KR20160101474A - Multiple-film Variable structure Apply to Inland areas shrimp Aquaculture facility and shrimp Aquaculture facility Management Systems - Google Patents

Abstract

The present invention relates to an inland shrimp aquaculture facility adopting a multi-film variable structure and a shrimp aquaculture facility management system. More specifically, the present invention applies an aquaculture facility capable of realizing aquaculture even in an inland area by using a variable structure sealed by multiple films, so as to keep a desired temperature in the inside due to the variable structure to culture shrimps, and provides an aquaculture structure to culture living things, such as microorganisms, fries, marine fish, shells, etc., in addition to shrimps. According to the present invention, the aquaculture facility comprises a shrimp aquaculture facility (10) which adopts a multi-film variable structure including an air layer and is formed by a biofloc technique not requiring seawater exchange in the interior. The shrimp aquaculture facility (10) comprises: an aquaculture tank (100) installed to culture shrimps by forming grooves on the ground (20); and a variable structure (200) fixed on the ground (20) towards the upper side of the aquaculture structure to keep room temperature of 25 to 28 deg. C in shrimp aquaculture, so as to form an aquaculture environment for shrimps. The aquaculture tank (100) includes a working passage (120) formed between the aquaculture tanks (100) to allow a worker to pass when multiple aquaculture tanks (100) are formed in the direction of length or width.

Description

[0001] The present invention relates to an inland shrimp aquaculture facility and a shrimp aquaculture facility management system employing a multi-film variable structure,

The present invention relates to an inland shrimp aquaculture facility and a shrimp aquaculture facility management system to which a multi-film variable structure is applied. More particularly, the present invention relates to a shrimp aquaculture facility, Inland areas where a multi-film deformable structure is applied to provide aquaculture facilities for organisms such as microorganisms, fry, sea fish or shellfish in addition to shrimp, Shrimp aquaculture facility and shrimp aquaculture facility management system.

Worldwide preference for fish protein for health care through nutrition has steadily increased the demand for a wide variety of fish and other seafood, while the world's fisheries resources are becoming increasingly dependent on the development of technologies to acquire seafood, It is shrinking rapidly due to environmental problems.

Much effort has been devoted to overcoming the depletion of fish resources worldwide using fish farms. However, current fish farming technologies have faced many environmental and productive pressures that limit their flexibility, growth potential, and economic growth potential. In particular, there have been a lot of researches on maintaining the desired temperature in the inland area,

Accordingly, in the related technology field, there has been sought an economical method of establishing a farm where the temperature and the environment necessary for the culture can be made in the cold season and in the inland area of the cold region. In addition, it is required to develop Biofloc technology that can produce seafood in the inland as well as produce seafood at the same time.

[Related Technical Literature]

1. ORGANIC MATERIAL WASTE ENERGY SYSTEM (Patent Application No. 10-1999-0013875)

2. NURSERY STRUCTURE (Patent Application No. 10-1999-0037993)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a system for providing a shrimp farming system inland and culturing organisms such as microorganisms, fry, sea fish or shellfish as well as shrimp in some cases.

In addition, shrimp, microorganisms, and fry have to be kept at room temperature over 25 ℃. In order to solve problems that can not be operated due to energy cost problem, economical problem, pollution, etc. depending on cold regions and seasons, The purpose of this study is to maximize energy efficiency and to solve economical problems by combining upper and lower variable structures.

In addition, it is formed as multiple films and attached to a deformable structure to be sealed so as to save energy due to internal temperature maintenance, and to prepare for temperature and humidity control due to rising and falling variable of a deformable structure and roof opening and closing.

In addition, the adoption of Biofloc technology that does not need to change seawater in the inland area, remote operation through automation of aquaculture facility and automation of variable structure by smart phone, and automatic control by each sensor .

Therefore, the automation of the shrimp farming facility can save labor costs by the reduction of the manager through automation control, and it aims to protect the structure from the energy saving and the natural disaster by the rising and falling of the deformable structure, roof opening and closing.

In order to accomplish the above object, the present invention provides a shrimp culture facility (10) comprising a Biofloc technology in which a multi-film variable structure having an air layer is applied and seawater is not changed inland; The aquaculture facility (10) comprises a culture water tank (100) for culturing shrimp by forming a groove in the ground surface (20); A working passage 120 formed between the culture water tanks 100 when a plurality of the water storage tanks 100 are formed in the longitudinal direction or the wider direction side, A deformable structure 200 fixed to the ground surface 20 above the aquaculture water tank 100 to form a culture environment of shrimp at a temperature of 25 ° C to 28 ° C at a normal temperature during shrimp culture; And a control unit.

Also, a style driving unit 130 provided at one side of the aquarium 100 to control a driving device for shrimp culture in the aquarium 100; A dam (110) formed on the upper surface of the aquaculture water tank (100) so that the shrimp is not released to the outside, but for the safety of foreign objects or workers in the water tank; The dam 110 may be formed by selecting any one of a concrete dam, a sand bag, and a concrete block.

