CN218126379U - Indoor modernization intelligence sea water plant - Google Patents

Abstract

The utility model belongs to the mariculture field discloses an indoor modernization intelligence mariculture farm, including breeding the room, it is provided with the breed pond in the room to breed, the right side of breeding the room is provided with the intake pump, the play water end of intake pump runs through and extends to in breeding the pond, the left side of breeding the room is provided with out the water pump, the end of drawing water that goes out the water pump runs through and extends to in breeding the pond, be provided with temperature sensor in breeding the pond, the top of breeding the room is provided with a plurality of solar panel. This scheme is through mutually supporting of controller, temperature sensor and temperature regulation and control subassembly, can carry out intelligence to carrying to the temperature in the breed pond and mediate to guarantee the required best breed temperature of marine product breed, can guarantee marine product through oxygen content detector and oxygenation mechanism and breed required oxygen branch, effectively guarantee the aquaculture environment of marine product, improve the survival rate.

Description

Indoor modernization intelligence sea water plant

Technical Field

The utility model relates to a mariculture field, more specifically say, relate to an indoor modernization intelligence mariculture field.

Background

The mariculture is a production activity for culturing marine aquatic economic animals and plants by utilizing coastal shallow seas and beaches, comprises shallow sea culture, beach culture, bay culture and the like, can be classified from different angles, and can be divided into the following types according to culture objects: fishes, shrimps, crabs, shellfish, algae, seafood and the like, while the shellfish and the algae are the most common and the shrimps are the second class; according to the intensification degree, the method can be divided into: coarse culture, semi-fine culture and fine culture; the production method comprises the following steps: single culture, mixed culture (such as fish and shrimp) and intercropping (kelp and mussel).

Present factory-like breed still relies on the manpower to breed, and regulation and control, oxygen branch etc. to the temperature are all the artifical detection back at the in-process of breeding again, mediate untimely easily appears, the dead phenomenon of marine product for the marine product survival rate is low, in addition when the fodder is thrown the material, also is artificial mode, and troublesome poeration, work load are big.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model aims to provide an indoor modernization intelligence sea water plant.

In order to solve the above problems, the utility model adopts the following technical proposal.

The utility model provides an indoor modernization intelligence mariculture farm, is including breeding the room, it breeds the pond to be provided with in the room to breed, the right side of breeding the room is provided with the intake pump, the play water end of intake pump runs through and extends to breed in the pond, the left side of breeding the room is provided with out the water pump, the end of drawing water of going out the water pump runs through and extends to breed in the pond, it is provided with temperature sensor in the pond to breed, the top of breeding the room and being located and breeding the pond is provided with the accumulator case, solar panel and accumulator case electric connection, the front of accumulator case is provided with the controller, the controller respectively with intake pump, play water pump and temperature sensor electric connection, one side of breeding the pond is provided with oxygen-containing detector and oxygenation mechanism, be provided with temperature regulation and control subassembly in breeding the pond, the top of breeding the pond is provided with moving mechanism, the last top that just is located and breeds the pond of moving mechanism is provided with automatic feeding mechanism, moving mechanism drives automatic feeding mechanism back-and forth movement.

As a further description of the above technical solution: the oxygenation mechanism is including setting up the oxygenation pump in breed pond one side, the top fixed mounting of oxygenation pump has the pipe, the pipe is kept away from the one end fixed mounting of oxygenation pump and is had the aeration piece, the bleeder vent has evenly been seted up in the outside of aeration piece, one side of aeration piece and the inside wall fixed connection of breeding the pond.

As a further description of the above technical solution: the temperature regulation and control subassembly includes heater strip and heat conduction baffle, the heat conduction baffle is located the top of heater strip, the lateral surface of heat conduction baffle and the inside wall fixed connection of heater strip.

