In addition, it senses the aquaculture environment inside the shelter and transmits and receives the sensed data along the routing path, so there is little loss or delay of data packets. It is possible to monitor the water quality environment inside the sea cucumber shelter, and there is an effect that it is easy to individually monitor one or more single sea cucumber culture shelters.

1 shows a perspective view of a sea cucumber culture shelter of the present invention.
2 shows a unit shelter unit and an outer surface of the present invention.
3 shows a light-blocking unit of the present invention.
Figure 4 shows a schematic diagram of the IoT integrated system of the sea cucumber culture shelter of the present invention.

Hereinafter, it will be described in detail with the accompanying drawings related to the sea cucumber culture shelter of the present invention.

1 shows a perspective view of a sea cucumber culture shelter having an eaves structure of a hanok of the present invention. A sea cucumber culture shelter having an eaves structure of a hanok of the present invention includes: a water quality measurement unit 100 that measures the culture environment in the sea cucumber shelter in real time, and stores and transmits the measurement data; a shelter unit 400 having a plurality of layers in which one or more polyhedral unit shelters having a predetermined area and height are installed in multiple stages; A light blocking unit 300 formed by connecting a plate-shaped flat plate at the uppermost end of the shelter unit and a blocking plate having a hanok eaves structure installed to surround the edge of the flat plate to form a downward slope; An attachment network 200 may be installed at the other end of the blocking plate.

2 shows a shelter part of the present invention. The shelter unit 400 of the present invention is configured in the form of a multi-level apartment in which one or more unit shelters in the shape of a polyhedron are connected up and down. The unit shelter can be formed of a synthetic plastic material that is strong against corrosion of seawater such as polyethylene or polypropylene and is easy to manufacture. A plurality of moving holes may be formed so that the sea cucumber can move to the outside.

The moving hole is not only a passageway for sea cucumbers, but also provides oxygen to sea cucumbers by forming a fluid flow to prevent wastes from settling in one place, as well as allowing mud to move in and out through the holes to give sea cucumbers a natural environment It can provide habitat with food.

The lower part of the unit shelter installed at the lowermost end of the shelter unit according to an embodiment of the present invention is formed in an open structure so that it can be installed to be spaced apart from the ground on which the shelter is installed by a certain distance. In general, pearls are formed at the bottom of the site where the sea cucumber culture shelter is installed, and the aquaculture waste of sea cucumbers erodes and accumulates on the ground, generating gas and germs. Accordingly, the bottom of the unit shelter is formed in an open structure so that the cultured sea cucumbers can be isolated from the bottom, so that they can be spaced apart from the ground where the shelter is installed by a certain distance.

As shown in FIG. 2, the inner and outer surfaces of the shelter part of the present invention are formed in a concave-convex structure with countless protrusions on the side to prevent the sea cucumber from falling off when attaching the shelter, and to provide higher stability to the attached cultured sea cucumber. do. In addition, it makes it easy for floating substances such as nutrients floating in the water to attach, so that the attached organic and inorganic substances can be eaten by sea cucumbers.

3 shows a light-blocking unit of the present invention. The light blocking part of the present invention may be made of a plate-shaped flat plate at the uppermost end of the multi-stage shelter unit, and one end of the blocking plate installed to form a downward slope while surrounding the edge of the flat plate may be connected to the flat plate. The structure of the blocking plate acts like the eaves of a hanok, and it has a natural light effect using the change in the altitude of the sun according to the seasons. The sun changes to 77 degrees during the summer solstice and 28 degrees during the winter solstice in summer. Therefore, since the angle of the eaves of the blocking plate of the present invention is maintained at about 30 degrees, it blocks sunlight as much as possible in summer and helps the lower surface of sea cucumbers, and in winter, constant sunlight can be introduced into the shelter to maintain proper water temperature can do

The upper side of the plate is formed in a recessed structure, so that feed supplied from the upper part is seated and stored, so that nocturnal sea cucumbers can come up at night and easily feed the settled feed. Therefore, the conventional sea cucumber shelter increases the residence time of feed or organic matter distributed in the water, thereby lowering the feed storage and feed loss rate to prevent sea cucumbers from leaving the breeding space due to lack of food in the shelter, and periodically feed at the water surface. When feeding is made, it is possible to increase the growth rate of sea cucumbers by enabling the storage of feed for a certain period of time.

The blocking plate is connected and installed in front, rear, left and right planes along the edge of the plate. The blocking plate may be installed to form a slope downward to block sunlight from entering the sea cucumber stored in the multi-stage shelter unit. In general, sea cucumbers stop eating when the water temperature is 17℃ or higher, and when it is 25℃ or higher, they go to summer sleeping. In practice, it can provide a preferred deep, dark space.

An attachment net is connected to an end of the blocking plate in an inclined direction. The attachment network is made of one or more materials selected from PE (Polyethlen), PES (PolyEtherSulphone), and PVD, and commonly used onion networks can be connected. In addition, a plurality of weights may be installed at the bottom of the attachment network so that the attachment network can be deployed in the vertical direction in the water.

The attachment network is used as a substrate to which diatoms contained in breeding water are attached, so that sea cucumber feed can be more abundant, and it serves to prevent ginseng and the like from escaping to the outside of the shelter due to the movement of water. Diatoms attached to the attachment network are food for sea cucumbers, and if attached once, food can be continuously produced by photosynthesis. It is possible. In addition, it is used as an attachment space for sea cucumber larvae produced in the shelter itself to provide diatoms as food, as well as to prevent small-sized sea cucumber larvae or ginseng from escaping to the outside of the shelter.