A water temperature and water level sensor 150 for measuring water temperature and water level in the culture water tank 100 to one side of the upper side of the dam 110; And a fixing member 140 is provided on the upper surface of the dam 110 to fix the water temperature and water level sensor 150.

A sludge discharge pipe 161 is installed to discharge the sludge remaining inside the aquarium 100 from the bottom of the aquarium 100 to the upper side through the side surface 20 in order to discharge the sludge remaining inside the aquarium 100. And 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). And further comprising:

A supporting member 210 is embedded in the ground 20 on the outer circumference of the aquarium 100 and is formed as a rectangular frame on the support member 210. The rectangular frame is divided into a plurality of film cells 300 A fixing frame 220 to be attached; And a moving frame 230 is disposed on an outer side of the fixed frame 220 to move the moving frame 230 upward and downward about the fixed frame 220 to move the multi- The roof frame 240 is provided on the upper part of the moving frame 230 and the opening and closing frame 250 is provided on the roof frame 240 to open and close the opening and closing frame 250, Folding or sliding opening / closing.

Further, an air blower 260 installed to ventilate the inside of the deformable structure 200 to one side of the roof frame 240; An access door 270 formed in a slidable manner so that an operator can enter and exit the variable structure 200; A temperature and humidity sensor 280 provided to measure temperature and humidity on both sides of the interior of the deformable structure 200; And further comprising:

Also, the multiple film cells 300 attached to the cell fixture formed on the fixed frame 220, the movable frame 230, and the roof frame 240 of the deformable structure 200; The multiple film cells 300 are formed of a plurality of PO films 320 and are attached to the multiple film cells 300 or the fixed frame 220, the moving frame 230, and the roof frame 240 And the PO film 320 is attached using the spring 310 through the through holes 330.

In addition, a form system for managing the aquaculture facility 10 using the smartphone 500 includes a smartphone aggregate 500G including a plurality of smartphones 500; A smartphone-based control device aggregation including a plurality of aquaculture facilities (600) including a plurality of aquaculture facilities (10) and a plurality of smartphone-based control devices (600) is connected to a management server (450) (451), a control unit (452), and a DB (453). The management server (450) includes a management server (450) And the control unit 452 is provided with an ID search request including ID information from each smart phone 500 constituting the smartphone aggregate 500G Based control device 600 that is received from the management web server 450a and matches the smart phone 500 that issued the ID search request from the smart phone 500 that issued the ID search request, , The ID information at the completion of the control command An ID search providing module 452a for controlling the transmitting and receiving unit 451 to transmit the ID search request to the smart phone 500 by generating status information on the matched fishing establishment 10 as user interface screen information, ); Wherein the control command includes control of column height, roof angle and aquaculture facility operation corresponding to the deformable structure 200 of the aquaculture facility 10 that matches the ID information.

The control unit 452 may control the smart phone 500 to transmit the ID search request to the smartphone-based control device 600 matching the mobile phone 400, After controlling the transmission / reception unit 451 to receive the descent control command or the ascending control command together with the distance information from the top of the structure 200 to the top of the ground, the variable constructions built by the DB structuring module 452f The DB 453 extracts column height information for the structure 200 and uses the calculated height information as total length information to calculate a downward travel distance for performing a downward control command to a corresponding distance, A column height computation module 452b for computing an upward travel distance for performing an up control command to a corresponding distance using information; Further comprising:

The control unit 452 transmits the ID search request to the smartphone based control apparatus 600 that matches the ID search request from the smart phone 500 that made the ID search request through the mobile communication network 400 After controlling the transceiver 451 to receive a roof open command together with the smartphone-based control device 600 through the distance information between the open / close frame 250 on the deformable structure 200, the DB building module The angle information about the vertex of the variable structure 200 constructed by the first and second openings 452a and 452e centering on the facing vertex in the closed state of the open / close frame 250 and the length information of each of the cover frames 250 formed in the same size A roof open / close calculation module 452c that calculates an angle between a horizontal line and a base end of a vertex of the vertex of each of the open / close frames 250 extracted from the DB 453 in the distance information state; Further comprising:

The control unit 452 may be configured to receive the ID search request from the smart phone 500 that has received the ID search request through the mobile communication network 400, Reception unit 451 so as to receive an operation command for a style formed inside the structure 200 and then transmit the operation command to the shrimp growth management system A form facility operation calculation implementation module 452d for extracting operation information from the DB 453; Further comprising:

The control unit 452 may control the smartphone 500 to transmit the ID search request to the smartphone-based control device 600 matching the smartphone 500, A mode implementation module 452e for controlling the transceiver 451 to receive the summer protection mode request command, the winter protection mode request command, and the sludge processing mode request command together; Further comprising:

In addition, the mode implementation module 452e may be configured to set a preset humidity that matches the shrimp information formulated inside the deformable structure 200 constructed by the DB building module 452f when receiving the protection mode request command during summer The mobile terminal 500 extracts temperature threshold information from the DB 453 and controls the smart phone 500 that made the ID search request through the mobile communication network 400 to match the smart phone 500 And the control of the deformable structure 200 is performed by the smartphone-based control device 600.

