CN2877284Y - Hydraulic pressure oxygen inflator - Google Patents

Abstract

A hydraulic pressure oxygenation device relates to a oxygenation device with the purpose of solving the problem of energy consumption by the existing fishpond in order to guarantee enough oxygen for aquatic animals. In the cultivation cost of aquatic products, oxygen supply takes a greater proportion. In the utility model, the height of a first fishpond (32) is lower than that of a water storage tank (1). A first connecting tube (34) is fixed connected between a first float water tank (8) and the water storage tank (1). The inlet of a first inlet tube (6) is connected with the outlet of a outlet tube (35). The outlet of the first inlet tube (6) is connected with the inlet of the first outlet tube (7). The good effect of the utility model is that: because the oxygenation procedure will not use electricity power (or other energy), if the fishpond is provided with the water of 10,000 cubic meter, only the electricity energy will be saved about 1050 yuan (22kilowatt*2 electric motors*1yuan/kilowatt hour*24 hours). The utility model has the advantages of simple structure, energy saving, high oxygenation efficiency and aquatic cultivation cost decrement.

Description

Hydraulic pressure oxygenate apparatus

Technical field

The utility model relates to a kind of oxygenate apparatus.

Background technology

Utilize fresh water, seawater fish pond, fishpond to culture the more and more of aquatic animal (fish, soft-shelled turtle, shrimp, crab, freshwater mussel etc.) now, and cultivation density is increasing, obtains sufficient oxygen, generally all will use oxygenate apparatus oxygenation in water in order to guarantee aquatic animal.Common oxygenate apparatus has and fills (gas) oxygen pump, stirring-type aerating machine etc.Above-mentioned oxygen replenishing equipment all needs electromotor (or gasoline engine, diesel engine) that power is provided, by water body is the fish pond calculating of a ten thousand stere, generally the electromotor that needs two 22 kilowatts of configurations could satisfy the needs of aquatic animal oxygen consumption substantially in the work that does not stop, and the consumption of its energy is too big.In the aquaculture cost of aquatic products, the large percentage that oxygen supply is shared.

The utility model content

The purpose of this utility model is to obtain sufficient oxygen for solving existing fish pond, fishpond in order to guarantee aquatic animal, and the consumption of its energy is too big.In the aquaculture cost of aquatic products, the problem of the large percentage that oxygen supply is shared provides a kind of hydraulic pressure oxygenate apparatus.The utlity model has simple in structure, save the energy, characteristics that efficiency of oxygen supply is high.The utility model comprises water storage box 1, first crawl 32 and the first oxygenation unit, water storage box 1 is fixedlyed connected with first crawl 32, the height of first crawl 32 is lower than the height of water storage box 1, be provided with outlet pipe 35 between the water storage box 1 and first crawl 32, the first oxygenation unit is by first tube connector 34, first water inlet pipe 6, first float 9, first outlet pipe 7, the first float water tank 8 and first air inlet pipe 39 are formed, the first float water tank 8 is fixed on the top of first crawl 32, be fixedly connected with first tube connector 34 between the first float water tank 8 and the water storage box 1, the two ends of first tube connector 34 are connected with the first float water tank 8 and water storage box 1 respectively, the arrival end of first water inlet pipe 6 is fixedlyed connected with the port of export of outlet pipe 35, the port of export of first water inlet pipe 6 is connected with the arrival end of first outlet pipe 7, the port of export of first outlet pipe 7 is arranged on the downside in first crawl 32, first float 9 is arranged in the first float water tank 8, the junction of first water inlet pipe 6 and first outlet pipe 7 is connected with first float 9, first air inlet pipe 39 is arranged on first water inlet pipe 6 or first outlet pipe 7 on first float, 9 tops, and first air inlet pipe 39 makes the inside of first water inlet pipe 6 or first outlet pipe 7 be connected with atmosphere.Operation principle of the present utility model is: first water inlet pipe 6 and first outlet pipe 7 are the flexible pipe that plastics or rubber are made, because the height of first crawl 32 is lower than the height of water storage box 1, make between the water storage box 1 and first crawl 32 and produce drop, utilize siphon principle that water is drawn in first crawl 32 by first water inlet pipe 6 and first outlet pipe 7 in water storage box 1, because water has produced negative pressure by first water inlet pipe 6 and first outlet pipe 7 time, when first air inlet pipe 39 is inserted on first water inlet pipe 6 or first outlet pipe 7, air is sucked in first water inlet pipe 6 or first outlet pipe 7 thereupon and is entered at last in first crawl 32, air flows with water at first water inlet pipe 6 or first outlet pipe 7 with the form of bubble, and what of oxygen that gas is carried are the interfacial area of gas and liquid determined.Several oxygenation unit can be set on crawl as required.Between the first float water tank 8 and water storage box 1, be fixedly connected with first tube connector 34, make the first float water tank 8 keep identical height, allow first air inlet pipe 39 be higher than the water surface all the time, to guarantee the operate as normal of system with water storage box 1 interior water level.The beneficial effects of the utility model are: the feedwater water pump in fishpond is suitable in the moisturizing water pump of water storage box 1 and the prior art, but this road not electricity consumption of program (or other energy) of oxygenation, if by water body is the fishpond calculating of a ten thousand stere, only electric energy is one, just can save about 1050 yuan of the electricity charge (22 watts of thousand * 2 motor * 1 yuan every degree electricity * 24 hours) every day.The utlity model has simple in structure, save the energy, efficiency of oxygen supply height, reduce the advantage of aquaculture cost greatly.