As a further description of the above technical solution: moving mechanism includes the backup pad, automatic feeding mechanism sets up in the backup pad, the equal fixedly connected with movable block in the left and right sides of backup pad, two all alternate on the movable block and be provided with the threaded rod rather than threaded connection, two the positive one end at the back of threaded rod all rotates and is connected with the fixed block, four the equal fixed fixture block that even has in bottom of fixed block, four two bisymmetry joints of fixture block are at the edge of breeding the pond left and right sides, are close to the positive equal fixed mounting who breeds two positive fixed blocks in pond and have servo motor, two servo motor's output shaft respectively with two threaded rod fixed connection, two just the bottom that is located the threaded rod alternates on the movable block and is provided with the guide bar, both ends respectively with fixed block fixed connection around the guide bar.

As a further description of the above technical solution: the automatic feeding mechanism comprises a feeding box, the bottom of the feeding box is communicated with a feeding pipe, the feeding box is arranged on a supporting plate, the bottom end of the feeding pipe penetrates through and extends to the lower portion of the supporting plate and corresponds to a culture pond, the left side and the right side of the feeding box are fixedly installed on the supporting plate through bolts, a plurality of storage barrels which are uniformly distributed in an annular mode are arranged at the top of the feeding box, a discharging pipe of each storage barrel extends to the inside of the feeding box, a material mixing component is arranged in the middle of the feeding box, electromagnetic valves matched with the discharging pipes of the feeding pipe and the storage barrels are arranged on the discharging pipe of the feeding pipe and the storage barrels, and the electromagnetic valves are electrically connected with a controller.

As a further description of the above technical solution: the mixing component comprises a driving motor, the driving motor is fixedly installed at the center of the top of the feeding box, a mixing shaft is arranged inside the feeding box, the top end of the mixing shaft is fixedly connected with the output end of the driving motor, and a plurality of mixing blades are fixedly connected onto the mixing shaft.

As a further description of the above technical solution: the feeding box is internally provided with a material guide hopper, the discharge pipe of the storage barrel is positioned in the material guide hopper, and the feeding pipe is communicated with the material guide hopper.

As a further description of the above technical solution: the cultivation room is characterized in that a plurality of light supplement lamps are arranged on the beam frame inside the cultivation room, a water seepage groove is arranged above the outer side of the cultivation pond, and the left side of the water seepage groove is communicated with a drain pipe.

As a further description of the above technical solution: this intelligence sea water plant still is equipped with and purifies detection automatic control device, including sea water filtration purification automatic check out system, the difference in height water flow device guarantees long flowing water, circulating water system, and the automatic filtration repurification processing system that gets rid of fish pond excrement and urine turbid thing guarantees the circulating water quality, effectively guarantees the aquaculture environment of marine product, improves the survival rate.

Compared with the prior art, the utility model has the advantages of:

(1) This scheme is through mutually supporting of controller, temperature sensor and temperature regulation and control subassembly, can carry out intelligence to the temperature of water of carrying in to breeding the pond and mediate to guarantee the required best breed temperature that marine product was bred, can guarantee marine product through oxygen content detector and oxygenation mechanism and breed required oxygen branch, effectively guarantee the breed environment of marine product, improve the survival rate.

(2) This scheme is through moving mechanism and automatic feeding mechanism and the automatic input that realizes the marine product fodder, alleviates staff's work load, and through solar panel's energy conversion function, the required electric energy of breed marine product normal operating is supplied with feed water pump, play water pump and temperature sensor etc. in gathering the electric energy to the accumulator case, and is energy-concerving and environment-protective.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a front sectional view of the culture pond shown in FIG. 1;

fig. 3 is an enlarged view of the automatic feeding mechanism of fig. 2 according to the present invention.