In addition, the mode implementation module 452e may be configured such that, upon receiving the winter protection mode request command, the mode implementation module 452e may be configured to allow the open / close frame 250 of the deformable structure 200, constructed by the DB structuring module 452f, The length information of the open / close frame 250 formed to have the same size as the angle information and the length information about the touching vertex is extracted, the current snow snowfall amount is requested and received from an external server (not shown) And the threshold pressure classification information that can withstand the open / close 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 eyes is extracted again from the DB 453 do.

When receiving the sludge processing mode request command, the mode implementation module 452e sets the predetermined sludge processing information matched with the sludge processing information in the aquarium 100 constructed by the DB building module 452f The controller 451 controls the transmission / reception unit 451 to transmit the extracted preset information to the smartphone-based control device 600 through the mobile communication network 400, Based control device 600 matched with the smartphone 500, and the smartphone-based control device 600, which matches the smartphone 500 that issued the ID search request, The sludge processing amount is controlled according to a predetermined time as information matched with the sludge throughput in the sludge processing unit 100.

In addition, each of the smartphone-based control devices 600 has a structure that is connected to the matching aquaculture facility 10 through an input / output interface. The smartphone 500, which is matched through the mobile communication network 400, A wireless transceiver 620 for transmitting and receiving data; When the state information about the aquaculture facility 10 is collected through the input / output interface, the storage unit 630 stores data for processing the collected state information according to a control command received from the matching smart phone 500 ); Up and down operation of the variable structure 200 of the aquaculture facility 10 matched according to the control command received from the matching smart phone 500, performing the opening and closing of the open / close frame 250, A control module (610) for performing control including performing an operation on the control module (610); And a control unit.

The control module 610 receives the distance information from the smartphone 500 matching through the mobile communication network 400 to the top of the variable structure 200 of the aquaculture facility 10 A pillar height adjusting means 610a for controlling the operation of the mobile frame 230 after controlling the wireless transmitting / receiving unit 620; The control unit controls the wireless transmitting / receiving unit 620 to receive information matched for opening and closing the opening and closing frame 250 of the matching variable structure 200, Opening / closing means 610b; Aquaculture facility operating means 610c for controlling the form driving unit 130 after controlling the wireless transmitting / receiving unit 620 to receive the form information for establishing the environment of the shrimp cultured in the aquarium 100; And a control unit.

In addition, the control module 610 controls the wireless transceiver 620 to receive a request for the summer protection mode operation from the smartphone 500 matching through the mobile communication network 400, A summer protecting means 610d for allowing the internal temperature and humidity of the deformable structure 200 to be performed according to the set information; The wireless transmission / reception unit 620 is controlled to receive a request for the winter protection mode operation from the smartphone 500 matching through the mobile communication network 400, Winter protection means 610e; After controlling the wireless transmitting / receiving unit 620 to receive a request for operation of the sludge processing mode from the smartphone 500 matching through the mobile communication network 400, the amount of sludge in the matching water tank 100 A sludge processing means (610f) for performing the sludge processing in accordance with information about the sludge processing means; Further comprising:

According to the present invention, a shrimp farming system is provided in the inland area and, in some cases, a system capable of culturing organisms such as microorganisms, fry, sea fish or shellfish as well as shrimp is provided, Effect.

In addition, shrimp, microorganisms, and fry have to be kept at room temperature over 25 ℃. In order to solve problems that can not be operated due to energy cost problem, economical problem, pollution, etc. depending on cold regions and seasons, It is possible to maximize energy efficiency by combining upper and lower variable structures and solve the economical problem.

In addition, since the variable structure formed by the multiple films is completely sealed, it is possible to maintain the internal temperature from the outside, protect the structure from natural disasters by raising and lowering the variable structure and opening and closing the roof, .

In addition, the adoption of Biofloc technology which does not have to change seawater in the inland, automation of aquaculture facility and automation of variable structure enables remote operation using smart phone and automatic control by each sensor Therefore, it is possible to save labor costs by reducing the number of managers, and it is effective in terms of maintenance cost compared to other aquaculture facilities by transmitting real-time site conditions to a manager via a smart phone.

