WO2016133359A2

WO2016133359A2 - Inland shrimp aquaculture facility using multi-layer film variable structure and shrimp aquaculture facility management system

Info

Publication number: WO2016133359A2
Application number: PCT/KR2016/001595
Authority: WO
Inventors: 김기영
Original assignee: 농업회사법인 주식회사 홀인원
Priority date: 2015-02-17
Filing date: 2016-02-17
Publication date: 2016-08-25
Also published as: KR101724545B1; KR20160101474A; WO2016133359A3

Abstract

The present invention relates to an inland shrimp aquaculture facility using a multi-layer film variable structure and a shrimp aquaculture facility management system and, more specifically, to an inland shrimp aquaculture facility using a multi-layer film variable structure and a shrimp aquaculture facility management system, the inland shrimp aquaculture facility being established to culture shrimp through the maintenance of a desired internal temperature due to the variable structure, by using the variable structure sealed with a multi-layer film such that the aquaculture facility is used to enable aquaculture in an inland area, and being provided as the aquaculture facility which can culture organisms such as micro-organisms, juvenile fish, saltwater fish or shells, in addition to shrimp. The present invention relates to a shrimp aquaculture facility (10), which uses the multi-layer film variable structure having an air layer and is formed from a biofloc technique in which the seawater does not need to be changed in the inland area, the aquaculture facility (10) comprising: an aquaculture water tank (100) having a groove formed on the ground (20) and provided to culture shrimp; a work path (120) formed among a plurality of aquaculture water tanks (100) so as to enable the passage of a worker when the plurality of aquaculture water tanks (100) are formed in the longitudinal direction or the width direction; and the variable structure (200) fixed on the ground (20) upwardly of the aquaculture water tanks (100), and provided to form the aquaculture environment of the shrimp by maintaining a room temperature of 25°C to 28°C when culturing the shrimp.

Description

Inland shrimp farming facility and shrimp farming facility management system applying multi-film variable structure

The present invention relates to an inland shrimp farming facility and a shrimp farming facility management system to which a multi-film variable structure is applied, and more particularly, by applying a farming facility to be farmed in an inland area by using a variable structure sealed with multiple films. Inland area that keeps the desired temperature inside the variable structure to grow shrimp, and inland area with multi-film variable structure that provides aquaculture facilities for farming organisms such as microorganism, fry, sea fish or shellfish in addition to shrimp The Shrimp Farming Facility and Shrimp Farming Facility Management System.

The global preference for fish proteins for nutritional health care continues to increase the demand for a wide variety of fish and other seafood, while the world's aquatic resources are developing technologies for fisheries, climate change and It is rapidly decreasing due to environmental problems.

Many efforts have been made to overcome fish stock depletion by using fish farms around the world. However, current fish farming technologies face many environmental and productive pressures that limit their flexibility, growth potential, and economic growth. In particular, there have been steady studies on maintaining the desired temperature inland, but there has been a hope that such facilities will not exist because economic facilities have not been developed.

Accordingly, in the technical field, we have been looking for an economical farming plan to equip farms that can create temperatures and environments necessary for farming in cold seasons and inland areas. In addition to enabling the production of dried seafood at the same time, there is a need for the development of a biofloc technology that can farm marine fish inland.

The present invention is to solve the above problems, to provide a shrimp farming system inland, and in some cases, to provide a system capable of farming not only shrimp but also organisms such as microorganisms, fry, sea fish or shellfish.

In addition, shrimp, microorganisms, and fry should be maintained at room temperature above 25 ℃. In order to solve the problem of not operating due to energy costs, economics, and pollution depending on cold regions or seasons, multiple films with an air layer formed in the middle are applied. It aims to maximize energy efficiency and solve economic problems by grafting up and down variable structure.

In addition, by forming a multi-film to be sealed by attaching to the variable structure to save energy due to maintaining the internal temperature and to prepare for the temperature and humidity management due to the lifting and lowering of the variable structure and the roof opening and closing.

In addition, the adoption of Biofloloc technology, which eliminates the need to change seawater inland, and the automation of aquaculture facilities and the automation of variable structures can be operated remotely through a smartphone, and can be automatically controlled by each sensor. For the purpose of

Therefore, the automation of shrimp farming facilities can save labor costs by reducing the manager through the automation control, and aims to protect the structure from natural disasters and energy saving by lifting and lowering the variable structure.

The present invention for achieving the above object is applied to a multi-film variable structure having an air layer and shrimp farming facility (10) consisting of a bio-floc (Biofloc) technology that does not need to change the sea water inland; The aquaculture facility (10) is a culture tank (100) provided to form a groove on the ground (20) to grow shrimp; The aquaculture tank 100 is formed between the aquaculture tank 100 when a plurality of formed in the longitudinal direction or the width direction side work passage 120 is formed to enable the passage of the worker; A variable structure 200 fixed to the ground 20 to the upper side of the culture tank 100 so as to form a shrimp farming environment at a temperature of 25 ° C. to 28 ° C. during shrimp farming; Characterized in that it comprises a.

