CN115606533A - Low-carbon sea cucumber seedling raising mode system - Google Patents

Abstract

The invention discloses a low-carbon sea cucumber seedling raising mode system, which belongs to the technical field of aquaculture and comprises a plurality of culture ponds, wherein a dividing wall type heat exchanger is arranged on one side of each culture pond, water pipes are arranged on the dividing wall type heat exchanger and correspond to the plurality of culture ponds, a reservoir is arranged below the culture ponds, a first water pump is arranged on one side of the reservoir, which is close to the culture ponds, a first valve is arranged on a liquid inlet end of the first water pump and corresponds to the culture ponds, and a second valve is arranged on a liquid inlet end of the first water pump and corresponds to the reservoir; by arranging the structures such as the dividing wall type heat exchanger, the system has the functions of low carbon, high efficiency, controllable light, controllable pH, controllable dissolved oxygen, controllable circulating water flow rate, energy conservation and environmental protection of ultraviolet sterilization and disinfection and resource recycling, thereby improving the practicability of the system.

Description

Low-carbon sea cucumber seedling raising mode system

Technical Field

The invention belongs to the technical field of aquaculture, and particularly relates to a low-carbon sea cucumber seedling raising mode system.

Background

The general term of aquatic products, animals or algae produced in oceans, rivers and lakes, and the general term of related service or processing industries. Such as: aquatic product processing, aquatic product medicine, aquatic product export trade, ornamental aquatic product and the like.

The prior art has the following problems: 1. most of the existing sea cucumber seedling raising mode systems have the problems of low environmental protection, inconvenient adjustment of water flow rate, dissolved oxygen and the like, so that the practicability of the system is reduced; 2. most of the existing sea cucumber seedling raising mode systems have the problem that the position of a solar cell panel is inconvenient to move, so that the convenience of the system is reduced.

Disclosure of Invention

To solve the problems raised in the background art described above. The invention provides a low-carbon sea cucumber seedling raising mode system which has the characteristics of high practicability and strong convenience.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a low carbon sea cucumber mode system of growing seedlings, is including breeding the pond, it is provided with a plurality ofly to breed the pond, the top of breeding the pond is provided with a plurality of LED lamps, one side of breeding the pond is provided with the dividing wall type heat exchanger, install the water pipe, a plurality of with a plurality of corresponding positions of breeding the pond on the dividing wall type heat exchanger the below of breeding the pond is provided with the cistern, the cistern is close to one side of a plurality of ponds of breeding and installs first water pump, serve with a plurality of corresponding positions of breeding the pond on the feed liquor of first water pump and install first valve, breed and serve with the corresponding position of cistern and install the second valve, breed and seted up the outlet with the corresponding position of first water pump on the pond, one side that a plurality of cisterns were kept away from to the dividing wall type heat exchanger is provided with electric hot-water boiler, the second water pump is installed to the top of electric hot-water boiler, install the third valve with the corresponding position of second water pump on the water pipe, install the fourth valve with the corresponding position of second water pump and the second water pump, one side of keeping away from the dividing wall type heat exchanger is provided with the biological hot-water pump, the biological energy water pump is provided with the biological energy water tank, the solar cell panel is provided with the solar cell panel, the solar cell panel is connected in the solar cell panel, the solar cell panel is connected to be connected to the biological water tank, the solar cell panel is connected the solar cell panel, the solar cell panel is connected to be connected to the solar cell panel.

Preferably, a filter screen is arranged on the inner side of the liquid inlet end of the second water pump.

Preferably, a sewage collecting pool is arranged below the dividing wall type heat exchanger and at a position on one side of the water storage pool.

Preferably, an ultraviolet disinfection device is installed on one side, close to the foam separator, of the electric hot water boiler, and the foam separator is connected with the ultraviolet disinfection device through a third water pump.

Preferably, the lower end of the water inlet pipe is provided with a water valve.