1 is a cross-sectional view of an aquaculture facility for an inland shrimp aquaculture facility and a shrimp aquaculture facility management system using the multiple film variable structure of the present invention.
2 is a plan view of an aquaculture facility for an inland shrimp aquaculture facility and a shrimp aquaculture facility management system to which a multi-film variable structure according to the present invention is applied.
FIG. 3 is a perspective view of aquaculture tank for inland shrimp aquaculture facility and shrimp aquaculture management system to which the multi-film variable structure of the present invention is applied.
FIG. 4 is a view showing a state of a variable structure rising and falling relative to an inland shrimp aquaculture facility and a shrimp aquaculture management system using the multiple film variable structure of the present invention.
FIG. 5 is a perspective view of a multi-film deformable structure of an inland shrimp aquaculture facility and a shrimp aquaculture facility management system to which the present invention is applied.
6 is a perspective view of an aquaculture facility for an inland shrimp aquaculture facility and a shrimp aquaculture facility management system to which the multi-film variable structure of the present invention is applied.
7 is a diagram showing a case where a smartphone is singly used for an inland shrimp aquaculture facility and a shrimp aquaculture facility management system to which the multiple film variable structure of the present invention is applied.
8 is a view showing the structure of a management server for an inland shrimp aquaculture facility and a shrimp aquaculture facility management system to which the present invention is applied.
FIG. 9 is a diagram showing a case where a plurality of smartphones are used as a collection of smartphones for an inland shrimp aquaculture facility and shrimp aquaculture management system using the multiple film variable structure of the present invention.
FIG. 10 is a diagram for explaining the internal structure of a smartphone-based control device of an inland shrimp aquaculture facility and a shrimp aquaculture facility management system to which the multiple film variable structure of the present invention is applied.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a cross-sectional view of the aquaculture facility of the present invention, FIG. 2 is a plan view of the aquaculture facility, FIG. 3 is a perspective view of the aquaculture tank, 5 is a perspective view of the multi-film structure of the deformable structure, and Fig. 6 is a perspective view of the aquaculture facility.

7 is a diagram showing a case where the smartphone of the management system for aquaculture facility is a single person, FIG. 8 is a diagram showing a management server structure of the management system, FIG. 9 is a diagram showing a case where there are a plurality of smartphones And FIG. 10 is a diagram for explaining an internal configuration of a smartphone-based control device according to the present invention.

Conventional aquaculture facilities are unable to operate due to high maintenance costs in order to maintain a temperature of 25 ° C or higher, which is the temperature of basic aquaculture.

The present invention relates to a shrimp aquaculture facility. In order to solve the problem that can not be operated due to energy cost problem, economical problem, pollution, etc. depending on cold regions or seasons, an upper and lower variable structure And to maintain the temperature above 25 ℃ by decreasing the internal volume by lifting and lowering the structure to maximize the energy efficiency and solve the economical problem.

In addition, the shrimp farming facility of the present invention is made by the technology of Biofloc which is produced by using seawater in the inland area and does not need to change seawater.

In addition, the aquaculture facility of the present invention is characterized in that not only shrimp but also microorganisms, fishes, sea water fishes, fishes and shellfishes, etc. can be cultured.

1 to 6, the aquaculture facility 10 of the present invention is provided with a culture water tank 100 for culturing shrimp by forming grooves on the ground 20, and in the case of the aquarium 100, .

In addition, when the plurality of the aquarium 100 is formed in the longitudinal direction or the wide direction side, the work passage 120 is formed so that the worker can pass between the aquaria 100.

In addition, a style driving unit 130 is provided at one side of the aquarium 100 to control a driving device for shrimp culture in the aquarium 100, and various forms of operation Device.

In addition, the variable structure 200 is fixed to the ground surface 20 above the aquarium 100 to form a shrimp culture environment for temperature and humidity control during shrimp culture.

As shown in the figure, the shrimp 110 is formed on the upper surface of the aquarium 100 for the safety of foreign objects or workers in the outside of the shrimp, It is made of concrete, sand bag or concrete block.

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

A water temperature and water level sensor 150 is provided on one side of the dam 110 and a fixing member 140 is provided on the upper side of the dam 110 to fix the water temperature and water level sensor 150 .

Accordingly, the water temperature and the water level sensor 150 check the water temperature in the aquarium 100, and check the water level to provide the best environment for the shrimp culture.

A sludge discharge pipe 161 is disposed on the bottom surface of the aquarium 100 so as to discharge the sludge remaining on the inside of the aquaculture water tank 100 to the upper side through a ground surface 20 And a 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 drawing, a supporting member 210 is embedded on the ground on the outer circumference of the aquarium 100, and is formed as a rectangular frame on the supporting member 210, A fixed frame 220 is provided and a moving frame 230 is provided on the upper side of the fixed frame 220.

The movable frame 230 moves upward and downward about the fixed frame 220 so that the cells can be attached to the left and right front and rear sides of the movable frame 230.

A roof frame 240 is provided above the moving frame 230 and an open / close frame 250 is provided above the roof frame 240 to provide a two-stage folding or a complete opening / closing of the roof frame 240, .