The reference numbers in the figures illustrate:

1. a breeding house; 2. a culture pond; 3. a water inlet pump; 4. discharging the water pump; 5. a temperature sensor; 6. a solar panel; 7. an accumulator case; 8. a controller; 9. an oxygenation mechanism; 91. an oxygenation pump; 92. a conduit; 93. an aeration block; 10. a temperature regulation component; 101. heating wires; 102. a thermally conductive spacer; 11. a moving mechanism; 111. a support plate; 112. a moving block; 113. a threaded rod; 114. a fixed block; 115. a clamping block; 116. a servo motor; 117. a guide bar; 12. an automatic feeding mechanism; 121. a feeding box; 122. a feeding pipe; 123. a material storage cylinder; 124. a mixing assembly; 1241. a drive motor; 1242. a stirring shaft; 1243. a stirring blade; 125. an electromagnetic valve; 126. a material guide hopper; 13. a light supplement lamp; 14. a water seepage tank.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention;

referring to fig. 1 to 3, an indoor modern intelligent seawater farm comprises a breeding room 1, a breeding pond 2 is arranged in the breeding room 1, a water inlet pump 3 is arranged on the right side of the breeding room 1, a water outlet end of the water inlet pump 3 penetrates through and extends into the breeding pond 2, a water outlet pump 4 is arranged on the left side of the breeding room 1, a water pumping end of the water outlet pump 4 penetrates through and extends into the breeding pond 2, a temperature sensor 5 is arranged in the breeding pond 2, a plurality of solar panels 6 are arranged on the top of the breeding room 1, a storage battery 7 is arranged in the breeding room 1 and located on the left side of the breeding pond 2, the solar panels 6 are electrically connected with the storage battery 7, a controller 8 is arranged on the front side of the storage battery 7, the controller 8 is respectively electrically connected with the water inlet pump 3, the water outlet pump 4 and the temperature sensor 5, an oxygen-containing detector and an oxygen adding mechanism 9 are arranged on one side of the breeding pond 2, a temperature regulating assembly 10 is arranged in the breeding pond 2, the controller 8, the temperature sensor 5 and the temperature regulating assembly 10 are matched with each other, so that the water temperature of the breeding pond 2 can be conveyed to the breeding pond 2, optimal temperature required for intelligent breeding, the optimal regulation of the breeding of marine products, the marine products can be guaranteed, the optimal regulation of the breeding temperature of the breeding environment of the marine products, the marine products can be guaranteed, the survival rate of the oxygen containing detector and the survival rate of the marine products can be guaranteed, and the oxygen adding mechanism can be guaranteed, and the marine products can be guaranteed by the oxygen containing mechanism 9.

The utility model discloses in, the top of breeding pond 2 is provided with moving mechanism 11, the top that just is located breeding pond 2 on moving mechanism 11 is provided with automatic feeding mechanism 12, moving mechanism 11 drives automatic feeding mechanism 12 back-and-forth movement, through moving mechanism 11 and automatic feeding mechanism 12 and the automatic input of realization marine product fodder, alleviate staff's work load, energy conversion function through solar panel 6, gather the electric energy and supply to water feed pump 3 in to accumulator case 7, go out required electric energy of breed marine product normal operating such as water pump 4 and temperature sensor 5, and is energy-concerving and environment-protective.

Wherein, oxygenation mechanism 9 is including setting up the oxygenation pump 91 in breeding 2 one sides of pond, the top fixed mounting of oxygenation pump 91 has pipe 92, the one end fixed mounting that oxygenation pump 91 was kept away from to pipe 92 has aeration piece 93, the bleeder vent has evenly been seted up in the outside of aeration piece 93, one side of aeration piece 93 and the inside wall fixed connection who breeds pond 2, when the oxygen content detector detects out that oxygen branch is not enough, controller 8 is with oxygenation pump 91 circular telegram, in the bleeder vent that passes through pipe 92 and aeration piece 93 with the oxygen branch in the air gets into aquaculture, fully contact with aquaculture, and reach oxygen and melt into the aquatic, increase the oxygen content, guarantee the growth demand of marine products.