Description of drawings

Fig. 1 is an overall structure schematic diagram of the present utility model, and Fig. 2 is the A place enlarged drawing among Fig. 1.

Embodiment

Embodiment one: (referring to Fig. 1, Fig. 2) present embodiment is by water storage box 1, first crawl 32 and the first oxygenation unit are formed, water storage box 1 is fixedlyed connected with first crawl 32, the height of first crawl 32 is lower than the height of water storage box 1, be provided with outlet pipe 35 between the water storage box 1 and first crawl 32, the first oxygenation unit is by first tube connector 34, first water inlet pipe 6, first float 9, first outlet pipe 7, the first float water tank 8 and first air inlet pipe 39 are formed, the first float water tank 8 is fixed on the top of first crawl 32, be fixedly connected with first tube connector 34 between the first float water tank 8 and the water storage box 1, the two ends of first tube connector 34 are connected with the first float water tank 8 and water storage box 1 respectively, the arrival end of first water inlet pipe 6 is fixedlyed connected with the port of export of outlet pipe 35, the port of export of first water inlet pipe 6 is connected with the arrival end of first outlet pipe 7, the port of export of first outlet pipe 7 is arranged on the downside in first crawl 32, first float 9 is arranged in the first float water tank 8, the junction of first water inlet pipe 6 and first outlet pipe 7 is connected with first float 9, first air inlet pipe 39 is arranged on first water inlet pipe 6 or first outlet pipe 7 on first float, 9 tops, and first air inlet pipe 39 makes the inside of first water inlet pipe 6 or first outlet pipe 7 be connected with atmosphere.

Embodiment two: have additional dividing plate 4 in the water storage box 1 of (referring to Fig. 1) present embodiment, have limbers 2 on the dividing plate 4, the left side of dividing plate 4 forms settling zone 3, the right side of dividing plate 4 forms clear water zone 5, on the water storage box 1 of settling zone 3 downsides, be provided with sewage draining exit 38, on the water storage box 1 of clear water zone 5 downsides, be provided with sewage draining exit 36.Other composition is identical with embodiment one with annexation.At first enter the settling zone by the water pump pump to the water of water storage box and precipitate, clear water enters clear water zone by the limbers, makes the water that enters crawl at last as clear as crystal, and the sediment of settling zone and clear water zone is discharged by sewage draining exit (by valve control) in the water storage box.

Embodiment three: the downside of first crawl 32 of (referring to Fig. 1) present embodiment is provided with sewage draining exit 33, is fixed with first screen cloth 37 in first crawl 32 of sewage draining exit 33 upsides.Other composition is identical with embodiment one with annexation.

