CN203851628U - Circulating water supply system for indoor tilapia culturing ponds - Google Patents

Abstract

The utility model relates to tilapia culturing technology, in particular to a circulating water supply system for indoor tilapia culturing ponds. The circulating water supply system comprises a water incoming storage tank communicated with the culturing ponds through water incoming branched pipes, and a water outgoing branched pipe arranged at the bottom of each culturing pond, the water incoming branched pipes are communicated with a water incoming main pipe which is communicated with the water incoming storage tank, the water outgoing branched pipes are communicated with a water outgoing main pipe which is communicated with a filtering pond, the filtering pond is communicated with a heating tank with an electric heater mounted inside through a connecting pipe I, the heating tank is communicated with the water incoming storage tank through a connecting pipe II, a battery valve I whose opening and closing are controlled by a control cabinet is arranged on the connecting pipe II, a battery valve II whose opening and closing are controlled by the control cabinet is arranged on a water incoming pipe, and a temperature detector II is mounted on the water incoming storage tank. Due to the structure, the circulating water supply system has the advantages that consumption of water sources is lowered, production efficiency is improved, and culturing cost is lowered.

Description

Tilapia mossambica indoor culture pond circulating water supply system

Technical field

The utility model relates to Tilapia mossambica cultural technique, especially a kind of Tilapia mossambica indoor culture pond circulating water supply system that reduces water resources consumption, enhances productivity and reduce aquaculture cost.

Background technology

Tilapia mossambica is tropic fishes, originates in Africa.They are eurysaline fishes, can live in fresh water, can in seawater, live again.Tilapia mossambica has stronger adaptive capacity to low dissolved oxygen environment, even if leaving water is moistening as long as gill portion keeps, can also survive 3～5 hours, all stronger than the hypoxia-resistant capacity of general cyprinid fish.Therefore, Tilapia mossambica, the in the situation that of dense stocking, also can survive in the more fertile pond environment of water quality, does not affect its Growth and reproduction.Tilapia mossambica feeding habits are very wide, are a kind of taking vegetable feed as main ominivore-fish, and very voracious, and food ration is also large.Growth temperature is 13～38 DEG C, and optimum growth temperature is 25～35 DEG C.

Due to the habit of growth of Tilapia mossambica, existing people, by indoor culture, make in the short period of time Tilapia mossambica to be cultivated to adult fish from fry.Even indoor, also need to heat winter to the water in culturing pool, and again need cooling to the water in culturing pool summer.After adopting boiler that water is heated when prior art is heated, be delivered to culturing pool, when cooling, directly in culturing pool, add suitable ice cube.In feeding process, the concentration of oxygen in water gas reduces with the growth of Tilapia mossambica seedling, because the concentration of water oxygen gas eaten the nitrogen that contains in the ight soil that the residue of rear formation and Tilapia mossambica discharge etc. and all can greatly reduce by the feed of throwing in by Tilapia mossambica, cause Growth Op Tilapia slow or dead.Lethality is high, causes production efficiency low.For ensureing water quality, the method for existing employing is to refresh the water periodically in some cycles, and the demand of water resource is quite large, has also improved aquaculture cost.

In sum, the problem that the efficiency indoor culture of prior art exists is that lethality is high, causes production efficiency low, and water resources consumption is serious.

Summary of the invention

The purpose of this utility model is to provide a kind of Tilapia mossambica indoor culture pond circulating water supply system that reduces water resources consumption, enhances productivity and reduce aquaculture cost.

For achieving the above object and the technical scheme adopting is such, i.e. a kind of Tilapia mossambica indoor culture pond circulating water supply system, comprises the water inlet storage bin being communicated with by water inlet pipe with culturing pool, is arranged on the exit branch bottom culturing pool; Wherein:

Described water inlet pipe is communicated with water inlet supervisor, and this water inlet supervisor is communicated with water inlet storage bin, and this water inlet storage bin is communicated with source of clean water by water inlet pipe, on described water inlet supervisor, is provided with the water-delivery pump I by switch board controlling run;

Described exit branch is communicated with water outlet supervisor, and this water outlet supervisor is communicated with filtering ponds, on water outlet supervisor, is provided with the water-delivery pump II by switch board controlling run; Filtering ponds by tube connector I with in electric heater is housed heating tank be communicated with, in this tube connector I, be provided with the water-delivery pump III by switch board controlling run, temperature monitor I is installed on described heating tank, this temperature monitor I to switch board, realizes heating by switch board control electric heater to water in heating tank by the temperature feedback of measuring in heating tank;

Described heating tank is communicated with by tube connector II with water inlet storage bin, is provided with the battery valve I being opened and closed by switch board control in tube connector II, is provided with the battery valve II being opened and closed by switch board control on water inlet pipe; On described water inlet storage bin, temperature monitor II is installed.