Preferably, the biological tank is connected with the water main through a carbon dioxide degassing tank.

Preferably, the mobile device is installed to solar cell panel's below, the mobile device is including removing wheel, backup pad, bracing piece and bottom plate, the bottom plate is installed to solar cell panel's below, two bracing pieces are installed to the below of bottom plate, two the backup pad is installed to the below of bracing piece, a plurality of removal wheels are installed to the below of backup pad.

Preferably, the outside of backup pad is provided with removes the frame, the lead screw is installed through the bearing in the top of backup pad and the position that is located bottom plate one side, the knob is installed to the top of lead screw.

Preferably, the cross section of the inner side of the moving frame is the same as the cross section of the outer side of the support plate.

Compared with the prior art, the invention has the beneficial effects that:

1. by arranging the structures such as the dividing wall type heat exchanger, the system has the functions of low carbon, high efficiency, controllable light, controllable pH, controllable dissolved oxygen, controllable circulating water flow rate, energy conservation and environmental protection of ultraviolet sterilization and disinfection and resource recycling, thereby improving the practicability of the system.

2. According to the invention, through arranging the moving device, the worker can move the position of the solar cell panel through the moving wheel when needed, so that the position of the sun can be better adapted or the requirements of other aspects can be met, and the convenience of the system is further improved.

Drawings

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

FIG. 2 is a perspective view of the mobile device of the present invention;

fig. 3 is a schematic structural diagram of a mobile device according to the present invention.

In the figure: 1. a culture pond; 2. a water inlet pipe; 3. a water valve; 4. a water discharge port; 5. an LED lamp; 6. a first valve; 7. a second valve; 8. a reservoir; 9. a sewage collecting tank; 10. a first water pump; 11. a third valve; 12. a fourth valve; 13. a dividing wall type heat exchanger; 14. a filter screen; 15. a second water pump; 16. an electric water boiler; 17. a third water pump; 18. an ultraviolet ray sterilizing device; 19. a foam separator; 20. a jet pump; 21. a biological tank; 22. an aeration disc; 23. an air pump; 24. a carbon dioxide degassing tank; 25. a water main; 26. a solar panel; 27. a circuit; 28. a water pipe; 29. a mobile device; 291. a knob; 292. a screw rod; 293. moving the frame; 294. a moving wheel; 295. a support plate; 296. a support bar; 297. a base plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-3, the present invention provides the following technical solutions: the utility model provides a low carbon sea cucumber mode of growing seedlings system, including breeding pond 1, breeding pond 1 is provided with a plurality ofly, the top of breeding pond 1 is provided with a plurality of LED lamps 5, one side of breeding pond 1 is provided with dividing wall type heat exchanger 13, water pipe 28 is installed with a plurality of corresponding positions of breeding pond 1 on the dividing wall type heat exchanger 13, a plurality of below of breeding pond 1 is provided with cistern 8, cistern 8 is close to one side of a plurality of breeding ponds 1 and installs first water pump 10, install first valve 6 with a plurality of corresponding positions of breeding pond 1 on the inlet port of first water pump 10, install second valve 7 with the corresponding position of cistern 8 on the inlet port of first water pump 10, the outlet 4 has been seted up with the corresponding position of first water pump 10 on breeding pond 1, one side that a plurality of breeding ponds 8 were kept away from to dividing wall type heat exchanger 13 is provided with electric hot water boiler 16, second water pump 15 is installed to the top of electric hot water boiler 16, install third door 11 with the corresponding position of second water pump 15 on the water pipe 28, the water pump 21 is provided with the corresponding position of second water pump 15, it has the three water pipes 19 and installs the biological water pipe 21 and carries out the biological water separator of the biological water pipe of the three water pipes of solar cell panel 21, it is provided with the three solar water pipes 19 and the biological water separator 21 that the solar cell panel 21 is provided with the biological water separator 21 that the solar cell separator 21 is provided with the three electric heater 21 and the biological water heater 21 that the biological water separator 21 is provided with the biological water trap 21 that the biological water heater 21.