The open / close manner of the open / close frame 250 is selected according to the local environment.

The ventilator 260 is provided at one side of the roof frame 240 to ventilate the inside of the deformable structure 200. The ventilator 260 is provided at one side of the deformable structure 200 to allow an operator to enter and exit the ventilator 260, And a temperature and humidity sensor 280 is provided to measure temperature and humidity both sides of the interior of the deformable structure 200 in the width direction.

A wind pressure sensor for measuring the wind pressure, and a pressure sensor line for preparing for heavy snow, are provided in the deformable structure 200.

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

The multiple film cells 300 are composed of a plurality of PO films 320, and are formed in a cell shape capable of detachable attachment.

The pads 330 are attached to the fixed frame 220, the moving frame 230, the roof frame 240 and the opening and closing frame 250 to attach the PO film 320 through the springs 310 Can also be used.

1 to 10, a form system for managing the aquaculture facility 10 of the present invention using a smartphone 500 includes a smartphone aggregate 500G including a plurality of smartphones 500, And a plurality of aquaculture facilities 600G including a plurality of aquaculture facilities 10 are provided.

In addition, a smart phone-based control device aggregate including a plurality of smartphone-based control devices 600 may be a smart (smart) device that transmits and receives signals and data to / from the management server 450 and the management web server 450a through the mobile communication network 400 The management server 450 has an internal configuration including a transmission / reception unit 451, a control unit 452, and a DB 453, and the management server 450 includes a management web Server 450a and the control unit 452 receives an ID search request including ID information from each smart phone 500 constituting the smartphone aggregate 500G from the management web server 450a, Based on the control command to the smartphone-based control device 600 that matches the smartphone 500 that made the ID search request from the smartphone 500 that issued the ID search request, Status information for the aquaculture facility (10) An ID search providing module 452a for generating the user interface screen information and transmitting the ID search request to the smart phone 500 and controlling the transmitting and receiving unit 451 to be implemented; Wherein the control command comprises control of column height, roof angle and aquaculture operation corresponding to the deformable structure 200 of the aquaculture facility 10 that matches the ID information.

The control unit 452 may control the smart phone 500 to transmit the ID search request to the smartphone-based control device 600 matching the mobile phone 400, After controlling the transmission / reception unit 451 to receive the descent control command or the ascending control command together with the distance information from the top of the structure 200 to the top of the ground, the variable constructions built by the DB structuring module 452f The DB 453 extracts column height information for the structure 200 and uses the calculated height information as total length information to calculate a downward travel distance for performing a downward control command to a corresponding distance, And a column height computation module 452b for computing an upward movement distance for performing the up control command to the corresponding distance by utilizing the information.

The control unit 452 transmits the ID search request to the smartphone based control apparatus 600 that matches the ID search request from the smart phone 500 that made the ID search request through the mobile communication network 400 After controlling the transceiver 451 to receive a roof open command together with the smartphone-based control device 600 through the distance information between the open / close frame 250 on the deformable structure 200, the DB building module The angle information about the vertex of the variable structure 200 constructed by the first and second openings 452a and 452e centering on the facing vertex in the closed state of the open / close frame 250, and the length information of each of the cover frames 250 formed in the same size A roof open / close calculation module 452c that calculates an angle between a horizontal line and a base end of a vertex of the vertex of each of the open / close frames 250 extracted from the DB 453 in the distance information state; As shown in FIG.

The control unit 452 may be configured to receive the ID search request from the smart phone 500 that has received the ID search request through the mobile communication network 400, Reception unit 451 so as to receive an operation command for a style formed inside the structure 200 and then transmit the operation command to the shrimp growth management system A form facility operation calculation implementation module 452d for extracting operation information from the DB 453; As shown in FIG.

The control unit 452 may control the smartphone 500 to transmit the ID search request to the smartphone-based control device 600 matching the smartphone 500, A mode implementation module 452e for controlling the transceiver 451 to receive the summer protection mode request command, the winter protection mode request command, and the sludge processing mode request command together; As shown in FIG.

In addition, the mode implementation module 452e may be configured to set a preset humidity that matches the shrimp information formulated inside the deformable structure 200 constructed by the DB building module 452f when receiving the protection mode request command during summer The mobile terminal 500 extracts temperature threshold information from the DB 453 and controls the smart phone 500 that made the ID search request through the mobile communication network 400 to match the smart phone 500 And the control for the deformable structure 200 is performed by the smartphone-based control device 600. [

In addition, the mode implementation module 452e may be configured such that, upon receiving the winter protection mode request command, the mode implementation module 452e may be configured to allow the open / close frame 250 of the deformable structure 200, constructed by the DB structuring module 452f, The length information of the open / close frame 250 formed to have the same size as the angle information and the length information about the touching vertex is extracted, the current snow snowfall amount is requested and received from an external server (not shown) And extracts from the DB 453 again the critical pressure classification information that can withstand the open / close 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.