Embodiment four: (referring to Fig. 1, Fig. 2) difference of present embodiment and embodiment one is, side at first crawl 32 has increased by second crawl 29 and the second oxygenation unit again, second crawl 29 is fixedlyed connected with first crawl 32, the height of second crawl 29 is lower than the height of first crawl 32, the second oxygenation unit is by second tube connector 31, second water inlet pipe 10, second float 13, second outlet pipe 11, the second float water tank 12 and second air inlet pipe 40 are formed, the second float water tank 12 is fixed on the top of second crawl 29, be fixedly connected with second tube connector 31 between the second float water tank 12 and the first float water tank 8, the two ends of second tube connector 31 are connected with the first float water tank 8 and the second float water tank 12 respectively, the arrival end of second water inlet pipe 10 is located in first crawl 32, the port of export of second water inlet pipe 10 is connected with the arrival end of second outlet pipe 11, the port of export of second outlet pipe 11 is arranged on the downside in second crawl 29, second float 13 is arranged in the second float water tank 12, the junction of second water inlet pipe 10 and second outlet pipe 11 is connected with second float 13, second air inlet pipe 40 is arranged on second water inlet pipe 10 or second outlet pipe 11 on second float, 13 tops, and second air inlet pipe 40 makes the inside of second water inlet pipe 10 or second outlet pipe 11 be connected with atmosphere.Other composition is identical with embodiment one with annexation.Set up second crawl and the second oxygenation unit, under the situation that does not increase power consumption, can increase by one times of aquaculture area (comparing) (be equivalent to increase aquaculture system volume 75～85%) with first crawl.

Embodiment five: the downside of second crawl 29 of (referring to Fig. 1) present embodiment is provided with sewage draining exit 30, is fixed with second screen cloth 43 in second crawl 29 of sewage draining exit 30 upsides.Other composition is identical with embodiment five with annexation.

Embodiment six: (referring to Fig. 1, Fig. 2) difference of present embodiment and embodiment four is, side at second crawl 29 has increased the 3rd crawl 26 and the 3rd oxygenation unit again, the 3rd crawl 26 is fixedlyed connected with second crawl 29, the height of the 3rd crawl 26 is lower than the height of second crawl 29, the 3rd oxygenation unit is by the 3rd tube connector 28, the 3rd water inlet pipe 14, the 3rd float 16, the 3rd outlet pipe 15, the 3rd float water tank 17 and the 3rd air inlet pipe 41 are formed, the 3rd float water tank 17 is fixed on the top of the 3rd crawl 26, be fixedly connected with the 3rd tube connector 28 between the 3rd float water tank 17 and the second float water tank 12, the two ends of the 3rd tube connector 28 are connected with the 3rd float water tank 17 and the second float water tank 12 respectively, the arrival end of the 3rd water inlet pipe 14 is located in second crawl 29, the port of export of the 3rd water inlet pipe 14 is connected with the arrival end of the 3rd outlet pipe 15, the port of export of the 3rd outlet pipe 15 is arranged on the downside in the 3rd crawl 26, the 3rd float 16 is arranged in the 3rd float water tank 17, the junction of the 3rd water inlet pipe 14 and the 3rd outlet pipe 15 is connected with the 3rd float 16, the 3rd air inlet pipe 41 is arranged on the 3rd water inlet pipe 14 or the 3rd outlet pipe 15 on the 3rd float 16 tops, and the 3rd air inlet pipe 41 makes the inside of the 3rd water inlet pipe 14 or the 3rd outlet pipe 15 be connected with atmosphere.Other composition is identical with embodiment four with annexation.Set up the 3rd crawl and the 3rd oxygenation unit, under the situation that does not increase power consumption, compare, can increase by one times of aquaculture area (be equivalent to increase aquaculture system volume 55～65%) again with first crawl.

Embodiment seven: the downside of the 3rd crawl 26 of (referring to Fig. 1) present embodiment is provided with sewage draining exit 27, is fixed with the 3rd screen cloth 44 in the 3rd crawl 26 of sewage draining exit 27 upsides.Other composition is identical with embodiment six with annexation

Embodiment eight: (referring to Fig. 1, Fig. 2) difference of present embodiment and embodiment six is, side at the 3rd crawl 26 has increased the 4th crawl 25 and the 4th oxygenation unit again, the 4th crawl 25 is fixedlyed connected with the 3rd crawl 26, the height of the 4th crawl 25 is lower than the height of the 3rd crawl 26, the 4th oxygenation unit is by the 4th tube connector 21, the 4th water inlet pipe 18, the 4th float 22, the 4th outlet pipe 19, the 4th float water tank 20 and the 4th air inlet pipe 42 are formed, the 4th float water tank 20 is fixed on the top of the 4th crawl 25, be fixedly connected with the 4th tube connector 21 between the 4th float water tank 20 and the 3rd float water tank 17, the two ends of the 4th tube connector 21 are connected with the 4th float water tank 20 and the 3rd float water tank 17 respectively, the arrival end of the 4th water inlet pipe 18 is located in the 3rd crawl 26, the port of export of the 4th water inlet pipe 18 is connected with the arrival end of the 4th outlet pipe 19, the port of export of the 4th outlet pipe 19 is arranged on the downside in the 4th crawl 25, the 4th float 22 is arranged in the 4th float water tank 20, the junction of the 4th water inlet pipe 18 and the 4th outlet pipe 19 is connected with the 4th float 22, the 4th air inlet pipe 41 is arranged on the 4th water inlet pipe 14 or the 4th outlet pipe 15 on the 4th float 16 tops, and the 4th air inlet pipe 42 makes the inside of the 4th water inlet pipe 18 or the 4th outlet pipe 19 be connected with atmosphere.Other composition is identical with embodiment six with annexation.Set up the 4th crawl and the 4th oxygenation unit, under the situation that does not increase power consumption, compare, can increase by one times of aquaculture area (be equivalent to increase aquaculture system volume 35～45%) again with first crawl.

