CN203388105U - Vehicle-mounted aeration system - Google Patents
Vehicle-mounted aeration system Download PDFInfo
- Publication number
- CN203388105U CN203388105U CN201320516184.8U CN201320516184U CN203388105U CN 203388105 U CN203388105 U CN 203388105U CN 201320516184 U CN201320516184 U CN 201320516184U CN 203388105 U CN203388105 U CN 203388105U
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- oxygen
- water
- dissolved oxygen
- oxygen tank
- pipeline
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Abstract
The utility model discloses an aeration system and relates to the field of fish pond or fish pond aeration technology. In order to enhance the utilization rate of oxygen in a fish pond, the following measures are adopted: an oxygen tank 1 is connected with a pressure reducing valve 2, a water inlet 4 is formed in the upper part of an oxygen dissolving tank 3, a water outlet 5 is formed in the lower part of the oxygen dissolving tank 3, a gas inlet 6 is formed in the lower part of the oxygen dissolving tank 3, and a gas outlet 7 is formed in the upper part of the oxygen dissolving tank 3. A gas inlet 12 of a gas pump 11 is connected with the gas outlet 7 of the oxygen dissolving tank 3 and the gas outlet of the pressure reducing valve 2 through pipelines, and a gas outlet 13 of the gas pump 11 is connected with the gas inlet 6 of the oxygen dissolving tank 3 through a pipeline. A water inlet 9 of a water pump 8 is connected with a water outlet 16 of the fish pond through a pipeline, a water outlet 10 of the water pump 8 is connected with the water inlet 4 of the oxygen dissolving tank 3 through a pipeline, and a water inlet 15 of the fish pond 14is connected with the water outlet 5 of the oxygen dissolving tank 3 through a pipeline. In the way, the aeration system has the advantages that oxygen circulates in the closed oxygen dissolving tank and is dissolved in water, without any loss, so that the utilization rate of oxygen is increased greatly, and oxygen-rich water flows into the fish pond so as to be used by fish.
Description
Technical field
The Yi Ge field of fishpond or fish pond oxygenation technology.
Background technology
Fish pond or harbour also have a far segment distance to market, in order to transport more fish, reduce production costs, and they have improved fishpond density retailer.But after density improves, the oxygen demand of fish has become distinct issues.If do not manage to improve the oxygen content of Chi Shui, such density can cause the death of a large amount of fishes.In order to ensure that pond fish or ocean fish still can survive in transportation, retailers figure out the oxygen content that a lot of ways improve Chi Shui.For example, somely with air pump, air is squeezed into and in fishpond, produced bubble, increase the contact area of air and water, make more oxygen dissolve in Chi Shuizhong.The retailer who also has directly squeezes into Chi Shuizhong by oxygen, further increases the meltage of oxygen; These two kinds of ways can improve the oxygen content of Chi Shui in fishpond, but have separately certain shortcoming.The first, these two kinds of ways are all by the bottom of gas is squeezed into pond, and gas is producing a large amount of bubbles when rising at the bottom of pond, and bubble has increased the contact area of air or oxygen and water, has increased the meltage of oxygen.So use the fishpond of these two kinds of ways, Chi Shuili has a large amount of bubbles.We know, fish live in water, and they are also bad to obtain in air while having bubble in the water of Yang,Dang pond, are bound to bring bad impact (hindering the absorption of fish to oxygen) to their oxygen uptakes.The second, if what squeeze into toward fishpond is air, although cost is lower,, because the content of oxygen in air only has an appointment 20%, so effect is not good enough.If be pure oxygen toward what squeeze in fishpond, effect is apparent that better than air very much, but cost is but very high.This is because fishpond is all generally open, and oxygen is just discharged in atmosphere and has slatterned quickly from going up the water surface at the bottom of pond, and availability is very low, so cost is very high.In fishpond, squeeze into pure oxygen, in fishpond, the density of fish can improve greatly so, and this is of great benefit to reducing cost of transportation, and retailer is had to very large attraction.But how to improve the availability of oxygen, in prior art in this respect, remain a blank.