When receiving the sludge processing mode request command, the mode implementation module 452e sets the predetermined sludge processing information matched with the sludge processing information in the aquarium 100 constructed by the DB building module 452f The controller 451 controls the transmission / reception unit 451 to transmit the extracted preset information to the smartphone-based control device 600 through the mobile communication network 400, Based control device 600 matched with the smartphone 500, and the smartphone-based control device 600, which matches the smartphone 500 that issued the ID search request, The sludge processing amount is controlled according to a preset time by the amount of information matched with the sludge processing amount in the sludge processing unit 100.

In addition, each of the smartphone-based control devices 600 has a structure that is connected to the matching aquaculture facility 10 through an input / output interface. The smartphone 500, which is matched through the mobile communication network 400, A wireless transceiver 620 for transmitting and receiving data; When the state information about the aquaculture facility 10 is collected through the input / output interface, the storage unit 630 stores data for processing the collected state information according to a control command received from the matching smart phone 500 ); Up and down operation of the variable structure 200 of the aquaculture facility 10 matched according to the control command received from the matching smart phone 500, performing the opening and closing of the open / close frame 250, A control module (610) for performing control including performing an operation on the control module (610); .

The control module 610 receives the distance information from the smartphone 500 matching through the mobile communication network 400 to the top of the variable structure 200 of the aquaculture facility 10 A pillar height adjusting means 610a for controlling the operation of the mobile frame 230 after controlling the wireless transmitting / receiving unit 620; The control unit controls the wireless transmitting / receiving unit 620 to receive information matched for opening and closing the opening and closing frame 250 of the matching variable structure 200, Opening / closing means 610b; Aquaculture facility operating means 610c for controlling the form driving unit 130 after controlling the wireless transmitting / receiving unit 620 to receive the form information for establishing the environment of the shrimp cultured in the aquarium 100; .

In addition, the control module 610 controls the wireless transceiver 620 to receive a request for the summer protection mode operation from the smartphone 500 matching through the mobile communication network 400, A summer protecting means 610d for allowing the internal temperature and humidity of the deformable structure 200 to be performed according to the set information; The wireless transmission / reception unit 620 is controlled to receive a request for the winter protection mode operation from the smartphone 500 matching through the mobile communication network 400, Winter protection means 610e; After controlling the wireless transmitting / receiving unit 620 to receive a request for operation of the sludge processing mode from the smartphone 500 matching through the mobile communication network 400, the amount of sludge in the matching water tank 100 A sludge processing means (610f) for performing the sludge processing in accordance with information about the sludge processing means; .

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Facility 20: Ground
100: Aquaculture tank 110: dike
120: work passage 130:
140: fixing member 150: water temperature and water level sensor
160: Sludge pump 161: Sludge discharge pipe
200: Variable structure 210: Support member
220: fixed frame 230: movable frame
240: roof frame 250: open / close frame
260: Fan 270: Door
280: Temperature and humidity sensor
300: multiple film cells 310: spring
320: PO film 330: pad
400: mobile communication network 450: management server
450a: Management Web server 451: Transmitting /
452: Control section 452a: ID search providing module
452b: Column height calculation module 452c: Roof opening / closing calculation module
452d: Form driving part operation calculation implementation module 452e: Mode implementation module
452f: DB building module 453: DB
500: Smartphone 500G: Smartphone bundle
600: Smart phone-based control device 610: Control module
600G: Aquaculture facility 610a: Column height adjustment means
610b: Roof opening / closing means 610c: Means for operating the aquaculture facility
610d: Summer protection 610e: Winter protection
610f: sludge processing means 620: wireless transmitting /
630:

Claims (18)