The utility model is because the advantage that said structure has is: the water in culturing pool heats after filter, then reach suitable temperature or directly reach suitable temperature in intake storage bin and cold water mix and pump into culturing pool after water inlet storage bin, when ensureing Tilapia mossambica suitable growth temperature [having realized water circulation use], reduce water consumption, [in culturing pool, water itself just has certain temperature to have reduced production cost, heat time is disconnected, has further reduced energy consumption; Summer, culturing pool needed cooling, and electric heater does not just heat, and water inlet pipe and underground water are connected, and naturally lower the temperature by underground water]; Water quality after filtering ponds filter increases, and has improved survival rate.

Brief description of the drawings

The non-limiting embodiment that the utility model can provide by accompanying drawing further illustrates.

Fig. 1 is structural representation of the present utility model;

In figure: 1, culturing pool; 2, water inlet pipe; 3, water inlet storage bin; 4, exit branch; 5, water inlet supervisor; 6, water inlet pipe; 7, water-delivery pump I; 8, water outlet supervisor; 9, filtering ponds; 10, water-delivery pump II; 11, tube connector I; 12, heating tank; 13, water-delivery pump III; 14, temperature monitor I; 15, tube connector II; 16, battery valve I; 17, battery valve II; 18, temperature monitor II; 19, nitrogen content detector; 20, denitrogenate tank; 21, sulfur content detector; 22, sulphur removal tank; 23, body I; 24, battery valve II; 25, body II; 26, battery valve III; 27, battery valve IV; 28, battery valve V; 29, battery valve VI; 30, blow-off pipe.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail:

Referring to accompanying drawing 1, the Tilapia mossambica indoor culture pond circulating water supply system in figure, comprises the water inlet storage bin 3 being communicated with by water inlet pipe 2 with culturing pool 1, is arranged on the exit branch 4 of culturing pool 1 bottom; Wherein:

Described water inlet pipe 2 is communicated with water inlet supervisor 5, and this water inlet supervisor 5 is communicated with water inlet storage bin 3, and this water inlet storage bin 3 is communicated with source of clean water by water inlet pipe 6, on described water inlet supervisor 5, is provided with the water-delivery pump I 7 by switch board controlling run;

Described exit branch 4 is communicated with water outlet supervisor 8, and this water outlet supervisor 8 is communicated with filtering ponds 9, on water outlet supervisor 8, is provided with the water-delivery pump II 10 by switch board controlling run; Filtering ponds 9 by tube connector I 11 with in electric heater is housed heating tank 12 be communicated with, in this tube connector I 11, be provided with the water-delivery pump III 13 by switch board controlling run, on described heating tank 12, temperature monitor I 14 is installed, this temperature monitor I 14 to switch board, realizes heating by switch board control electric heater to the interior water of heating tank 12 by the temperature feedback of heating tank 12 interior measurements;

Described heating tank 12 is communicated with by tube connector II 15 with water inlet storage bin 3, is provided with the battery valve I 16 being opened and closed by switch board control in tube connector II 15, is provided with the battery valve II 17 being opened and closed by switch board control on water inlet pipe 6; On described water inlet storage bin 3, temperature monitor II 18 is installed.In this embodiment, culturing pool 1 is four of showing of or accompanying drawing not, can be also two or connect more than.

For reducing the manufacturing cost of switch board and improving control accuracy, in above-described embodiment, preferably: there is PLC control strip in described switch board.

For further ensureing water quality, enhance productivity, in above-described embodiment, preferably: on the water outlet supervisor 8 near filtering ponds 9, be disposed with nitrogen content detector 19, in be equipped with denitrogenate agent denitrogenate tank 20, sulfur content detector 21 and in the sulphur removal tank 22 of sulfur elimination is housed; Nitrogen content detector 19 and sulfur content detector 21 feed back to switch board by nitrogen content measurement data in water and sulfur content measurement data respectively;

The described tank 20 of denitrogenating is communicated with water outlet supervisor 8 by body I 23, is provided with the battery valve II 24 being opened and closed by switch board control in this body I 23;

Described sulphur removal tank 22 is communicated with water outlet supervisor 8 by body II 25, is provided with the battery valve III 26 being opened and closed by switch board control in this body II 25.In this embodiment, in the water that switch board feeds back respectively according to nitrogen content detector 19 and sulfur content detector 21, nitrogen content measurement data and sulfur content measurement data control battery valve II 24 and battery valve III 26 are opened, and realize the content that reduces nitrogen and sulphur in water.