In addition, the aquaculture drive unit 130 is provided to one side of the aquaculture tank 100 to control the drive device for farming shrimp in the aquaculture tank 100; Shrimp 110 is formed on the upper surface of the culture tank 100 for the safety of foreign substances or workers in the tank, without leaving the outside; The weir 110 is characterized in that it can be made by selecting any one of a concrete weir or sandbags or concrete blocks.

In addition, the water temperature and the water level sensor 150 which is provided to measure the water temperature and the water level in the culture tank 100 to one side of the upper bank (110); And a fixing member 140 on the upper surface of the weir 110 to fix the water temperature and the water level sensor 150.

In addition, the sludge discharge pipe 161 is provided to be discharged to the upper through the side surface 20 from the bottom surface of the culture tank 100 to discharge the sludge remaining inside when the culture tank 100 is washed; And a sludge pump 160 having a sludge discharge pipe 161 connected to one side of the variable structure 200 so as to suction and discharge the sludge through the sludge discharge pipe 161. It characterized in that it further comprises.

In addition, the support member 210 is embedded in the ground 20 to the outer periphery of the culture tank 100, the support member 210 is formed in a rectangular frame, the rectangular frame of the multi-film cell 300 Fixed frame 220 is provided to be attached; And a moving frame 230 provided outside the fixed frame 220 so that the moving frame 230 is moved up and down about the fixed frame 220. 300 is attached, the movable frame 230 is provided with a roof frame 240, the opening and closing frame 250 is provided above the roof frame 240, the opening and closing frame 250 is two stages It is characterized in that the folding or sliding is made possible.

In addition, a fan 260 provided to ventilate the inside of the variable structure 200 to one side of the roof frame 240; A door 270 formed in a slide form to allow a worker to enter and exit to one side of the variable structure 200; A temperature-humidity sensor 280 provided to measure temperature-humidity in both sides of the variable structure 200 in the width direction; It characterized in that it further comprises.

In addition, the multi-film cell 300 is attached to the cell fixing frame formed on the fixed frame 220, the moving frame 230, the roof frame 240 of the variable structure 200; The multi-film cell 300 is formed of a plurality of PO film 320, the pad attached to the multi-film cell 300 or the fixed frame 220, the moving frame 230, the roof frame 240 ( PO film 320 through the 330 is characterized in that the attachment using the spring (310).

In addition, aquaculture system for managing the aquaculture facility 10 using the smart phone 500, the smart phone assembly 500G including a plurality of smart phones (500); Aquaculture facility assembly 600G including a plurality of farming facilities 10, smartphone-based control device assembly including a plurality of smartphone-based control device 600 management server 450 and management web server through a mobile communication network In the aquaculture facility management system for providing a smart phone notification for transmitting and receiving signals and data (450a), the management server 450, the internal configuration of the transmission and reception unit 451, the control unit 452, and the DB 453 And a management web server 450a externally, wherein the controller 452 makes an ID search request including ID information from each smartphone 500 constituting the smartphone assembly 500G. In response to the control command received from the management web server 450a, the smart phone based control device 600 matching the smart phone 500 that made the ID search request from the smart phone 500 that made the ID search request When the control command is completed, the ID information and ID search providing module 452a for controlling the transceiver unit 451 to be implemented by generating state information on the matching aquaculture facility 10 as user interface screen information and transmitting the ID search request to a smart phone 500. ); The control command may include control of column height, roof angle, and aquaculture facility operation corresponding to the variable structure 200 of the aquaculture facility 10 matching the ID information.

In addition, the control unit 452, the variable of the aquaculture facility 10 is transmitted to the smart phone-based control device 600 matching the ID from the smart phone 500 to the ID search request via the mobile communication network 400 The structure 200 is controlled by the DB construction module 452f after controlling the transceiver 451 to receive a falling control command or a rising control command together with distance information from the top of the ground. The height information of the column about the structure 200 is extracted from the DB 453 and used as the total length information to calculate the falling movement distance for performing the falling control command to the corresponding distance or the height extracted in the case of the rising control command. A column height calculating implementation module 452b for calculating a rising movement distance for performing a rising control command to a corresponding distance using information; It characterized in that it further comprises.

In addition, the control unit 452 is transmitted from the smart phone 500 that has made the ID search request through the mobile communication network 400 to the smart phone-based control device 600 matched with that of the aquaculture facility 10 After controlling the transceiver 451 to receive a roof open command with the smartphone-based control device 600 through the distance information between the opening and closing frame 250 on the variable structure 200, the DB building module ( Angular information about the vertices facing each other when the opening / closing frame 250 for the variable structure 200 constructed by 452e is closed, and the length information of each of the sealing frames 250 having the same size A roof opening / closing implementation module 452c that extracts from the DB 453 and calculates an angle between a base end of a vertex and a horizontal line facing each opening and closing frame 250 in a distance information state; It characterized in that it further comprises.

In addition, the control unit 452 is variable in the aquaculture facility 10 that is transmitted from the smart phone 500 that has made the ID search request through the mobile communication network 400 to the smart phone-based control device 600 matched thereto. After controlling the transmission and reception unit 451 to receive the operation command for the form formed in the structure 200, by the time of farming or shrimp growth of the aquaculture facility 10 built by the DB building module 452f Aquaculture facility operation calculation implementation module 452d for extracting operation information from the DB 453; It characterized in that it further comprises.