Specifically, a filter screen 14 is arranged on the inner side of the liquid inlet end of the second water pump 15,

through adopting above-mentioned technical scheme for liquid through second water pump 15 can obtain certain filtration.

Specifically, a sewage collecting tank 9 is arranged at the position below the dividing wall type heat exchanger 13 and at one side of the water storage tank 8,

through adopting above-mentioned technical scheme for sewage can be effectively collected.

Specifically, an ultraviolet disinfection device 18 is arranged on one side of the electric water boiler 16 close to the foam separator 19, the foam separator 19 is connected with the ultraviolet disinfection device 18 through a third water pump 17,

through adopting above-mentioned technical scheme for liquid can obtain certain disinfection.

Specifically, the lower end of the water inlet pipe 2 is provided with a water valve 3,

through adopting above-mentioned technical scheme for the staff can control the velocity of flow of liquid.

Specifically, the biological tank 21 is connected with the water main 25 through a carbon dioxide degassing tank 24,

by adopting the technical scheme, the pH value of the liquid can be adjusted to a certain extent.

When the device is used, when the device works, the water valve 3 above the culture pond 1 is opened, purified circulating water can be provided for the culture pond 1 through the water inlet pipe 2, the water valve 3 can automatically adjust the flow rate of water, the water outlet 4 is arranged below the culture pond 1, about ten percent of culture wastewater is discharged to the dividing wall type heat exchanger 13 through the first water pump 10, the culture wastewater enters the dividing wall type heat exchanger 13, fresh water with the same volume in the water storage tank 8 is injected into the dividing wall type heat exchanger 13 through the first water pump 10 for heat exchange, the culture wastewater treated by the dividing wall type heat exchanger 13 is directly discharged into the sewage collection tank 9, the fresh water heated by the dividing wall type heat exchanger 13 and ninety percent of culture water bodies in the culture pond 1 which can be reused are extracted through the second water pump 15, filtered by the filter screen 14 and then enter the electric water heating boiler 16 together for carbon-free electric heating of water bodies, the third water pump 17 pumps the heated water body into the foam separator 19 from the lower end, in the period, the heated water body passes through the ultraviolet disinfection device 18, the jet pump 20 adheres dirt in the foam separator 19 on the surface of bubbles through the air flotation effect of a large number of rising bubbles, the bubbles are conveyed to the top end of the foam separator 19 for separation, then water flow enters a biological tank 21 for distributing biological fillers, an aeration disc 22 is arranged in the biological tank 21, continuous aeration is provided by an air pump 23 at the top end, the water after biological filtration enters a carbon dioxide degassing tank 24 for regulating and controlling the pH value, finally the water flow returns to a main water pipe 25, fresh circulating water is provided for a water valve 3, the whole circulation is completed, and the work is further carried out, electric energy is provided by outdoor solar panels 26 for power consumption equipment such as the LED lamp 5, the dividing wall type heat exchanger 13 and the like, and the utilization of green energy, low carbon, environmental protection and environmental protection are realized, the circuit 27 functions to transmit current, and the first valve 6, the second valve 7, the third valve 11 and the fourth valve 12 function to manipulate the water flow;

example 2

The present embodiment is different from embodiment 1 in that: the moving device 29 is installed below the solar cell panel 26, the moving device 29 includes moving wheels 294, support plates 295, support bars 296, and a bottom plate 297, the bottom plate 297 is installed below the solar cell panel 26, two support bars 296 are installed below the bottom plate 297, the support plates 295 are installed below the two support bars 296, a plurality of moving wheels 294 are installed below the support plates 295,

by adopting the technical scheme, the worker can move the position of the solar cell panel 26 through the moving wheel 294 when needed, so that the position of the sun can be better adapted or other requirements can be met.