Embodiment nine: the downside of the 4th crawl 25 of (referring to Fig. 1) present embodiment is provided with sewage draining exit 24, is fixed with the 4th screen cloth 45 in the 4th crawl 25 of sewage draining exit 24 upsides.Other composition is identical with embodiment eight with annexation.

Embodiment ten: (referring to Fig. 1) present embodiment and embodiment eight or nines' difference is, is fixed with Draw off valve 23 on the pool wall of the 4th crawl 25.Other composition is identical with embodiment eight or nine with annexation.

Claims (10)

1, a kind of hydraulic pressure oxygenate apparatus, it comprises water storage box (1), first crawl (32) and the first oxygenation unit, water storage box (1) is fixedlyed connected with first crawl (32), it is characterized in that the height of first crawl (32) is lower than the height of water storage box (1), be provided with outlet pipe (35) between water storage box (1) and first crawl (32), the first oxygenation unit is by first tube connector (34), first water inlet pipe (6), first float (9), first outlet pipe (7), the first float water tank (8) and first air inlet pipe (39) are formed, the first float water tank (8) is fixed on the top of first crawl (32), be fixedly connected with first tube connector (34) between the first float water tank (8) and the water storage box (1), the two ends of first tube connector (34) are connected with the first float water tank (8) and water storage box (1) respectively, the arrival end of first water inlet pipe (6) is fixedlyed connected with the port of export of outlet pipe (35), the port of export of first water inlet pipe (6) is connected with the arrival end of first outlet pipe (7), the port of export of first outlet pipe (7) is arranged on the downside in first crawl (32), first float (9) is arranged in the first float water tank (8), the junction of first water inlet pipe (6) and first outlet pipe (7) is connected with first float (9), first air inlet pipe (39) is arranged on first water inlet pipe (6) or first outlet pipe (7) on first float (9) top, and first air inlet pipe (39) makes the inside of first water inlet pipe (6) or first outlet pipe (7) be connected with atmosphere.

2, hydraulic pressure oxygenate apparatus according to claim 1, it is characterized in that having additional in the water storage box (1) dividing plate (4), have limbers (2) on the dividing plate (4), the left side of dividing plate (4) forms settling zone (3), the right side of dividing plate (4) forms clear water zone (5), on the water storage box (1) of settling zone (3) downside, be provided with sewage draining exit (38), on the water storage box (1) of clear water zone (5) downside, be provided with sewage draining exit (36).

3, hydraulic pressure oxygenate apparatus according to claim 1 is characterized in that the downside of first crawl (32) is provided with sewage draining exit (33), is fixed with first screen cloth (37) in first crawl (32) of sewage draining exit (33) upside.

4, hydraulic pressure oxygenate apparatus according to claim 1, it is characterized in that it also comprises second crawl (29) and the second oxygenation unit, second crawl (29) is fixedlyed connected with first crawl (32), the height of second crawl (29) is lower than the height of first crawl (32), the second oxygenation unit is by second tube connector (31), second water inlet pipe (10), second float (13), second outlet pipe (11), the second float water tank (12) and second air inlet pipe (40) are formed, the second float water tank (12) is fixed on the top of second crawl (29), be fixedly connected with second tube connector (31) between the second float water tank (12) and the first float water tank (8), the two ends of second tube connector (31) are connected with the first float water tank (8) and the second float water tank (12) respectively, the arrival end of second water inlet pipe (10) is located in first crawl (32), the port of export of second water inlet pipe (10) is connected with the arrival end of second outlet pipe (11), the port of export of second outlet pipe (11) is arranged on the downside in second crawl (29), second float (13) is arranged in the second float water tank (12), the junction of second water inlet pipe (10) and second outlet pipe (11) is connected with second float (13), second air inlet pipe (40) is arranged on second water inlet pipe (10) or second outlet pipe (11) on second float (13) top, and second air inlet pipe (40) makes the inside of second water inlet pipe (10) or second outlet pipe (11) be connected with atmosphere.