In addition, the control unit 452, for the aquaculture facility 10 is transmitted to the smart phone-based control device 600 matched with the smart phone 500 that has made the ID search request through the mobile communication network 400 A mode implementation module 452e for controlling the transceiver unit 451 to receive a summer protection mode request command, a winter protection mode request command, and a sludge treatment mode request command together; It characterized in that it further comprises.

In addition, the mode implementation module 452e may include a preset humidity matched to shrimp information farmed in the variable structure 200 constructed by the DB construction module 452f when the summer protection mode request command is received. After extracting the temperature threshold information from the DB 453, and controls the smart phone 500 that has made the ID search request through the mobile communication network 400, and matched with the smart phone 500 that made the ID search request It characterized in that the control for the variable structure 200 is performed by the smartphone-based control device 600.

In addition, the mode implementation module 452e faces the opening / closing frame 250 of the variable structure 200 constructed by the DB building module 452f when the winter protection mode request command is received. After extracting the length information of the opening and closing frame 250 is formed in the same size as the angle information and the length information about the vertices of the touched point, and after receiving the current snowfall amount to the external server (not shown), And extracting critical pressure classification information that the opening / closing frame 250 and the roof frame 240 corresponding to the correlation information between the angle and the length information and the current snowfall amount of the snow can withstand as much as possible from the DB 453. do.

In addition, the mode implementation module 452e, upon receiving the sludge processing mode request command, preset sludge processing information matching the sludge processing information in the culture tank 100 constructed by the DB construction module 452f. After extracting from the DB 453, the smartphone having made the ID search request by controlling the transceiver 451 to transmit the extracted preset information to the smartphone-based control device 600 through the mobile communication network 400 Control based on the sludge treatment is performed by the smartphone-based control device 600 is matched with the smart phone-based control device 600 is matched with the smart phone 500 that has made the ID search request, form tank ( The sludge treatment is controlled according to a preset time by information matching the sludge throughput in 100).

In addition, each of the smart phone-based control device 600 has a structure connected through the matching facility 10 and the input and output interface, and the smart phone 500 and the signal matched through the mobile communication network 400 and A wireless transmitter / receiver 620 for performing data transmission and reception; When the state information about the aquaculture facility 10 is collected through the input / output interface, the storage unit 630 for storing data for processing the collected state information according to the control command received from the matching smart phone 500. ); And performing lifting and lowering operations of the variable structure 200 of the farming facility 10 to be matched according to control commands received from the matching smartphone 500, performing the opening and closing of the opening and closing frame 250, and farming facility operation. A control module 610 for performing control including performing with respect to; Characterized in that it comprises a.

In addition, the control module 610, so that the variable structure 200 of the aquaculture facility 10 from the matching smart phone 500 through the mobile communication network 400 to receive the distance information from the top of the ground to match A column height adjusting means (610a) for controlling the operation of the moving frame 230 after controlling the radio transmitter / receiver 620; After controlling the radio transceiver 620 to receive the matching information for opening and closing the frame 250 of the matching variable structure 200, the roof to be controlled to open and close through the control on the frame 250 Opening and closing means 610b; Aquaculture facility operation means (610c) for controlling the aquaculture unit 130 to control the radio transmitter and receiver to receive aquaculture information for creating an environment of shrimp cultured in the aquaculture tank 100; Characterized in that it comprises a.

In addition, the control module 610, after controlling the wireless transmitter and receiver 620 to receive a request for the summer protection mode operation from the matching smart phone 500 through the mobile communication network 400, Summer protection means (610d) to perform the internal temperature and humidity of the variable structure according to the set information; To control the wireless transmitter and receiver 620 to receive a request for the winter protection mode operation from the matching smart phone 500 through the mobile communication network 400, and to perform according to the opening and closing information of the opening and closing frame 250 Winter protection means 610e; After controlling the wireless transmitter / receiver 620 to receive a request for the sludge processing mode operation from the matching smart phone 500 through the mobile communication network 400, the amount of sludge in the matching culture tank 100 Sludge treatment means (610f) to perform according to the information on the; It characterized in that it further comprises.

According to the present invention to provide a shrimp farming system inland, and in some cases, by providing a system that can grow not only shrimp but also organisms such as microorganisms, fry, sea fish or shellfish to reduce the cost of the facility to enable multi-functional use Has an effect.

In addition, shrimp, microorganisms, and fry should be maintained at room temperature above 25 ℃. In order to solve the problem of not operating due to energy costs, economics, and pollution depending on cold regions or seasons, multiple films with an air layer formed in the middle are applied. It is possible to maximize energy efficiency and solve economic problems by incorporating vertically variable structures.

In addition, the variable structure formed of multiple films can be completely sealed to maintain the internal temperature from the outside, and the structure of the structure inside the structure by protecting the structure from natural disasters by raising and lowering the roof and opening and closing of the variable structure Has

In addition, due to the adoption of Bioofloc technology that does not require seawater change inland, automation of aquaculture facilities, and automation of variable structures, remote operation is possible using a smartphone and automatic control by each sensor is possible. Labor costs can be saved by the reduction of managers, and the real-time on-site situation is transmitted to the manager by a smart phone to inform the manager, which has higher efficiency in maintenance costs than other farming facilities.