A shrimp culture facility (10) comprising Biofloc technology in which a multi-film deformable structure having an air layer is applied and sea water is not changed inland;
The aquaculture facility (10) comprises a culture water tank (100) for culturing shrimp by forming a groove in the ground surface (20);
A working passage 120 formed between the culture water tanks 100 when a plurality of the water storage tanks 100 are formed in the longitudinal direction or the wider direction side,
A deformable structure 200 fixed to the ground surface 20 above the aquaculture water tank 100 to form a culture environment of shrimp at a temperature of 25 ° C to 28 ° C at a normal temperature during shrimp culture;
And a shrimp culture facility inland inland where a multi-film variable structure is applied.
The method according to claim 1,
A style driving unit 130 provided at one side of the aquarium 100 to control a driving device for shrimp culture in the aquarium 100;
A dam (110) formed on the upper surface of the aquaculture water tank (100) so that the shrimp is not released to the outside, but for the safety of foreign objects or workers in the water tank;
Wherein the dam (110) can be formed by selecting any one of a concrete dam, a sand bag, and a concrete block, wherein the multi-film variable structure is applied to an inland shrimp farm.
3. The method of claim 2,
A water temperature and water level sensor 150 for measuring water temperature and water level in the culture water tank 100 to one side of the upper part of the dam 110; And
Wherein a fixing member (140) is provided on a top surface of the dam (110) to fix the water temperature and water level sensor (150).
The method according to claim 1,
A sludge discharge pipe 161 disposed to discharge from the bottom surface of the aquarium 100 through the side surface 20 to discharge the sludge remaining in the inside of the aquaculture water tank 100 to the outside; And
A sludge pump 160 connected to a sludge discharge pipe 161 at one side of the variable structure 200 to suck and discharge the sludge through the sludge discharge pipe 161;
Wherein the shrimp culture facility comprises a shrimp culture facility and a shrimp culture facility.
The method according to claim 1,
A support member 210 is embedded in the ground 20 on the outer circumference of the aquarium 100,
A fixing frame 220 formed as a rectangular frame on the support member 210 and adapted to attach the multiple film cells 300 to the right, left, front and back sides of the rectangular frame; And
A moving frame 230 is provided on the upper side of the fixed frame 220 so that the moving frame 230 moves upward and downward about the fixed frame 220 to move the multiple film cells 300 ) Is attached,
A roof frame 240 is provided above the moving frame 230 and an opening and closing frame 250 is provided on the roof frame 240 to allow the opening and closing frame 250 to be folded in two stages or opened and closed Inland shrimp aquaculture facility using multiple film variable structures.
6. The method of claim 5,
A ventilator 260 installed to ventilate the inside of the deformable structure 200 to one side of the roof frame 240;
An access door 270 formed in a slidable manner so that an operator can enter and exit the variable structure 200;
A temperature and humidity sensor 280 provided to measure temperature and humidity on both sides of the interior of the deformable structure 200;
Wherein the shrimp culture facility comprises a shrimp culture facility and a shrimp culture facility.
The method according to claim 1,
A plurality of film cells 300 attached to a cell fixture formed on the fixed frame 220, the movable frame 230, and the roof frame 240 of the deformable structure 200;
The multiple film cells 300 are formed of a plurality of PO films 320,
The PO film 320 is attached using the spring 310 through the pad 330 attached to the multiple film cells 300 or the fixed frame 220, the moving frame 230 and the roof frame 240 Inland shrimp aquaculture facility using multiple film variable structures.
The form system for managing the aquaculture facility 10 using the smartphone 500 comprises:
A smartphone aggregate 500G including a plurality of smartphones 500; A smartphone-based control device aggregation including a plurality of aquaculture facilities (600) including a plurality of aquaculture facilities (10) and a plurality of smartphone-based control devices (600) is connected to a management server (450) (450a) for transmitting and receiving signals and data, the system comprising:
The management server 450 has an internal configuration including a transmission / reception unit 451, a control unit 452 and a DB 453 and an external management web server 450a. ,
From the management web server 450a, an ID search request including ID information from each smart phone 500 constituting the smartphone aggregate 500G, and transmits the ID search request from the smart phone 500 that issued the ID search request Based on the control command, the smart phone-based control device 600 that matches the smart phone 500 that made the search request transmits status information on the form facility 10 that matches the ID information upon completion of the control command to the user interface screen information An ID search providing module 452a for controlling the sending / receiving unit 451 to transmit the ID search request to the smart phone 500 and implementing the ID search request; / RTI >
Wherein the control command includes control of column height, roof angle and aquaculture facility operation corresponding to the deformable structure (200) of the aquaculture facility (10) matching the ID information. Regional shrimp farm facility management system.
The apparatus of claim 8, wherein the controller (452)
The variable structure 200 of the aquaculture facility 10 transmitted from the smartphone 500 that has made the ID search request through the mobile communication network 400 to the smartphone based control device 600 matching the mobile phone 400, Receiving unit 451 to receive the descent control command or the ascending control command together with the distance information to the variable structure 200 constructed by the DB building module 452f, Is extracted from the DB 453 and used as total length information to calculate a descending movement distance for executing a descending control command up to a corresponding distance or by using height information extracted in the case of an ascending control command, A column height calculation implementation module 452b for calculating an upward travel distance for command execution; Wherein the shrimp aquaculture system further comprises a multi-film variable structure.
The apparatus of claim 8, wherein the controller (452)
