CN204120015U - A kind of giant salamander fry aquaculture water process and aeration system - Google Patents

Abstract

The utility model relates to the process of a kind of giant salamander fry aquaculture water and aeration system.Comprise upper water process control area and culturing pool region, downstream, described upper water process control area comprises oxygen increasing tube, air decompression, air heat rod, aerator, electric control box and control circuit at the bottom of water pump/magnetic valve, pressure sensor, filter, activated carbon filtration pond, tank, boiler electricity magnet valve, boiler circulating hot water pipe, fin, boiler circulating water pipe, auxiliary electric heater unit, level sensor, cooling-water temperature sensor, tank; Described culturing pool region, downstream comprises tank outlet pipe, seedling culturing pool, seedling cultivation frame, main oxygen increasing tube; This system is applicable to the giant salamander cultivation of underground dark, sombre environment, water circulation in system can be promoted, by adding gentleness to the water in miniflow water pipe, air is heated and can be formed independent warm area in cultivation frame, there is provided oxygen by aerator to bottom culturing pool, the water that seedling is cultivated in frame reaches sufficient dissolved oxygen.

Description

A kind of giant salamander fry aquaculture water process and aeration system

technical field

The utility model relates to a kind of aquaculture system, particularly relates to the process of a kind of giant salamander fry aquaculture water and aeration system.

background technology

In giant salamander cultivation field, seedling becomes fry to (general 8-12 month) during this period of time of growth matter 15cm, to water quality requirement from hatch fish roe, water temperature, dissolved oxygen, feeds etc. all have higher requirements, and each link has a strong impact on the survival rate of seedling and lifelong growth efficiency; Common seedling cultivating system well cannot meet its above-mentioned condition, and water temperature change is excessive and dissolved oxygen is not enough can cause seedling stress reaction greatly, has a strong impact on physique and the growth efficiency of seedling.

Summary of the invention

In view of above-mentioned Problems existing, the purpose of this utility model is to provide the process of a kind of giant salamander fry aquaculture water and aeration system, this system can promote water circulation in system, by adding gentleness to the water in miniflow water pipe, air is heated and can be formed independent warm area in cultivation frame, simultaneously, there is provided oxygen by aerator to bottom culturing pool, the water that seedling is cultivated in frame reaches sufficient dissolved oxygen.

To achieve these goals, the technical scheme that the utility model adopts is: the process of a kind of giant salamander fry aquaculture water and aeration system, it is characterized in that comprising upper water process control area and culturing pool region, downstream, described upper water process control area comprises water pump/magnetic valve, pressure sensor, filter, activated carbon filtration pond, tank, boiler electricity magnet valve, boiler circulating hot water pipe, fin, boiler circulating water pipe, auxiliary electric heater unit, level sensor, cooling-water temperature sensor, oxygen increasing tube at the bottom of tank, air decompression, connecting water pipe, air heat rod, aerator, electric control box and control circuit, described culturing pool region, downstream comprises tank outlet pipe, seedling culturing pool, seedling cultivation frame, culturing pool temperature sensor and main oxygen increasing tube, upper water process control area axial direction is provided with water source connecting water pipe, water source connecting water pipe is connected with water pump/magnetic valve, water pump/magnetic valve other end is connected with pressure sensor by water pipe, the pressure sensor other end is connected to filter, be connected with two activated carbon filtration ponds by water pipe through filter, lower end, two activated carbon filtration ponds, upper end is respectively equipped with water pipe, and top and bottom separately water pipe are equipped with valve between two activated carbon filtration ponds, water flow in tank by activated carbon filtration pond, upper end, activated carbon filtration pond is connected to the upper end of tank side by water pipe, in tank, lower end position is provided with fin, fin side is connected by boiler circulating hot water pipe, opposite side connects boiler circulating water pipe, boiler circulating hot water pipe is provided with boiler electricity magnet valve, in tank, fin both sides are each respectively arranges an auxiliary electric heater unit, be connected by water pipe between two described auxiliary electric heater units, level sensor is provided with in the tank of boiler circulating hot water pipe side, space is provided with bottom described level sensor and tank, and be divided into end sensor and lower end sensor, cooling-water temperature sensor is provided with in the tank of boiler circulating water pipe side, oxygen increasing tube at the bottom of tank is also provided with at tank bottommost, oxygen increasing tube at the bottom of tank is drawn tank outside and is connected with main oxygen increasing tube, main oxygen increasing tube top is connected with air heat rod, the air heat rod other end is connected on aerator, main oxygen increasing tube lower end extends to the seedling cultivation frame in culturing pool region, downstream, described seedling cultivation frame is arranged in seedling culturing pool, culturing pool temperature sensor is provided with in cultivation frame, water pipe between bottom two auxiliary electric heater units is provided with tank outlet pipe, draw water pipe at tank outlet pipe and be connected to seedling cultivation frame, also electric control box is provided with in upper water process control area, described water pump/magnetic valve, pressure sensor, culturing pool temperature sensor, auxiliary electric heater unit, level sensor, cooling-water temperature sensor, air heat rod, aerator, boiler electricity magnet valve is connected to electric control box by control circuit respectively.