1 is a cross-sectional view of aquaculture facilities for inland shrimp farming facility and shrimp farming facility management system to which the present invention multi-film variable structure is applied.

Figure 2 is a plan view of aquaculture facilities for inland shrimp farming facility and shrimp farming facility management system to which the present invention multi-film variable structure is applied.

Figure 3 is a perspective view of a culture tank for inland shrimp farming facility and shrimp farming facility management system to which the present invention multi-film variable structure is applied.

Figure 4 is a variable structure lifting state diagram for the inland area shrimp farming facility and shrimp farming facility management system to which the present invention multi-film variable structure is applied.

5 is a perspective view of a variable structure multi-film attachment to the inland shrimp farming facility and shrimp farming facility management system to which the present invention multi-film variable structure is applied.

6 is a perspective view of a farming facility for the inland shrimp farming facility and shrimp farming facility management system to which the present invention multi-film variable structure is applied.

7 is a view showing a case where a single smartphone for the inland shrimp farming facility and shrimp farming facility management system to which the present invention multi-film variable structure is applied.

8 is a view showing the structure of the management server for the shrimp farming facility and shrimp farming facility management system inland applied to the multi-film variable structure of the present invention.

9 is a view showing a case of a plurality of smartphones as a smart phone assembly for the shrimp farming facility and shrimp farming facility management system to apply the multi-film variable structure of the present invention.

FIG. 10 is a view illustrating in more detail an internal configuration of a smartphone-based control device of an inland shrimp farming facility and shrimp farming facility management system to which the present invention is applied to the multi-film variable structure.

Hereinafter, the detailed description of the preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, detailed descriptions of well-known functions or configurations will be omitted when it is deemed that they may unnecessarily obscure the subject matter of the present invention.

1 is a cross-sectional view of the aquaculture facility for the present invention, Figure 2 is a plan view of the aquaculture facility, Figure 3 is a perspective view of the aquaculture tank, Figure 4 is a state diagram of the lifting and lowering of the variable structure for the aquaculture facility of the present invention, 5 is a perspective view of the multi-film attachment of the variable structure, Figure 6 is a perspective view of aquaculture facilities.

FIG. 7 is a diagram illustrating a case where the smartphone of the management system for aquaculture facilities is a singular individual, FIG. 8 is a diagram illustrating a management server structure of the management system, and FIG. 9 is a diagram illustrating a case where there are a plurality of smartphones. 10 is a view for examining the internal configuration of the smart phone-based control device according to the present invention.

Existing aquaculture facilities do not operate due to high maintenance costs to maintain the temperature above 25 ℃, which is the temperature of basic aquaculture.

The present invention is a shrimp farming facility, grafting up and down variable structure applying a multi-film formed in the middle of the air to solve the problem of not operating due to energy costs, economics, pollution, etc. depending on the cold region or season In order to maintain the temperature above 25 ℃ by reducing the internal volume by raising and lowering the structure, maximize the energy efficiency and solve the economic problems to provide aquaculture facilities for shrimp farming.

In addition, the shrimp farming facility of the present invention is a biofloc (Biofloc) technology that does not need to change the seawater by using the seawater in the inland area.

In addition, the aquaculture facility of the present invention is characterized in that not only shrimp, but also microorganisms and fry, sea fish, fish and shellfish can be farmed.

As shown in Figure 1 to Figure 6, the aquaculture facility 10 of the present invention is provided with a culture tank 100 to form a groove on the ground 20 to culture the shrimp, in the case of the culture tank 100 oval Is made in the form of.

In addition, when the aquaculture tank 100 is formed in the longitudinal direction or the width direction side, a working passage 120 is formed to enable the passage of the worker between the aquaculture tank 100.

In addition, the aquaculture driving unit 130 is provided on one side of the aquaculture tank 100 to control the driving device for aquaculture shrimp in the aquaculture tank 100, various operations through a control unit inside the aquaculture driving unit 130 The device is provided.

In addition, it is fixed to the ground 20 above the culture tank 100 is made of a variable structure 200 is provided to form a shrimp farming environment and temperature and humidity during shrimp farming.

As shown in the drawings, the shrimp tank is not separated to the outside of the culture tank 100, the dam 110 is formed in the tank from the outside for the safety of foreign objects or workers, the weir 110 is Made of concrete or made of sandbags or concrete blocks.

When the installation of the concrete block or sand bag is selected to prevent leakage by using a vinyl or coating agent coated on the outer surface.

In addition, the water temperature and the water level sensor 150 is provided on the upper side of the weir 110, the fixing member 140 is provided on the upper surface of the weir 110 to fix the water temperature and the water level sensor 150. It consists of

Therefore, by checking the water temperature in the culture water tank 100 through the water temperature and the water level sensor 150, and check the water level is made to create the best environment for shrimp farming.

In addition, the sludge discharge pipe 161 is provided to be discharged to the upper through the ground 20 from the side to the bottom surface of the culture tank 100 in order to discharge the sludge remaining in the inside during the cleaning of the culture tank 100 The sludge pump 160 is provided on one side of the variable structure 200 to suck and discharge the sludge through the sludge discharge pipe 161.