Summary of the invention
In order to improve the availability of oxygen in fishpond, the present invention has taked following measure: oxygen tank 1 connects pressure-reducing valve 2, and the water inlet 4 of dissolved oxygen tank 3 is upper, the delivery port 5 of dissolved oxygen tank 3 under, the air inlet 6 of dissolved oxygen tank 3 under, the exhaust outlet 7 of dissolved oxygen tank 3 is upper.The air inlet 12 of air pump 11 connects the gas outlet of exhaust outlet 7 and the pressure-reducing valve 2 of dissolved oxygen tank 3 by pipeline, the exhaust outlet 13 of air pump 11 connects the air inlet 6 of dissolved oxygen tank 3 by pipeline.The water inlet 9 of water pump 8 connects the Pai mouth of a river, fishpond 16 by pipeline, and the discharge outlet 10 of water pump 8 connects the water inlet 4 of dissolved oxygen tank 3 by pipeline, and the water inlet 15 in fishpond 14 connects the delivery port 5 of dissolved oxygen tank 3 by pipeline.
The benefit of doing is like this: oxygen is raised to top with the form of bubble in the bottom of dissolved oxygen tank, gets back to constantly circulation of bottom again by air pump, and in this process, oxygen is dissolved in water.Oxygen circulates in an airtight dissolved oxygen tank being filled with water, and shows no sign of and is lost in atmosphere, has greatly improved the availability of oxygen.Because dissolved oxygen Guan Yeyu fishpond forms water circulation by water pump, flow in fishpond just the oxygen content of the Shui,Ta Shi Chi Shui of oxygen enrichment is improved time do not produce again bubble, eliminated the harmful effect that bubble brings fish oxygen uptake.Whole technical scheme has solved in prior art, the subject matter that oxygen utilization rate is low.
Accompanying drawing explanation
Fig. 1. each parts annexation of vehicle-mounted aeration system figure.
In figure: 1 oxygen tank, 2 pressure-reducing valves, 3 dissolved oxygen tanks, 4 dissolved oxygen tank water inlets, 5 dissolved oxygen tank delivery ports, 6 dissolved oxygen canister incoming gas mouths, 7 dissolved oxygen tank exhaust outlets, 8 water pumps, 9 pump intakes, 10 water pump discharge outlet, 11 air pumps, 12 air pump air inlets, 13 water inlet ,16 fishpond, ,15 fishpond, air pump exhaust outlet ,14 fishpond discharge outlet.
Embodiment
In order to improve the availability of oxygen, the present invention has taked to allow oxygen only in an airtight space being filled with water, circulate and be dissolved in water, and so precious oxygen just can not be lost in atmosphere.Oxygen is not directly inputted ,Shi fishpond, fishpond and is not produced bubble simultaneously, does not affect the absorption of fish to oxygen.Further improved the availability of oxygen.This programme structure is as follows: oxygen tank 1 connects pressure-reducing valve 2, and the water inlet 4 of dissolved oxygen tank 3 is upper, the delivery port 5 of dissolved oxygen tank 3 under, the air inlet 6 of dissolved oxygen tank 3 under, the exhaust outlet 7 of dissolved oxygen tank 3 is upper.The air inlet 12 of air pump 11 connects the gas outlet of exhaust outlet 7 and the pressure-reducing valve 2 of dissolved oxygen tank 3 by pipeline, the exhaust outlet 13 of air pump 11 connects the air inlet 6 of dissolved oxygen tank 3 by pipeline.The water inlet 9 of water pump 8 connects the Pai mouth of a river, fishpond 16 by pipeline, and the discharge outlet 10 of water pump 8 connects the water inlet 4 of dissolved oxygen tank 3 by pipeline, and the water inlet 15 in fishpond 14 connects the delivery port 5 of dissolved oxygen tank 3 by pipeline; Oxygen tank 1 connects pressure-reducing valve 2, makes the pressure of the hyperbaric oxygen in oxygen tank 1 drop to suitable degree output.Dissolved oxygen tank 3, except each interface, is an airtight space, the water inlet 4 of dissolved oxygen tank 3 up, delivery port 5 below.Water is toward dirty like this, increased to a certain extent and the contacting of oxygen.Below delivery port is located at, also having an effect is the water that does not have alveolate oxygen enrichment in order to export.Dissolved oxygen tank 3 air inlets 6 are located at below, are to allow oxygen rise from bottom to top with the form of bubble, can strengthen to the greatest extent the touch opportunity of itself and water.The exhaust outlet 7 of dissolved oxygen tank 3 is located at top and by pipeline, connects the air inlet 12 of air pump 11, as long as start like this air pump 11, the exhaust outlet 7 of dissolved oxygen tank 3 is discharged or from the oxygen of pressure-reducing valve 2, through air pump 11, is pressurizeed and by pipe, get back to again the air inlet 6 of the bottom of dissolved oxygen tank 3, so constantly circulation.The air inlet 12 of air pump 11, the exhaust outlet 7 of dissolved oxygen tank 3 and pressure-reducing valve 2 link together by pipeline, and oxygen is just supplemented endlessly like this.The pressure of while due to the oxygen of pressure-reducing valve 2 outputs is greater than atmospheric pressure, and it makes the top of dissolved oxygen tank 3 produce an air chamber, the possibility of having avoided water to be sucked by air pump 11; The water inlet 9 of water pump 8 connects the discharge outlet 16 in fishpond 14 by pipeline.The discharge outlet 10 of water pump 8 connects the water inlet 4 of dissolved oxygen tank 3 by pipeline.The delivery port 5 of dissolved oxygen tank 3 connects the water inlet 15 in fishpond 14 by pipeline.As long as switch on the pump 11, water will be flowed into the water inlet 4 of dissolved oxygen tanks 3 by water pump 11 by fishpond 14, is flow to the water inlet 15 in fishpond 14 after dissolving in oxygen by dissolved oxygen tank 3 delivery ports 5 again, and so constantly the oxygen in the water of circulation Jiu Shi fishpond is constantly supplemented.