The water quality measurement unit 100 of the present invention includes a sensor unit that measures the aquaculture environment in the sea cucumber shelter in real time, stores data collected from the sensor module, and transmits the stored data to a user terminal through a communication network and receives a command It is possible to provide an IoT-based sea cucumber culture shelter comprising a communication unit and a control unit that controls the operation of the sensor unit according to a command received from the user terminal.

Figure 4 shows the IoT integrated system of the sea cucumber culture shelter of the present invention. The IoT integrated system of the sea cucumber culture shelter of the present invention includes a sensor unit that measures the aquaculture environment in the sea cucumber shelter in real time, stores the data collected from the sensor module, and transmits the stored data to the user terminal through a communication network and sends a command a water quality measurement unit including a communication unit for receiving and a control unit for controlling the operation of the sensor unit according to a command received from the user terminal; a user terminal that receives the measured and stored data from the water quality measurement unit and is implemented as a display, and transmits a command under the user's control to control the operation of the sensor unit; The water quality measurement unit and the user terminal may be configured by transmitting and receiving data and commands through a communication network.

The sensor unit according to an embodiment of the present invention may be a water quality sensor that measures any one of water temperature, dissolved oxygen amount, pH, ammonia, nitrite, salinity, and turbidity.

The term referred to in the present invention, a user terminal, may be implemented as a computer or portable terminal, a television, a wearable device, etc. that can connect to a remote server through a communication network or connect with other terminals and servers.

Here, the computer includes, for example, a laptop, a desktop, and a laptop equipped with a web browser, and the portable terminal is, for example, a wireless communication device that ensures portability and mobility. , PCS (Personal Communication System), PDC (Personal Digital Cellular), PHS (Personal Handyphone System), PDA (Personal

Digital Assistant), Global System for Mobile communications (GSM), International Mobile Telecommunication (IMT)-2000, Code Division Multiple Access (CDMA)-2000, W-Code Division Multiple Access (W-CDMA), Wireless Broadband Internet (Wibro) , a smart phone, and mobile Worldwide Interoperability for Microwave Access (WiMAX) may include all kinds of handheld-based wireless communication devices.

The user terminal and the water quality measurement unit can receive and transmit data and commands through a communication network. technology and/or mobile communication technologies such as Code Division Multiple Access (CDMA), Global System for Mobile Communication (GSM), Long Term Evolution (LTE), LTE-Advanced and Wireless Broadband Internet (Wibro), as well as Bluetooth, Zigbee, Near Field (NFC)

Communication), RF communication or infrared communication, serial (232, 422, 485) communication, and the like.

The communication unit according to an embodiment of the present invention may be implemented as an LTE router, but is not limited thereto. The LTE router is capable of WAN communication and LAN communication. The WAN communication is LTE communication, and the LAN communication is preferably Wi-Fi communication, but is not limited thereto. The WAN communication includes WCDMA, HSDPA, HSPA, WiBro, WiMax communication. This can be applied.

In addition, it is appropriate to extend the LTE router to the sea level for long-distance communication and install it at the highest height. At this time, the connection between the sensor unit and the LTE router may be connected via a low-loss RF cable, and the LTE router may have a waterproof function added to prevent immersion by seawater.

The LTE router referred to in the present invention may be implemented as including a wired LTE router that requires power and a portable Wi-Fi that can be used with battery charging without the need for power.

LTE router transmits and receives packets according to the routing path to the user terminal, so there is almost no loss or delay of data packets. can be monitored. In addition, when one or more sea cucumber culture shelters of the present invention are installed, there is an effect that a single sea cucumber culture shelter can be individually monitored.

The present invention can provide high-quality sea cucumbers in a short period of time by increasing the sea cucumber growth efficiency, and it is possible to monitor the water quality environment inside the sea cucumber culture shelter in real time, thereby contributing to the improvement of profits of related fishermen, and thus has industrial applicability.

100: water quality measurement unit 200: attachment net
300: light blocking unit 400: shelter unit

Claims (5)

a shelter unit comprising a plurality of layers in which one or more polyhedral unit shelters having a predetermined area and height are vertically stacked;
It is characterized in that the uppermost part of the shelter is made of a plate-shaped flat plate, and a light blocking part is formed on the edge of the flat plate having a predetermined length and area to be extended and connected so as to have a downward inclination to the outside of the edge of the flat plate. Sea cucumber culture shelter with the eaves structure of a hanok
The hanok of claim 1, wherein the unit shelter has an internal space in which cultured sea cucumbers can be stored, and a plurality of moving holes are formed on the side of the unit shelter so that the sea cucumbers stored in the internal space can move to the outside. Sea cucumber culture shelter with eaves structure
[Claim 3] The sea cucumber culture shelter having an eaves structure of a hanok according to claim 2, wherein the upper surface of the flat plate of the light blocking unit is formed in a recessed structure having a predetermined height.
[Claim 4] The sea cucumber culture shelter having an eaves structure of a hanok according to claim 3, wherein an attachment net is installed on the outer part of the light blocking plate so that it can reach the bottom of the farm.
[Claim 5] The method according to any one of claims 1 to 4, wherein the sensor unit measuring the aquaculture environment in the sea cucumber shelter in real time and the data collected from the sensor module are stored at the top of the shelter unit, and the stored data is transmitted to the user terminal through a communication network. and a sea cucumber culture shelter having an eaves structure of a hanok, characterized in that it consists of a communication unit for receiving commands

Images