As shown in the figure, the support member 210 is embedded in the ground to the outer periphery of the aquaculture tank 100, is formed in a rectangular frame to the upper support member 210, formed to be attached to the cell in the left and right front and back A fixed frame 220 is provided, and the movable frame 230 is provided above the fixed frame 220.

The moving frame 230 is moved up and down about the fixed frame 220, and the cell is formed to be attached to the left and right, front and rear sides of the moving frame 230 as well.

In addition, the roof frame 240 is provided above the movable frame 230, and the opening and closing frame 250 is provided above the roof frame 240 to completely open or slide open or close the two-stage folding or roof frame 240. Is made possible.

The opening and closing method of the opening and closing frame 250 is selected and installed according to the local environment.

In addition, a ventilator 260 is provided to ventilate the inside of the variable structure 200 to one side of the roof frame 240, and the door 270 is provided to allow the worker to enter and exit the one side of the variable structure 200. The temperature and humidity sensor 280 is provided to measure the temperature and humidity in both sides of the variable structure 200 in the width direction.

In addition, each sensor, such as a wind pressure sensor for measuring wind pressure, a pressure line for preparing for heavy snow, is configured to be provided in the variable structure 200.

As shown in the figure, a cell fixing frame is formed on the fixed frame 220, the moving frame 230, the roof frame 240, the opening and closing frame 250 of the variable structure 200, the cell fixing frame in multiple The multiple film cell 300 is attached.

The multi-film cell 300 is made of a plurality of PO film 320, it is made of a removable cell form.

In addition, the pad 330 is attached to the fixed frame 220, the moving frame 230, the roof frame 240, the opening and closing frame 250 to attach the PO film 320 through the spring 310 May also be used.

1 to 10, aquaculture system for managing the aquaculture facility 10 of the present invention using a smart phone 500, smart phone assembly 500G including a plurality of smart phones (500) It consists of, aquaculture facility assembly 600G including a plurality of aquaculture facilities (10) is made.

In addition, a smart phone-based control device assembly including a plurality of smart phone-based control device 600 is a smart that performs the signal and data transmission and reception with the management server 450 and the management web server 450a through the mobile communication network 400 In the farm facility management system for providing a phone 500 notification, the management server 450 includes a transmission and reception unit 451, a control unit 452, and a DB 453 in an internal configuration, the management web to the outside A server 450a is provided, and the controller 452 receives an ID search request including ID information from each smart phone 500 constituting the smart phone assembly 500G from the management web server 450a. According to a control command from the smartphone 500 that has made the ID search request to the smartphone-based control device 600 that matches the smartphone 500 that has made the ID search request, the ID information is matched with the ID information when the control command is completed. Status information on aquaculture facilities (10) An ID search providing module 452a for generating the user interface screen information and controlling the transceiver unit 451 to be implemented by transmitting the ID search request to one smartphone 500; The control command includes control of column height, roof angle, and aquaculture operation corresponding to the variable structure 200 of the aquaculture facility 10 matching the ID information.

In addition, the control unit 452, the variable of the aquaculture facility 10 is transmitted to the smart phone-based control device 600 matching the ID from the smart phone 500 to the ID search request via the mobile communication network 400 The structure 200 is controlled by the DB construction module 452f after controlling the transceiver 451 to receive a falling control command or a rising control command together with distance information from the top of the ground. The height information of the column about the structure 200 is extracted from the DB 453 and used as the total length information to calculate the falling movement distance for performing the falling control command to the corresponding distance or the height extracted in the case of the rising control command. It further comprises a column height calculation implementation module 452b for calculating the rising movement distance for performing the rise control command to the corresponding distance by using the information.

In addition, the control unit 452 is transmitted from the smart phone 500 that has made the ID search request through the mobile communication network 400 to the smart phone-based control device 600 matched with that of the aquaculture facility 10 After controlling the transceiver 451 to receive a roof open command with the smartphone-based control device 600 through the distance information between the opening and closing frame 250 on the variable structure 200, the DB building module ( Angular information about the vertices facing each other when the opening / closing frame 250 for the variable structure 200 constructed by 452e is closed, and the length information of each of the sealing frames 250 having the same size A roof opening / closing implementation module 452c that extracts from the DB 453 and calculates an angle between a base end of a vertex and a horizontal line facing each opening and closing frame 250 in a distance information state; This is made to include more.

In addition, the control unit 452 is variable in the aquaculture facility 10 that is transmitted from the smart phone 500 that has made the ID search request through the mobile communication network 400 to the smart phone-based control device 600 matched thereto. After controlling the transmission and reception unit 451 to receive the operation command for the form formed in the structure 200, by the time of farming or shrimp growth of the aquaculture facility 10 built by the DB building module 452f Aquaculture facility operation calculation implementation module 452d for extracting operation information from the DB 453; This is made to include more.

In addition, the control unit 452, for the aquaculture facility 10 is transmitted to the smart phone-based control device 600 matched with the smart phone 500 that has made the ID search request through the mobile communication network 400 A mode implementation module 452e for controlling the transceiver unit 451 to receive a summer protection mode request command, a winter protection mode request command, and a sludge treatment mode request command together; This is made to include more.