Two described activated carbon filtration pond open topped, bottom is provided with galvanized wire framework, and the active carbon bag of non-woven fabrics pack is positioned on galvanized wire framework.

Described galvanized wire framework is the cavity structure of 30 centimeters.

Described culturing pool region, downstream has at least one by the culturing pool unit cultivating frame and form.

Described a kind of giant salamander fry aquaculture water process and aeration system adopt the auxiliary electric heater unit with duality, heat or the boiler hot-water water do not reached when setting requires after assisted heating device heating of heating flows directly into seedling culturing pool not using boiler hot-water.

The course of work and action principle:

Water is pumped into water pipe from water pump, water pump is controlled to open by the water pump in electric control box or solenoid control circuit, current are in water pipe, through pressure sensor, pressure sensor controls through the holding wire of electric control box, as discharge reduces, pressure sensor provides signal, enter after adjustment pressure and be filter and filter, water after filtration enters into activated carbon filtration pond, the filtration of the active carbon bag in activated carbon filtration pond on galvanized wire framework, flow in tank after twice filtering ponds filters, water level in tank is controlled by level sensor, level sensor is divided into two-way, upper end sensor is responsible for 100% to 80% water level, lower than opening water pump or magnetic valve during 80% water level, bottom sensor is water level insurance, lower than giving a warning during 30% water level and all heater stop work, water temperature in tank is supplied by boiler circulatory system, the boiler circulating hot water solenoid control circuit controlled in electric control box controls in boiler, hot water flows into fin from boiler circulating hot water pipe, hot water flows through fin and heats the water in tank, after release heat, cold water in fin is discharged from boiler circulating water pipe, boiler water cycle is formed with this, water temperature simultaneously in tank is controlled by cooling-water temperature sensor, need to control boiler circulating hot water magnetic valve according to water temperature, if boiler hot-water circulation is broken down and not to be used or boiler hot-water is heated and do not reached setting when requiring, open auxiliary electric heater unit, controlled by auxiliary electrical heater control circuit in electric control box, after heating, water flows out from the standpipe bottom assisted heating device, flow in the cultivation frame in the culturing area of downstream, also air is heated in upper water process control area, electric control box oxygenation control circuit controls aerator, oxygenation in aerator, the oxygen blown out in aerator enters into air heat rod, electric control box controls air heat rod and heats, air through heating enters in main oxygen increasing tube, hot-air enters into seedling cultivation frame respectively by main oxygen increasing tube, simultaneously, aerator produces unnecessary air, and to be incorporated into tank oxygen increasing tube by relief tube be oxygenation bottom tank, culturing pool temperature sensor and backup sensors is provided with in the cultivation frame of seedling culturing pool, to play safety effect, when temperature exceedes setting value, then stop all firing equipment work, and send warning.