Specifically, temperature regulation and control subassembly 10 includes heater strip 101 and heat conduction baffle 102, heat conduction baffle 102 is located the top of heater strip 101, heat conduction baffle 102's lateral surface and heater strip 101's inside wall fixed connection, when the temperature in breeding pond 2 is lower, make accumulator box 7 to the energy supply of heater strip 101 through controller 8, heater strip 101 is to the water heating in breeding pond 2 this moment, reach the temperature of settlement until the temperature, and then reach the purpose that improves the temperature fast, and heat conduction baffle 102 can separate the marine product, avoid heater strip 101 to touch when the heating, and then lead to the scald.

Specifically, the moving mechanism 11 includes a supporting plate 111, the automatic feeding mechanism 12 is disposed on the supporting plate 111, moving blocks 112 are fixedly connected to the left and right sides of the supporting plate 111, threaded rods 113 connected to the two moving blocks 112 are inserted into the two moving blocks 112, fixed blocks 114 are rotatably connected to the front and back ends of the two threaded rods 113, fixture blocks 115 are fixedly connected to the bottoms of the four fixed blocks 114, the four fixture blocks 115 are symmetrically clamped to the edges of the left and right sides of the culture pond 2, servo motors 116 are fixedly mounted on the front sides of the two fixed blocks 114 close to the front side of the culture pond 2, output shafts of the two servo motors 116 are fixedly connected to the two threaded rods 113, guide rods 117 are inserted into the bottoms of the threaded rods 113 on the two moving blocks 112, the front and back ends of the guide rods 117 are fixedly connected to the fixed blocks 114, the servo motors 116 are powered on and operate through the controller 8 during feeding, the threaded rods 113 are driven to rotate, and are matched with the limit of the guide rods 117, so that the moving blocks 112 move back and forth, and back and forth, and forth and back and forth of the automatic feeding mechanism 12 are driven, and forth, and back, and forth feeding fixed points at different positions are realized.

In addition, the automatic feeding mechanism 12 includes a feeding box 121, a feeding pipe 122 is communicated with the bottom of the feeding box 121, the feeding box 121 is disposed on the support plate 111, the bottom end of the feeding pipe 122 penetrates and extends to the lower side of the support plate 111 and corresponds to the culture pond 2, the left side and the right side of the feeding box 121 are fixedly mounted on the support plate 111 through bolts, a plurality of storage barrels 123 are uniformly distributed in an annular shape are disposed at the top of the feeding box 121, discharge pipes of the storage barrels 123 extend to the inside of the feeding box 121, a mixing component 124 is disposed in the middle of the feeding box 121, electromagnetic valves 125 adapted to the feeding pipe 122 and the storage barrels 123 are disposed on the discharge pipes of the feeding pipe 122 and the storage barrels 123, the electromagnetic valves 125 are electrically connected with the controller 8, during feeding, the controller 8 first energizes and opens the electromagnetic valves 125 on the discharge pipes of the storage barrels 123 to discharge materials, the materials are mixed through the mixing component 124, and after the materials are uniformly mixed, the electromagnetic valves 125 on the feeding pipe 122 are energized, thereby achieving automatic feeding and reducing the workload of workers, and during the storage time, the storage can be stored in the storage barrels 123 only at regular time.

Wherein, compounding subassembly 124 includes driving motor 1241, driving motor 1241 fixed mounting is in the center at feeding box 121 top, feeding box 121's inside is provided with (mixing) shaft 1242, the top of (mixing) shaft 1242 and driving motor 1241's output fixed connection, a plurality of stirring vane 1243 of fixedly connected with on the (mixing) shaft 1242, controller 8 is with driving motor 1241 circular telegram operation, drive (mixing) shaft 1242 and stirring vane 1243 and rotate, can realize mixing the stirring of fodder.

Specifically, a material guide hopper 126 is arranged in the feeding box 121, a material discharge pipe of the material storage barrel 123 is located in the material guide hopper 126, the feeding pipe 122 is communicated with the material guide hopper 126, and feeding can be facilitated by the arrangement of the material guide hopper 126.