In addition, the mode implementation module 452e may include a preset humidity matched to shrimp information farmed in the variable structure 200 constructed by the DB construction module 452f when the summer protection mode request command is received. After extracting the temperature threshold information from the DB 453, and controls the smart phone 500 that has made the ID search request through the mobile communication network 400, and matched with the smart phone 500 that made the ID search request The control of the variable structure 200 is performed by the smartphone-based control device 600.

In addition, the mode implementation module 452e faces the opening / closing frame 250 of the variable structure 200 constructed by the DB building module 452f when the winter protection mode request command is received. After extracting the length information of the opening and closing frame 250 is formed in the same size as the angle information and the length information about the vertices of the touched point, and after receiving the current snowfall amount to the external server (not shown), The critical pressure classification information that the opening / closing frame 250 and the roof frame 240 corresponding to the correlation information between the angle and the length information and the current snow amount of snow can withstand as much as possible is extracted from the DB 453.

In addition, the mode implementation module 452e, upon receiving the sludge processing mode request command, preset sludge processing information matching the sludge processing information in the culture tank 100 constructed by the DB construction module 452f. After extracting from the DB 453, the smartphone having made the ID search request by controlling the transceiver 451 to transmit the extracted preset information to the smartphone-based control device 600 through the mobile communication network 400 Control based on the sludge treatment is performed by the smartphone-based control device 600 is matched with the smart phone-based control device 600 is matched with the smart phone 500 that has made the ID search request, form tank ( The sludge treatment is controlled according to a predetermined time by information matching the sludge throughput in 100).

In addition, each of the smart phone-based control device 600 has a structure connected through the matching facility 10 and the input and output interface, and the smart phone 500 and the signal matched through the mobile communication network 400 and A wireless transmitter / receiver 620 for performing data transmission and reception; When the state information about the aquaculture facility 10 is collected through the input / output interface, the storage unit 630 for storing data for processing the collected state information according to the control command received from the matching smart phone 500. ); And performing lifting and lowering operations of the variable structure 200 of the farming facility 10 to be matched according to control commands received from the matching smartphone 500, performing the opening and closing of the opening and closing frame 250, and farming facility operation. A control module 610 for performing control including performing with respect to; It consists of including.

In addition, the control module 610, so that the variable structure 200 of the aquaculture facility 10 from the matching smart phone 500 through the mobile communication network 400 to receive the distance information from the top of the ground to match A column height adjusting means (610a) for controlling the operation of the moving frame 230 after controlling the radio transmitter / receiver 620; After controlling the radio transceiver 620 to receive the matching information for opening and closing the frame 250 of the matching variable structure 200, the roof to be controlled to open and close through the control on the frame 250 Opening and closing means 610b; Aquaculture facility operation means (610c) for controlling the aquaculture unit 130 to control the radio transmitter and receiver to receive aquaculture information for creating an environment of shrimp cultured in the aquaculture tank 100; It consists of including.

In addition, the control module 610, after controlling the wireless transmitter and receiver 620 to receive a request for the summer protection mode operation from the matching smart phone 500 through the mobile communication network 400, Summer protection means (610d) to perform the internal temperature and humidity of the variable structure according to the set information; To control the wireless transmitter and receiver 620 to receive a request for the winter protection mode operation from the matching smart phone 500 through the mobile communication network 400, and to perform according to the opening and closing information of the opening and closing frame 250 Winter protection means 610e; After controlling the wireless transmitter / receiver 620 to receive a request for the sludge processing mode operation from the matching smart phone 500 through the mobile communication network 400, the amount of sludge in the matching culture tank 100 Sludge treatment means (610f) to perform according to the information on the; It further comprises.

As described above, the present specification and drawings have been described with respect to preferred embodiments of the present invention, although specific terms are used, it is only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. It is not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

Claims

Shrimp farming facility 10 consisting of a bio-floc (Biofloc) technology to apply a multi-film variable structure having an air layer and do not need to change the sea inland;

The aquaculture facility (10) is a culture tank (100) provided to form a groove on the ground (20) to grow shrimp;

The aquaculture tank 100 is formed between the aquaculture tank 100 when a plurality of formed in the longitudinal direction or the width direction side work passage 120 is formed to enable the passage of the worker;

A variable structure 200 fixed to the ground 20 to the upper side of the culture tank 100 so as to form a shrimp farming environment at a temperature of 25 ° C. to 28 ° C. during shrimp farming;

Inland shrimp farms applying the multi-film variable structure comprising a.
The method of claim 1,

Aquaculture driving unit 130 provided to one side of the aquaculture tank 100 to control a driving device for aquaculture shrimp in the aquaculture tank 100;

Shrimp 110 is formed on the upper surface of the culture tank 100 for the safety of foreign substances or workers in the tank, without leaving the outside;

The weir 110 is an inland shrimp farm facility applying a multi-film variable structure, characterized in that can be made by selecting any one of a concrete dam or a sand bag or concrete block.
The method of claim 2,

A water temperature and water level sensor 150 provided to measure the water temperature and the water level in the aquaculture tank 100 to one side of the upper bank 110; And