Based on the variable structure 200 of the aquaculture facility 10 which is transmitted from the smartphone 500 having received the ID search request through the mobile communication network 400 to the smartphone- And controls the transmission / reception unit 451 to receive the roof open command together with the smartphone-based control device 600 through the distance information between the variable structure 200 The angular information about the vertex that is in contact with the open / close frame 250 in the closed state and the length information of each of the cover frames 250 formed in the same size are extracted from the DB 453, A roof open / close calculation module 452c for calculating an angle between a horizontal line and a base end of a vertex to which each open / close frame 250 meets in the state; Wherein the shrimp aquaculture system further comprises a multi-film variable structure.
The apparatus of claim 8, wherein the controller (452)
Based on the form formed inside the deformable structure 200 in the aquaculture facility 10 that is transmitted from the smartphone 500 that made the ID search request through the mobile communication network 400 to the smartphone- After controlling the transceiver 451 to receive an operation command,
A wastewater facility operation calculation implementation module 452d for extracting operation information for each wastewater or shrimp growth of the aquaculture facility 10 constructed by the DB construction module 452f from the DB 453; Wherein the shrimp aquaculture system further comprises a multi-film variable structure.
The apparatus of claim 8, wherein the controller (452)
A summertime protection mode request command for the Western style facility 10 transmitted from the smart phone 500 that has received the ID search request through the mobile communication network 400 to the smartphone based control apparatus 600 matching the request, A mode implementation module (452e) for controlling the transceiver (451) to receive a command and a sludge processing mode request command together; Wherein the shrimp aquaculture system further comprises a multi-film variable structure.
13. The method of claim 12, wherein the mode implementation module (452e)
The humidity and temperature threshold information matching the shrimp information formed inside the deformable structure 200 constructed by the DB building module 452f is extracted from the DB 453 at the time of receiving the summer protection mode request command The control unit 600 controls the smart phone 500 that has made the ID search request through the mobile communication network 400 and transmits the ID search request to the smart phone 500, And controlling the structure (200) so that the shrimp culture facility (200) is controlled.
13. The method of claim 12, wherein the mode implementation module (452e)
Upon receipt of the winter protection mode request command, angle information and length information about the vertex of the open / close frame 250 of the deformable structure 200 constructed by the DB structuring module 452f, (Not shown), receives the length information of the open / close frame 250 having the same size as the current snowfall amount, extracts the length information of the open / And the threshold pressure classifying information capable of withstanding the open / close frame (250) and the roof frame (240) corresponding to the correlation information is extracted again from the DB (453). The inland shrimp culture Facility management system.
13. The method of claim 12, wherein the mode implementation module (452e)
Upon receipt of the sludge processing mode request command, predetermined sludge processing information matching the sludge processing information in the form water tank 100 constructed by the DB building module 452f is extracted from the DB 453, Based control device 600 that controls the transceiver 451 to transmit predetermined information to the smartphone-based control device 600 through the mobile communication network 400 and matches the smartphone with which the ID search request is made, To control the sludge treatment,
The smartphone-based control device 600, which matches the smartphone 500 that made the ID search request,
Wherein the sludge processing is controlled according to a predetermined time by the information matched with the sludge throughput in the aquarium (100).
The method of claim 8, wherein each of the smartphone-based control devices (600)
And has a structure connected to the matching aquaculture facility 10 through an input / output interface,
A wireless transceiver 620 for transmitting and receiving signals and data to / from the smartphone 500 matching 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 stores data for processing the collected state information according to a control command received from the matching smart phone 500 ); And
Up and down operation of the variable structure 200 of the aquaculture facility 10 matched according to the control command received from the matched smart phone 500, performing the opening and closing of the opening and closing frame 250, A control module (610) for performing control including execution of the control module (610); Wherein the shrimp aquaculture system comprises: a shrimp culture facility;
17. The system of claim 16, wherein the control module (610)
The wireless transmitting / receiving unit 620 is controlled to receive the distance information from the smartphone 500 matching through the mobile communication network 400 to the top of the matching structure 200 of the aquaculture facility 10 A pillar height adjusting means (610a) for controlling the operation of the moving frame (230);
The control unit controls the wireless transmitting / receiving unit 620 to receive information matched for opening and closing the opening and closing frame 250 of the matching variable structure 200, Opening / closing means 610b;
Aquaculture facility operating means 610c for controlling the form driving unit 130 after controlling the wireless transmitting / receiving unit 620 to receive the form information for establishing the environment of the shrimp cultured in the aquarium 100; Wherein the shrimp aquaculture system comprises: a shrimp culture facility;
17. The system of claim 16, wherein the control module (610)
The wireless transceiver 620 is controlled to receive a request for the protection mode operation in summer from the smartphone 500 matched through the mobile communication network 400 and then the internal temperature and humidity of the matching variable structure 200 to be matched A summer safeguarding means (610d) for performing safeguarding according to the set information;
The wireless transmission / reception unit 620 is controlled to receive a request for the winter protection mode operation from the smartphone 500 matching through the mobile communication network 400, Winter protection means 610e;
After controlling the wireless transmitting / receiving unit 620 to receive a request for operation of the sludge processing mode from the smartphone 500 matching through the mobile communication network 400, the amount of sludge in the matching water tank 100 A sludge processing means (610f) for performing the sludge processing in accordance with information about the sludge processing means;
Wherein the shrimp aquaculture system further comprises a multi-film variable structure.

Images