Specifically, a moving frame 293 is provided outside the supporting plate 295, a screw 292 is mounted above the supporting plate 295 and at a position on one side of the bottom plate 297 through a bearing, a knob 291 is mounted above the screw 292,

by adopting the technical scheme, the system can prevent the solar cell panel 26 from moving when needed.

Specifically, the cross section of the inner side of the moving frame 293 is the same as the cross section of the outer side of the support plate 295,

by adopting the above technical scheme, the phenomenon of shaking and shifting in the movement of the moving frame 293 is prevented.

When this embodiment is used, when the position of solar cell panel 26 needs to be moved, knob 291 in mobile device 29 is rotated, thereby drive lead screw 292 to rotate, and then drive and remove frame 293 to rise and leave ground, then promote solar cell panel 26, make it remove solar cell panel 26 to the assigned position through removal wheel 294 of backup pad 295 below, reverse rotation knob 291, thereby drive and remove frame 293 to descend, and then make and remove frame 293 and butt ground again, the removal finishes, bracing piece 296 and bottom plate 297 have played the effect of supporting the connection.

The working principle and the using process of the invention are as follows: when the device works, the water valve 3 above the culture pond 1 is opened, purified circulating water can be provided for the culture pond 1 through the water inlet pipe 2, the flow rate of the water can be automatically adjusted through the water valve 3, the water outlet 4 is arranged below the culture pond 1, about ten percent of culture wastewater is discharged to the dividing wall type heat exchanger 13 through the first water pump 10, the culture wastewater enters the dividing wall type heat exchanger 13, the same volume of fresh water in the water storage tank 8 is injected into the dividing wall type heat exchanger 13 through the first water pump 10 for heat exchange, the culture wastewater treated by the dividing wall type heat exchanger 13 is directly discharged into the sewage collection tank 9, the fresh water heated by the dividing wall type heat exchanger 13 and ninety percent of culture water in the culture pond 1 can be pumped through the second water pump 15, the fresh water and the culture water are filtered by the filter screen 14 and then enter the electric water boiler 16 together for carbon-free electric heating of water, the heated water is pumped into the foam separator 19 from the lower end through the third water pump 17, during the process, the dirt in the foam separator 19 is adhered to the surface of bubbles through the air flotation effect of a large amount of rising bubbles by the ultraviolet disinfection device 18 and the jet pump 20, the bubbles are conveyed to the top end of the foam separator 19 for separation, then water flow enters the biological tank 21 for distributing biological fillers, the aeration disc 22 is arranged in the biological tank 21, continuous aeration is provided by the air pump 23 at the top end, the water after biological filtration enters the carbon dioxide degassing tank 24 for regulating and controlling pH, finally the water flow returns to the water main 25 for providing fresh circulating water for the water valve 3 to complete the whole circulation, and then the work is carried out, electric energy is provided by outdoor solar panels 26 for power consumption equipment such as the LED lamp 5 and the dividing wall type heat exchanger 13, the utilization of green energy, the low carbon and environmental protection are realized, the environment is protected, and the circuit 27 plays a role of transmitting current, the first valve 6, the second valve 7, the third valve 11 and the fourth valve 12 play a role in controlling water flow; when the position of solar cell panel 26 needs to be moved, knob 291 in mobile device 29 is rotated, thereby lead screw 292 is driven to rotate, and then movable frame 293 is driven to ascend away from the ground, then solar cell panel 26 is pushed, so that solar cell panel 26 is moved to a specified position through movable wheel 294 below supporting plate 295, knob 291 is rotated reversely, thereby movable frame 293 is driven to descend, and further movable frame 293 is enabled to abut against the ground again, the movement is completed, supporting rod 296 and bottom plate 297 play a role in supporting connection.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a low carbon sea cucumber mode system of growing seedlings, includes breed pond (1), its characterized in that: the improved aquaculture pond is characterized in that the aquaculture pond (1) is provided with a plurality of LED lamps (5), one side of the aquaculture pond (1) is provided with a dividing wall type heat exchanger (13), water pipes (28) are installed at positions corresponding to the multiple aquaculture ponds (1) on the dividing wall type heat exchanger (13), a plurality of reservoirs (8) are arranged below the aquaculture pond (1), a first water pump (10) is installed at one side, close to the multiple aquaculture ponds (1), of the reservoirs (8), a first valve (6) is installed at a position, corresponding to the multiple aquaculture ponds (1), on a liquid inlet end of the first water pump (10), a second valve (7) is installed at a position, corresponding to the reservoir (8), on the aquaculture pond (1), a water outlet (4) is formed at a position, corresponding to the first water pump (10), on the dividing wall type heat exchanger (13), one side, far away from the multiple reservoirs (8), is provided with an electric water boiler (16), a second water pump (15) is installed above the electric boiler (16), a position, a water outlet (15) is formed at a position, corresponding to the second water pump (28) and a position, a second water pipe (11) corresponding to the third water pump (11) and a fourth valve (11) are installed on the water pump (11), one side that electric hot water boiler (16) kept away from dividing wall type heat exchanger (13) is provided with foam separator (19), one side that electric hot water boiler (16) was kept away from in foam separator (19) is provided with biological jar (21), connect through jet pump (20) between foam separator (19) and biological jar (21), aeration dish (22) are installed to biological jar (21) position that is close to the bottom, air pump (23) are installed to the top of biological jar (21), the outside of air pump (23) is provided with water main (25), install a plurality of inlet tubes (2) with a plurality of corresponding positions in breed pond (1) on water main (25), the front side of electric hot water boiler (16) is provided with two solar cell panel (26), two install circuit (27) on solar cell panel (26).