Specifically, breed and be provided with a plurality of light filling lamps 13 on the roof beam structure in room 1 inside, the top of breeding the 2 outsides in pond is provided with infiltration groove 14, and infiltration groove 14's left side intercommunication has the drain pipe, and infiltration groove 14's setting can prevent to breed the seepage when 2 interior water volumes are too much in the pond.

The utility model discloses in further scheme, this intelligence sea water plant still is equipped with and purifies detection automatic control device, including the automatic detecting system of sea water filtration purification, the poor water flow device of height can guarantee long flowing water, circulating water system, and the filtration repurification processing system is got rid of automatically to fish pond excrement and urine turbid thing, guarantees circulating water quality, effectively guarantees the aquaculture environment of marine product, improves the survival rate.

The working principle is as follows: according to the scheme, the temperature sensor 5 and the oxygen-containing detector detect water in the culture pond 2 in real time and transmit the water to the controller 8, when the water temperature in the culture pond 2 is low, the storage battery box 7 supplies energy to the heating wire 101 through the controller 8, at the moment, the heating wire 101 heats the water in the culture pond 2 until the water temperature reaches a set temperature, and when the water temperature is high, intelligent blending is performed in a mode of adding hot water and cold water, so that the optimal culture temperature required by marine product culture is ensured;

when the oxygen content detector detects that the oxygen content is insufficient, the controller 8 energizes the oxygenation pump 91 to enable oxygen in the air to enter the aquaculture water through the guide pipe 92 and the air holes of the aeration block 93 and to fully contact with the aquaculture water, so that the oxygen is blended into the water, the oxygen content is increased, and the growth requirement of marine products is met;

when feeding, the controller 8 firstly switches on the electromagnetic valve 125 on the discharge pipe of the storage cylinder 123 to discharge, and switches on the electromagnetic valve 125 on the feeding pipe 122 after various materials are collected in the feeding box 121 and mixed by the mixing component 124 and uniformly mixed, thereby realizing automatic feeding and reducing the workload of workers;

meanwhile, the servo motor 116 is electrified to operate through the controller 8, the threaded rod 113 is driven to rotate, and the limit of the guide rod 117 is matched, so that the moving block 112 moves back and forth, the feeding box 121 is driven to move back and forth, and fixed-point feeding at different positions is realized.

The above description is only the preferred embodiment of the present invention; the indoor modern intelligent seawater farm meets the requirement that factory culture is not influenced by weather and climate all the year round, and long running water is good in water quality and is the future development direction; the scope of protection of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the protection scope of the present invention by replacing or changing the technical solution and the modified concept of the present invention within the technical scope of the present invention.

Claims (8)

1. The utility model provides an indoor modernization intelligence sea water plant, includes breed room (1), its characterized in that: the utility model discloses a solar cultivation house, including breed room (1), water pump (3) and temperature sensor (5), be provided with breed pond (2) in breeding room (1), the right side of breeding room (1) is provided with intake pump (3), the play water end of intake pump (3) runs through and extends to in breeding pond (2), the left side of breeding room (1) is provided with out water pump (4), the end of drawing water that goes out water pump (4) runs through and extends to in breeding pond (2), be provided with temperature sensor (5) in breeding pond (2), the top of breeding room (1) is provided with a plurality of solar panel (6), the left side that just is located breeding pond (2) in breeding room (1) is provided with accumulator box (7), solar panel (6) and accumulator box (7) electric connection, the front of accumulator box (7) is provided with controller (8), controller (8) respectively with intake pump (3), play water pump (4) and temperature sensor (5) electric connection, one side of breeding pond (2) is provided with oxygen-containing and oxygenation mechanism (9), be provided with temperature regulation and regulation subassembly (10) in breeding pond (2), it throws material mechanism (11) and automatic throwing mechanism (11) and move to throw to be provided with the material mechanism (11) top and move.