5, hydraulic pressure oxygenate apparatus according to claim 4 is characterized in that the downside of second crawl (29) is provided with sewage draining exit (30), is fixed with second screen cloth (43) in second crawl (29) of sewage draining exit (30) upside.

6, hydraulic pressure oxygenate apparatus according to claim 4, it is characterized in that it also comprises the 3rd crawl (26) and the 3rd oxygenation unit, the 3rd crawl (26) is fixedlyed connected with second crawl (29), the height of the 3rd crawl (26) is lower than the height of second crawl (29), the 3rd oxygenation unit is by the 3rd tube connector (28), the 3rd water inlet pipe (14), the 3rd float (16), the 3rd outlet pipe (15), the 3rd float water tank (17) and the 3rd air inlet pipe (41) are formed, the 3rd float water tank (17) is fixed on the top of the 3rd crawl (26), be fixedly connected with the 3rd tube connector (28) between the 3rd float water tank (17) and the second float water tank (12), the two ends of the 3rd tube connector (28) are connected with the 3rd float water tank (17) and the second float water tank (12) respectively, the arrival end of the 3rd water inlet pipe (14) is located in second crawl (29), the port of export of the 3rd water inlet pipe (14) is connected with the arrival end of the 3rd outlet pipe (15), the port of export of the 3rd outlet pipe (15) is arranged on the downside in the 3rd crawl (26), the 3rd float (16) is arranged in the 3rd float water tank (17), the junction of the 3rd water inlet pipe (14) and the 3rd outlet pipe (15) is connected with the 3rd float (16), the 3rd air inlet pipe (41) is arranged on the 3rd water inlet pipe (14) or the 3rd outlet pipe (15) on the 3rd float (16) top, and the 3rd air inlet pipe (41) makes the inside of the 3rd water inlet pipe (14) or the 3rd outlet pipe (15) be connected with atmosphere.

7, hydraulic pressure oxygenate apparatus according to claim 6 is characterized in that the downside of the 3rd crawl (26) is provided with sewage draining exit (27), is fixed with the 3rd screen cloth (44) in the 3rd crawl (26) of sewage draining exit (27) upside.

8, hydraulic pressure oxygenate apparatus according to claim 6, it is characterized in that it also comprises the 4th crawl (25) and the 4th oxygenation unit, the 4th crawl (25) is fixedlyed connected with the 3rd crawl (26), the height of the 4th crawl (25) is lower than the height of the 3rd crawl (26), the 4th oxygenation unit is by the 4th tube connector (21), the 4th water inlet pipe (18), the 4th float (22), the 4th outlet pipe (19), the 4th float water tank (20) and the 4th air inlet pipe (42) are formed, the 4th float water tank (20) is fixed on the top of the 4th crawl (25), be fixedly connected with the 4th tube connector (21) between the 4th float water tank (20) and the 3rd float water tank (17), the two ends of the 4th tube connector (21) are connected with the 4th float water tank (20) and the 3rd float water tank (17) respectively, the arrival end of the 4th water inlet pipe (18) is located in the 3rd crawl (26), the port of export of the 4th water inlet pipe (18) is connected with the arrival end of the 4th outlet pipe (19), the port of export of the 4th outlet pipe (19) is arranged on the downside in the 4th crawl (25), the 4th float (22) is arranged in the 4th float water tank (20), the junction of the 4th water inlet pipe (18) and the 4th outlet pipe (19) is connected with the 4th float (22), the 4th air inlet pipe (42) is arranged on the 4th water inlet pipe (18) or the 4th outlet pipe (19) on the 4th float (22) top, and the 4th air inlet pipe (42) makes the inside of the 4th water inlet pipe (18) or the 4th outlet pipe (19) be connected with atmosphere.

9, hydraulic pressure oxygenate apparatus according to claim 8 is characterized in that the downside of the 4th crawl (25) is provided with sewage draining exit (24), is fixed with the 4th screen cloth (45) in the 4th crawl (25) of sewage draining exit (24) upside.

10, hydraulic pressure oxygenate apparatus according to claim 8 is characterized in that being fixed with Draw off valve (23) on the pool wall of the 4th crawl (25).

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