Inland area shrimp farming facility applying a multi-film variable structure, characterized in that the fixing member 140 is provided on the upper surface of the weir (110) to fix the water temperature and water level sensor (150).
The method of claim 1,

Sludge discharge pipe 161 is provided to be discharged to the upper through the side surface 20 from the bottom surface of the culture tank 100 to discharge the sludge remaining in the inside of the culture tank 100 to the outside; And

A sludge pump 160 having a sludge discharge pipe 161 connected to one side of the variable structure 200 to suck and discharge the sludge through the sludge discharge pipe 161;

Inland shrimp farms applying the multi-film variable structure, characterized in that it further comprises a.
The method of claim 1,

The support member 210 is embedded in the ground 20 to the outer periphery of the culture tank 100,

A fixing frame (220) formed in a rectangular frame on the support member (210) and provided with multiple film cells (300) attached to the left, right, and back sides of the rectangular frame; And

The moving frame 230 is provided on the outside of the fixed frame 220 so that the moving frame 230 is moved up and down about the fixed frame 220. ) Is attached to,

The roof frame 240 is provided above the movable frame 230, and the opening and closing frame 250 is provided above the roof frame 240 so that the opening and closing frame 250 can be folded or slid in two stages. Inland shrimp farming facility applying a multi-film variable structure, characterized in that.
The method of claim 5,

A ventilator 260 provided to ventilate the inside of the variable structure 200 to one side of the roof frame 240;

A door 270 formed in a slide form to allow a worker to enter and exit to one side of the variable structure 200;

A temperature-humidity sensor 280 provided to measure temperature-humidity in both sides of the variable structure 200 in the width direction;

Inland shrimp farms applying the multi-film variable structure, characterized in that it further comprises a.
The method of claim 1,

A multiple film cell 300 attached to a cell fixing frame formed on the fixed frame 220, the moving frame 230, and the roof frame 240 of the variable structure 200;

The multi-film cell 300 is formed of a plurality of PO film 320,

PO film 320 is attached using the spring 310 through the pad 330 is attached to the multiple film cell 300 or the fixed frame 220, the moving frame 230, the roof frame 240. Inland shrimp farming facility applying a multi-film variable structure, characterized in that.
Aquaculture system for managing the aquaculture facility 10 using a smartphone 500,

Smartphone assembly 500G including a plurality of smartphones 500; Aquaculture facility assembly 600G including a plurality of farming facilities 10, smartphone-based control device assembly including a plurality of smartphone-based control device 600 management server 450 and management web server through a mobile communication network In the aquaculture facility management system for providing a smart phone notification to perform the signal and data transmission and reception (450a),

The management server 450 includes a transmission / reception unit 451, a control unit 452, and a DB 453 in an internal configuration, and includes a management web server 450a externally. ,

Receiving an ID search request including ID information from each smart phone 500 constituting the smart phone assembly 500G from the management web server 450a, the ID from the smart phone 500 that made the ID search request. According to the control command to the smartphone-based control device 600 that matches the smartphone 500 that has made a search request, the user interface screen information displays the status information on the aquaculture facility 10 that matches the ID information when the control command is completed. An ID search providing module 452a for controlling the transceiver unit 451 to be implemented by generating and transmitting the ID search request to one smartphone 500; Including;

The control command includes the control of the column height, the roof angle and the operation of the aquaculture facility corresponding to the variable structure 200 of the aquaculture facility 10 matching the ID information. Local shrimp farming management system.
The method of claim 8, wherein the control unit 452,

The variable structure 200 of the aquaculture facility 10 which is transmitted from the smart phone 500 which has made the ID search request through the mobile communication network 400 to the smart phone-based control device 600 matched with this is at the top of the ground. After controlling the transceiver unit 451 to receive a falling control command or a rising control command through the distance information to the height information of the column for the variable structure 200 built by the DB building module 452f To calculate the descending movement distance for performing the falling control command to the corresponding distance by extracting from the DB (453) to the full length information, or in the case of the rising control command using the extracted height information to increase the control to the corresponding distance A column height calculating module 452b for calculating a moving distance for performing the command; Inland shrimp farming facility management system applying a multi-film variable structure, characterized in that it further comprises a.
The method of claim 8, wherein the control unit 452,

Opening / closing frame 250 on the variable structure 200 of the aquaculture facility 10, which is transmitted from the smart phone 500 making the ID search request through the mobile communication network 400 to the smart phone-based control device 600 matched thereto. After controlling the transceiver 451 to receive the roof open command with the smartphone-based control device 600 through the distance information between the variable structure 200 built by the DB building module 452e Angle information about the vertices facing each other in the state in which the opening / closing frame 250 is closed, and the length information of each of the gas sealing frames 250 having the same size are extracted from the DB 453 and the distance information. A roof opening / closing implementation module 452c for calculating an angle between a base end of a vertex and a horizontal line facing each opening and closing frame 250 in a state; Inland shrimp farming facility management system applying a multi-film variable structure, characterized in that it further comprises a.
The method of claim 8, wherein the control unit 452,