The beneficial effects of the utility model are: this system is the giant salamander cultivation being applicable to underground dark, sombre environment, water circulation in system can be promoted, by adding gentleness to the water in miniflow water pipe, air is heated and can be formed independent warm area in cultivation frame, simultaneously, there is provided oxygen by aerator to bottom culturing pool, the water that seedling is cultivated in frame reaches sufficient dissolved oxygen.

Accompanying drawing explanation

Fig. 1 is water treatment of the present utility model and aeration system structural representation.

In figure, 1, water pump/magnetic valve, 2, pressure sensor, 3, filter, 4, activated carbon filtration pond, 5, tank, 6, boiler electricity magnet valve, 7, boiler circulating hot water pipe, 8, fin, 9, boiler circulating water pipe, 10, auxiliary electric heater unit, 11, level sensor, 12, cooling-water temperature sensor, 13, oxygen increasing tube at the bottom of tank, 14, air decompression, 15, connecting water pipe, 16, air heat rod, 17, aerator, 18, electric control box, 19, control circuit, 20, tank outlet pipe, 21, seedling culturing pool, 22, seedling cultivation frame, 23, culturing pool temperature sensor, 24, main oxygen increasing tube.

Embodiment

Below in conjunction with accompanying drawing, system of the present utility model is described in detail.

A kind of giant salamander fry aquaculture water process and aeration system, it is characterized in that comprising upper water process control area and culturing pool region, downstream, described upper water process control area comprises water pump/magnetic valve 1, pressure sensor 2, filter 3, activated carbon filtration pond 4, tank 5, boiler electricity magnet valve 6, boiler circulating hot water pipe 7, fin 8, boiler circulating water pipe 9, auxiliary electric heater unit 10, level sensor 11, cooling-water temperature sensor 12, oxygen increasing tube 13 at the bottom of tank, air decompression 14, connecting water pipe 15, air heat rod 16, aerator 17, electric control box 18 and control circuit 19, described culturing pool region, downstream comprises tank outlet pipe 20, seedling culturing pool 21, seedling cultivation frame 22, culturing pool temperature sensor 23 and main oxygen increasing tube 24,

Water is pumped into water pipe from water pump 1, water pump 1 is controlled to open by the water pump in electric control box 18 or solenoid control circuit, if water source is higher than being magnetic valve during existing water tank herein, if water source lower than existing water pump or flow of inlet water inadequate time use water pump, current are in water pipe, through pressure sensor 2, pressure sensor 2 controls through the holding wire of electric control box 18, as discharge reduces, pressure sensor 2 provides signal, enter after adjustment pressure and be filter 3 and filter, water after filtration enters into activated carbon filtration pond 4, the filtration of the active carbon bag in activated carbon filtration pond 4 on galvanized wire framework, flow in tank 5 after twice filtering ponds filters, water level in tank 5 is controlled by level sensor 11, level sensor 11 is divided into two-way, upper end sensor is responsible for 100% to 80% water level, lower than opening water pump or magnetic valve 1 during 80% water level, bottom sensor is water level insurance, lower than giving a warning during 30% water level and all heater stop work, water temperature in tank 5 is supplied by boiler circulatory system, the boiler circulating hot water solenoid control circuit controlled in electric control box 18 controls boiler heating, hot water flows into fin 8 from boiler circulating hot water pipe 7, the water that hot water flows through in fin 8 pairs of tanks 5 heats, after release heat, cold water in fin 8 is discharged from boiler circulating water pipe 9, boiler water cycle is formed with this, water temperature simultaneously in tank 5 is controlled by cooling-water temperature sensor 12, need to control boiler circulating hot water magnetic valve 6 according to water temperature, if boiler hot-water circulation is broken down and not to be used or boiler hot-water is heated and do not reached setting when requiring, open auxiliary electric heater unit 10, controlled by auxiliary electrical heater control circuit in electric control box, after heating, water flows out from the outlet pipe 20 bottom assisted heating device 10, flow in the cultivation frame 22 in the culturing area of downstream, also air is heated in upper water process control area, electric control box oxygenation control circuit controls aerator 17, oxygenation in aerator 17, in aerator 17, the oxygen of blowout enters into air heat rod 16, electric control box controls air heat rod 16 and heats, air through heating enters in main oxygen increasing tube 24, hot-air enters into seedling cultivation frame 22 respectively by main oxygen increasing tube 24, simultaneously, aerator 17 produces unnecessary air and is incorporated into tank oxygen increasing tube 13 for oxygenation bottom tank 5 by air decompression 14 pressure release, culturing pool temperature sensor 23 and backup sensors is provided with in the cultivation frame 22 of seedling culturing pool 21, to play safety effect, when temperature exceedes setting value, then stop all firing equipment work, and send warning.