For ease of blowdown, in above-described embodiment, preferably: the bottom of described filtering ponds 9 has blow-off pipe 30, on this blow-off pipe 30, be provided with the battery valve IV 27 being opened and closed by switch board control.

For ensureing water quality and the accurate control that passes in and out the water yield in culturing pool 1, in above-described embodiment, preferably: be provided with the battery valve V 28 being opened and closed by switch board control on described water inlet pipe 2.On described exit branch 4, be provided with the battery valve VI 29 being opened and closed by switch board control.

Parts in above-mentioned all embodiment and sulfur elimination and denitrogenate agent and be market sale product.

Obviously, above-mentioned all embodiment are a part of embodiment of the present utility model, instead of whole embodiment.Based on embodiment described in the utility model, those skilled in the art are not making all other embodiment that obtain under creative work prerequisite, all belong to the category of the utility model protection.

In sum, due to said structure, reduced water resources consumption, improved production efficiency and reduced aquaculture cost.

Claims (6)

1. a Tilapia mossambica indoor culture pond circulating water supply system, comprises the water inlet storage bin (3) being communicated with by water inlet pipe (2) with culturing pool (1), is arranged on the exit branch (4) of culturing pool (1) bottom; It is characterized in that:

Described water inlet pipe (2) is communicated with water inlet supervisor (5), this water inlet supervisor (5) is communicated with water inlet storage bin (3), this water inlet storage bin (3) is communicated with source of clean water by water inlet pipe (6), on described water inlet supervisor (5), is provided with the water-delivery pump I (7) by switch board controlling run;

Described exit branch (4) is communicated with water outlet supervisor (8), and this water outlet supervisor (8) is communicated with filtering ponds (9), on water outlet supervisor (8), is provided with the water-delivery pump II (10) by switch board controlling run; Filtering ponds (9) by tube connector I (11) with in electric heater is housed heating tank (12) be communicated with, in this tube connector I (11), be provided with the water-delivery pump III (13) by switch board controlling run, temperature monitor I (14) is installed on described heating tank (12), this temperature monitor I (14) to switch board, realizes heating by switch board control electric heater to the interior water of heating tank (12) by the temperature feedback of measuring in heating tank (12);

Described heating tank (12) is communicated with by tube connector II (15) with water inlet storage bin (3), in tube connector II (15), be provided with the battery valve I (16) being opened and closed by switch board control, on water inlet pipe (6), be provided with the battery valve II (17) being opened and closed by switch board control; Temperature monitor II (18) is installed on described water inlet storage bin (3).

2. Tilapia mossambica indoor culture according to claim 1 pond circulating water supply system, is characterized in that: in described switch board, have PLC control strip.

3. Tilapia mossambica indoor culture according to claim 1 pond circulating water supply system, is characterized in that: on the water outlet supervisor (8) near filtering ponds (9), be disposed with nitrogen content detector (19), in be equipped with denitrogenate agent denitrogenate tank (20), sulfur content detector (21) and in the sulphur removal tank (22) of sulfur elimination is housed; Nitrogen content detector (19) and sulfur content detector (21) feed back to switch board by nitrogen content measurement data in water and sulfur content measurement data respectively;

The described tank (20) of denitrogenating is communicated with water outlet supervisor (8) by body I (23), is provided with the battery valve II (24) being opened and closed by switch board control in this body I (23);

Described sulphur removal tank (22) is communicated with water outlet supervisor (8) by body II (25), is provided with the battery valve III (26) being opened and closed by switch board control in this body II (25).

4. according to the Tilapia mossambica indoor culture pond circulating water supply system described in claim 1 or 3, it is characterized in that: the bottom of described filtering ponds (9) has blow-off pipe (27), on this blow-off pipe (27), be provided with the battery valve IV (27) being opened and closed by switch board control.

5. Tilapia mossambica indoor culture according to claim 1 pond circulating water supply system, is characterized in that: on described water inlet pipe (2), be provided with the battery valve V (28) being opened and closed by switch board control.

6. Tilapia mossambica indoor culture according to claim 1 pond circulating water supply system, is characterized in that: on described exit branch (4), be provided with the battery valve VI (29) being opened and closed by switch board control.