2. The indoor modern intelligent seawater farm of claim 1, wherein: oxygenation mechanism (9) are including setting up oxygenation pump (91) in breeding pond (2) one side, the top fixed mounting of oxygenation pump (91) has pipe (92), the one end fixed mounting that oxygenation pump (91) were kept away from in pipe (92) has aeration piece (93), the bleeder vent has evenly been seted up in the outside of aeration piece (93), the inside wall fixed connection of one side and the breed pond (2) of aeration piece (93).

3. The indoor modern intelligent seawater farm of claim 1, wherein: the temperature regulation and control subassembly (10) includes heater strip (101) and heat conduction baffle (102), heat conduction baffle (102) are located the top of heater strip (101), the lateral surface of heat conduction baffle (102) and the inside wall fixed connection of heater strip (101).

4. The indoor modern intelligent seawater farm of claim 1, characterized in that: the moving mechanism (11) comprises a supporting plate (111), the automatic feeding mechanism (12) is arranged on the supporting plate (111), moving blocks (112) are fixedly connected to the left side and the right side of the supporting plate (111), threaded rods (113) in threaded connection with the moving blocks (112) are arranged on the two moving blocks (112) in a penetrating mode, fixed blocks (114) are rotatably connected to the front and the back of the two threaded rods (113), fixture blocks (115) are fixedly connected to the bottoms of the four fixed blocks (114), the four fixture blocks (115) are symmetrically clamped to the edges of the left side and the right side of the breeding pond (2) in a pairwise mode, servo motors (116) are fixedly mounted on the front of the two fixed blocks (114) close to the front of the breeding pond (2), output shafts of the two servo motors (116) are fixedly connected with the two threaded rods (113) respectively, guide rods (117) are arranged on the two moving blocks (112) and located at the bottoms of the threaded rods (113) in a penetrating mode, and the front and back ends of the guide rods (117) are fixedly connected with the fixed blocks (114) respectively.

5. The indoor modern intelligent seawater farm of claim 4, wherein: automatic throw material mechanism (12) including throwing workbin (121), the bottom intercommunication of throwing workbin (121) has throwing material pipe (122), it sets up on backup pad (111) to throw workbin (121), the bottom of throwing material pipe (122) is run through and is extended to the below of backup pad (111) and correspond with breed pond (2), the left and right sides of throwing workbin (121) is passed through bolt fixed mounting on backup pad (111), the top of throwing workbin (121) is provided with a plurality of storage barrels (123) that are cyclic annular evenly distributed, the discharging pipe of storage barrel (123) extends to the inside of throwing workbin (121), the middle part of throwing workbin (121) is provided with compounding subassembly (124), all be provided with solenoid valve (125) rather than the adaptation on the discharging pipe of throwing material pipe (122) and storage barrel (123), solenoid valve (125) and controller (8) electric connection.

6. The indoor modern intelligent seawater farm of claim 5, wherein: the mixing component (124) comprises a driving motor (1241), the driving motor (1241) is fixedly installed at the center of the top of the feeding box (121), a mixing shaft (1242) is arranged inside the feeding box (121), the top end of the mixing shaft (1242) is fixedly connected with the output end of the driving motor (1241), and a plurality of mixing blades (1243) are fixedly connected onto the mixing shaft (1242).

7. The indoor modern intelligent seawater farm of claim 5, wherein: a material guide hopper (126) is arranged in the feeding box (121), a material discharging pipe of the material storage barrel (123) is located in the material guide hopper (126), and the feeding pipe (122) is communicated with the material guide hopper (126).

8. The indoor modern intelligent seawater farm of claim 1, wherein: the cultivation room is characterized in that a plurality of light supplement lamps (13) are arranged on a beam frame inside the cultivation room (1), a water seepage groove (14) is arranged above the outer side of the cultivation pond (2), and a drainage pipe is communicated with the left side of the water seepage groove (14).

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