The course of work of this programme is, what first start is water pump 11, and water pump 11Ba Chi Shui pumps into dissolved oxygen tank 3, when the water level of dissolved oxygen tank 3 higher than the water level in fishpond or pressure higher than the pressure Shi, Chi Shui of fishpond water inlet 15 backflow fishpond constantly circulation.Then open again the manually-operated gate on oxygen tank 1, adjust the pressure of pressure-reducing valve 2 to suitable position, then open air pump 11, allow oxygen in the interior circulation of dissolved oxygen tank 3 and be dissolved in water.Enjoy for pond fishes in the current direction fishpond 14 of oxygen enrichment, and after again pond fish being enjoyed under the effect of water pump, the water of oxygen loss returns in ring dissolved oxygen tank dissolved oxygen again again and so circulates, and so just pure oxygen, has brought pond fish, realizes efficiently and utilizing.
Claims (1)
1. vehicle-mounted aeration system, mainly comprises, oxygen tank (1), pressure-reducing valve (2), dissolved oxygen tank (3), water pump (8) and air pump (11), is characterized in that: oxygen tank (1) connects pressure-reducing valve (2); The water inlet (4) of dissolved oxygen tank (3) is upper, the delivery port (5) of dissolved oxygen tank (3) under, the air inlet (6) of dissolved oxygen tank (3) under, the exhaust outlet (7) of dissolved oxygen tank (3) is upper; The air inlet (12) of air pump (11) connects the gas outlet of exhaust outlet (7) and the pressure-reducing valve (2) of dissolved oxygen tank (3) by pipeline, the exhaust outlet (13) of air pump (11) connects the air inlet (6) of dissolved oxygen tank (3) by pipeline; The water inlet (9) of water pump (8) connects the discharge outlet (16) of fishpond (14) by pipeline, the discharge outlet (10) of water pump (8) connects the water inlet (4) of dissolved oxygen tank (3) by pipeline, the water inlet (15) of fishpond (14) connects the delivery port (5) of dissolved oxygen tank (3) by pipeline.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320516184.8U CN203388105U (en) | 2013-08-22 | 2013-08-22 | Vehicle-mounted aeration system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320516184.8U CN203388105U (en) | 2013-08-22 | 2013-08-22 | Vehicle-mounted aeration system |
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CN203388105U true CN203388105U (en) | 2014-01-15 |
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CN201320516184.8U Expired - Lifetime CN203388105U (en) | 2013-08-22 | 2013-08-22 | Vehicle-mounted aeration system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103404476A (en) * | 2013-08-22 | 2013-11-27 | 胡达广 | Vehicle-mounted aeration system |
CN104430138A (en) * | 2014-12-26 | 2015-03-25 | 天全润兆鲟业有限公司 | Water body oxygen aeration technology and device thereof |
-
2013
- 2013-08-22 CN CN201320516184.8U patent/CN203388105U/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103404476A (en) * | 2013-08-22 | 2013-11-27 | 胡达广 | Vehicle-mounted aeration system |
CN103404476B (en) * | 2013-08-22 | 2014-11-05 | 胡达广 | Vehicle-mounted aeration system |
CN104430138A (en) * | 2014-12-26 | 2015-03-25 | 天全润兆鲟业有限公司 | Water body oxygen aeration technology and device thereof |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140115 Effective date of abandoning: 20141105 |
|
RGAV | Abandon patent right to avoid regrant |