For the form formed in the variable structure 200 in the aquaculture facility 10 is transmitted to the smart phone-based control device 600 matching the ID search request from the smart phone 500 through the mobile communication network 400 After controlling the transceiver 451 to receive an operation command,

Aquaculture facility operation operation implementation module 452d for extracting operation information for each aquaculture time or shrimp growth of aquaculture facility 10 constructed by the DB building module 452f from the DB 453; Inland shrimp farming facility management system applying a multi-film variable structure, characterized in that it further comprises a.
The method of claim 8, wherein the control unit 452,

The summer protection mode request command for the aquaculture facility 10 transmitted from the smart phone 500 that has made the ID search request through the mobile communication network 400 to the smartphone-based control device 600 matched thereto, the winter protection mode request A mode implementation module 452e for controlling the transceiver unit 451 to receive a command and a sludge processing mode request command together; Inland shrimp farming facility management system applying a multi-film variable structure, characterized in that it further comprises a.
The method of claim 12, wherein the mode implementation module 452e,

Upon receiving the summer protection mode request command, the DB 453 extracts preset humidity and temperature threshold information matching the shrimp information farmed inside the variable structure 200 constructed by the DB construction module 452f. Then, by controlling the smart phone 500 that made the ID search request through the mobile communication network 400, variable by the smart phone-based control device 600 matching the smart phone 500 that made the ID search request Inland area shrimp farming facility management system applying a multi-film variable structure, characterized in that the control for the structure 200 is performed.
The method of claim 12, wherein the mode implementation module 452e,

Upon receiving the winter protection mode request command, the angle information and the length information about the vertices facing each other in the closed state with respect to the opening / closing frame 250 of the variable structure 200 constructed by the DB construction module 452f. After extracting the length information of the opening and closing frame 250 is formed in the same size as the request, and receives and receives the current snow amount of snow to an external server (not shown), and the extracted angle and length information and the current snow amount of snow Inland area shrimp farming using the multi-film variable structure, characterized in that it extracts again from the DB 453 the critical pressure classification information that the opening and closing frame 250 and roof frame 240 corresponding to the correlation information can withstand as much as possible. Facility Management System.
The method of claim 12, wherein the mode implementation module 452e,

When the sludge processing mode request command is received, the sludge processing information matching the sludge processing information in the culture tank 100 constructed by the DB construction module 452f is extracted from the DB 453 and then extracted. The smartphone-based control device 600 that matches the smartphone that made the ID search request by controlling the transceiver 451 to transmit preset information to the smartphone-based control device 600 through the mobile communication network 400. To control the sludge treatment,

Smartphone-based control device 600 matching the smart phone 500 that has made the ID search request,

Inland region shrimp farming facility management system applying a multi-film variable structure, characterized in that for controlling the sludge treatment according to a predetermined time as much as the information matching the sludge throughput in the culture tank (100).
The method of claim 8, wherein each of the smartphone-based control device 600,

It has a structure connected through the matching facility 10 and the input and output interface,

A wireless transmitter / receiver 620 for transmitting and receiving signals and data to and from the smartphone 500 that is matched through the mobile communication network 400;

When the state information about the aquaculture facility 10 is collected through the input / output interface, the storage unit 630 for storing data for processing the collected state information according to the control command received from the matching smart phone 500. ); And

In accordance with the control command received from the matching smartphone 500 performs the lifting and lowering operation of the variable structure 200 of the matching farming facility 10, performing the opening and closing of the opening and closing frame 250, aquaculture facility operation A control module 610 for performing a control including performing on; Inland shrimp farming facility management system applying a multi-film variable structure comprising a.
The method of claim 16, wherein the control module 610,

The wireless transmitter / receiver 620 is controlled to receive distance information from the smartphone 500 matched through the mobile communication network 400 to the uppermost point where the variable structure 200 of the aquaculture facility 10 is matched from the ground. Then, the column height adjusting means (610a) for performing a control on the operation of the moving frame 230;

After controlling the radio transceiver 620 to receive the matching information for opening and closing the frame 250 of the matching variable structure 200, the roof to be controlled to open and close through the control on the frame 250 Opening and closing means 610b;

Aquaculture facility operation means (610c) for controlling the aquaculture unit 130 to control the radio transmitter and receiver to receive aquaculture information for creating an environment of shrimp cultured in the aquaculture tank 100; Inland shrimp farming facility management system applying a multi-film variable structure comprising a.
The method of claim 16, wherein the control module 610,

After controlling the wireless transmitter and receiver 620 to receive a request for summer protection mode operation from the matching smart phone 500 through the mobile communication network 400, the internal temperature and humidity of the matching variable structure 200 Summer protection means (610d) to perform according to the set information;

To control the wireless transmitter and receiver 620 to receive a request for the winter protection mode operation from the matching smart phone 500 through the mobile communication network 400, and to perform according to the opening and closing information of the opening and closing frame 250 Winter protection means 610e;

After controlling the wireless transmitter / receiver 620 to receive a request for the sludge processing mode operation from the matching smart phone 500 through the mobile communication network 400, the amount of sludge in the matching culture tank 100 Sludge treatment means (610f) to perform according to the information on the;

Inland shrimp farming facility management system applying a multi-film variable structure, characterized in that it further comprises a.