2. The low-carbon sea cucumber raising mode system as claimed in claim 1, wherein the system comprises: and a filter screen (14) is arranged on the inner side of the liquid inlet end of the second water pump (15).

3. The low-carbon sea cucumber seedling raising mode system as claimed in claim 1, characterized in that: and a sewage collecting tank (9) is arranged below the dividing wall type heat exchanger (13) and at the position on one side of the water storage tank (8).

4. The low-carbon sea cucumber raising mode system as claimed in claim 1, wherein the system comprises: an ultraviolet disinfection device (18) is installed on one side, close to the foam separator (19), of the electric hot water boiler (16), and the foam separator (19) is connected with the ultraviolet disinfection device (18) through a third water pump (17).

5. The low-carbon sea cucumber raising mode system as claimed in claim 1, wherein the system comprises: and a water valve (3) is installed at the lower end of the water inlet pipe (2).

6. The low-carbon sea cucumber raising mode system as claimed in claim 1, wherein the system comprises: the biological tank (21) is connected with the water main (25) through a carbon dioxide degassing tank (24).

7. The low-carbon sea cucumber raising mode system as claimed in claim 1, wherein the system comprises: a moving device (29) is installed below the solar cell panel (26), the moving device (29) comprises moving wheels (294), a supporting plate (295), supporting rods (296) and a bottom plate (297), the bottom plate (297) is installed below the solar cell panel (26), two supporting rods (296) are installed below the bottom plate (297), the supporting plate (295) is installed below the two supporting rods (296), and a plurality of moving wheels (294) are installed below the supporting plate (295).

8. The low-carbon sea cucumber seedling raising mode system as claimed in claim 7, characterized in that: the outside of backup pad (295) is provided with removes frame (293), lead screw (292) are installed through the bearing in the top of backup pad (295) and the position that is located bottom plate (297) one side, knob (291) are installed to the top of lead screw (292).

9. The low-carbon sea cucumber raising mode system as claimed in claim 8, wherein: the cross section of the inner side of the moving frame (293) is the same as the cross section of the outer side of the supporting plate (295).

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