Claims (4)

1. giant salamander fry aquaculture water process and aeration system, it is characterized in that comprising upper water process control area and culturing pool region, downstream, described upper water process control area comprises oxygen increasing tube, air decompression, connecting water pipe, air heat rod, aerator, electric control box and control circuit at the bottom of water pump/magnetic valve, pressure sensor, filter, activated carbon filtration pond, tank, boiler electricity magnet valve, boiler circulating hot water pipe, fin, boiler circulating water pipe, auxiliary electric heater unit, level sensor, cooling-water temperature sensor, tank, described culturing pool region, downstream comprises tank outlet pipe, seedling culturing pool, seedling cultivation frame, culturing pool temperature sensor and main oxygen increasing tube, upper water process control area axial direction is provided with water source connecting water pipe, water source connecting water pipe is connected with water pump/magnetic valve, water pump/magnetic valve other end is connected with pressure sensor by water pipe, the pressure sensor other end is connected to filter, be connected with two activated carbon filtration ponds by water pipe through filter, lower end, two activated carbon filtration ponds, upper end is respectively equipped with water pipe, and top and bottom separately water pipe are equipped with valve between two activated carbon filtration ponds, water flow in tank by activated carbon filtration pond, upper end, activated carbon filtration pond is connected to the upper end of tank side by water pipe, in tank, lower end position is provided with fin, fin side is connected by boiler circulating hot water pipe, opposite side connects boiler circulating water pipe, boiler circulating hot water pipe is provided with boiler electricity magnet valve, in tank, fin both sides are each respectively arranges an auxiliary electric heater unit, be connected by water pipe between two described auxiliary electric heater units, level sensor is provided with in the tank of boiler circulating hot water pipe side, space is provided with bottom described level sensor and tank, and be divided into end sensor and lower end sensor, cooling-water temperature sensor is provided with in the tank of boiler circulating water pipe side, oxygen increasing tube at the bottom of tank is also provided with at tank bottommost, oxygen increasing tube at the bottom of tank is drawn tank outside and is connected with main oxygen increasing tube, main oxygen increasing tube top is connected with air heat rod, the air heat rod other end is connected on aerator, main oxygen increasing tube lower end extends to the seedling cultivation frame in culturing pool region, downstream, described seedling cultivation frame is arranged in seedling culturing pool, culturing pool temperature sensor is provided with in cultivation frame, water pipe between bottom two auxiliary electric heater units is provided with tank outlet pipe, draw water pipe at tank outlet pipe and be connected to seedling cultivation frame, also electric control box is provided with in upper water process control area, described water pump/magnetic valve, pressure sensor, culturing pool temperature sensor, auxiliary electric heater unit, level sensor, cooling-water temperature sensor, air heat rod, aerator, boiler electricity magnet valve is connected to electric control box by control circuit respectively.

2. a kind of giant salamander fry aquaculture water according to claim 1 process and aeration system, it is characterized in that two described activated carbon filtration pond open topped, bottom is provided with galvanized wire framework, and the active carbon bag of non-woven fabrics pack is positioned on galvanized wire framework.

3. a kind of giant salamander fry aquaculture water according to claim 2 process and aeration system, is characterized in that described galvanized wire framework is cavity structure.

4. a kind of giant salamander fry aquaculture water according to claim 1 process and aeration system, is characterized in that described culturing pool region, downstream has at least one by the culturing pool unit cultivating frame and form.