CN204499143U - Oxygen-enriching device - Google Patents

Abstract

The utility model discloses a kind of oxygen-enriching device, belong to water correction and processing technology field, this oxygen-enriching device mainly comprises: for connecting the water inlet pipe treating oxygenation water body, for connecting the air inlet pipe of extraneous air, for by water body with mix after the booster pump that pressurizes, for generation of the emulsifier of nano bubble, and, for discharging the discharge pipe of oxygenation water body.Wherein, discharge pipe is provided with irrigation device, and irrigation device is provided with several micropore.Irrigation device is under the effect of booster pump pressure, the water body being mixed with oxygen produced in emulsifier can be discharged at a high speed by micropore above, because micropore covers in all directions of irrigation device, thus effectively can increase the oxygen area coverage of water body, the oxygen that can produce in efficiency utilization emulsifier.

Description

Oxygen-enriching device

Technical field

The utility model relates to water correction and processing technology field, particularly relating to a kind of for improving water quality, being conducive to the oxygen-enriching device manufacturing the optimum ecological balance system of water body.

Background technology

The water correction process of prior art, as, the water correction process in industrial fish farming field needs to carry out oxygenation process, the process of pump water circulation, soluble protein process, the process etc. of removing suspension in water, removing the things such as dissolved carbon dioxide, sulphur dioxide, iron, manganese in water to water, the wherein oxygen-increasing device that uses of the water oxygenation process of core, its one end in air inlet pipe connects the pure oxygen obtained by oxygenerator, to guarantee that more oxygen can exist in water body, thus promote the breeding of oxygen consumption biology.Find in practice, be drained into most of oxygen of water body, very fast the floating on the surface of the water of meeting under the effect of buoyancy, its oxygenation area is relatively little, poor effect.

Utility model content

Based on this, be necessary for the problems referred to above, provide one to improve oxygenation area, effectively utilize the oxygen-enriching device of oxygen.

A kind of oxygen-enriching device, comprising:

For connecting the water inlet pipe treating oxygenation water body;

For connecting the air inlet pipe of oxygenerator/pure air;

For described water body is mixed with described the booster pump pressurizeed afterwards, described booster pump is communicated with described water inlet pipe and described air inlet pipe;

For generation of the emulsifier of nano bubble, described emulsifier is communicated with described booster pump; And,

For discharging the discharge pipe of oxygenation water body, described discharge pipe is communicated with described emulsifier; Described discharge pipe is provided with irrigation device, and described irrigation device is provided with several micropore.

Wherein in an embodiment, described irrigation device is tubulose, tabular or spherical shape.

Wherein in an embodiment, described micropore is evenly located at bottom described irrigation device.

Wherein in an embodiment, the aperture of described micropore is 0.9mm-1.6mm.

Wherein in an embodiment, between described water inlet pipe and described booster pump, be provided with liquid filter.

Wherein in an embodiment, described emulsifier comprises tube connector, the nano bubble reactor be communicated with described tube connector, and the end of described tube connector is communicated with described booster pump and described discharge pipe successively.

Wherein in an embodiment, described tube connector has at least two by described booster pump to the circulation duct of described discharge pipe, and described circulation duct is provided with at least one for controlling the valve in water body flow direction in described tube connector.

Wherein in an embodiment, described valve is magnetic valve.

Wherein in an embodiment, oxygen-enriching device also comprises the first adjuster, the second adjuster and the 3rd adjuster for controlling water yield size; Described first adjuster is located between described water inlet pipe and described booster pump, and described second adjuster is located between described air inlet pipe and described booster pump, and described 3rd adjuster is located between described booster pump and described emulsifier.

Wherein in an embodiment, oxygen-enriching device also comprises to be located at the first manometer between described water inlet pipe and described booster pump, to be located at the second manometer between described air inlet pipe and described booster pump and to be located at the 3rd manometer between described booster pump and described emulsifier.

Above-mentioned oxygen-enriching device, discharge pipe is provided with the irrigation device with several micropore, irrigation device is under the effect of booster pump pressure, the water body being mixed with oxygen produced in emulsifier can be discharged at a high speed by micropore above, because micropore covers in all directions of irrigation device, thus effectively can increase the oxygen area coverage of water body, the oxygen that can produce in efficiency utilization emulsifier.

Accompanying drawing explanation

Fig. 1 is the basic structure schematic diagram of oxygen-enriching device;

Fig. 2 is the structural representation of irrigation device in a kind of embodiment;

Fig. 3 is the structural representation of irrigation device in another kind of embodiment.

Wherein, the numbered list that concrete original paper is corresponding is as follows:

100, oxygen-enriching device 110, water inlet pipe

111, liquid filter 112, first adjuster

113, the first manometer 120, air inlet pipe

121, pneumatic filter 122, second adjuster

123, the second manometer 130, booster pump

131, the 3rd adjuster 132, the 3rd manometer

140, emulsifier 150, discharge pipe

160,260,360, irrigation device 161,261,361, micropore

Embodiment

Please refer to the drawing 1, present embodiment discloses a kind of oxygen-enriching device 100, this oxygen-enriching device 100 includes: for connecting the water inlet pipe 110 treating oxygenation water body, for connecting the air inlet pipe 120 of oxygenerator or pure air, for carrying out the booster pump 130 pressurizeed after being mixed with air by water body, for generation of the emulsifier 140 of nano bubble and the discharge pipe 150 for discharging oxygenation water body.

Wherein, booster pump 130 is communicated with 120 respectively with water inlet pipe 110 and air inlet pipe, and emulsifier 140 is communicated with booster pump 130, and discharge pipe 150 is communicated with emulsifier 140.Between water inlet pipe 110 and booster pump 130, be provided with liquid filter 111, treat the various microparticle impurity in oxygenation water body for filtering.Pneumatic filter 121 can also be provided with between air inlet pipe 120 and booster pump 130, for can residue in filtering oxygenerator or pure air, thus enable pure air pass through smoothly and transfer in booster pump.Discharge pipe 150 is provided with irrigation device 160, and irrigation device 160 is provided with several micropore 161, and in preferred version, above-mentioned micropore 161 is evenly located on irrigation device 160.

Irrigation device 160 can be tubulose, other can also can increase other shapes of discharging water body area coverage for tabular, spherical shape etc.Irrigation device 260 shown in Fig. 2 is tabular, and micropore 261 is evenly located on the irrigation device 260 of tabular, thus can increase the area coverage after bubble discharge.Irrigation device 360 shown in Fig. 3 is spherical shape, micropore 361 is evenly located at bottom the irrigation device 360 of ball, thus can under the effect of booster pump pressure, effectively oxygenation water body is expelled to the bottom for the treatment of oxygenation water body, thus increase the oxygen content of water bottom, make it increase time that oxygen floats water body.In preferred real-time mode, the aperture of above-mentioned micropore is 0.9mm-1.6mm.

Traditional oxygen-increasing device, connects the pure oxygen obtained by oxygenerator in one end of air inlet pipe, to guarantee that more oxygen can exist in water body, thus promote the breeding of oxygen consumption biology.Find in practice, be drained into most of oxygen of water body, very fast the floating on the surface of the water of meeting under the effect of buoyancy, its oxygenation area is relatively little, poor effect.And the oxygen-enriching device 100 involved by present embodiment, discharge pipe 150 is provided with the irrigation device 160 with several micropore 161, irrigation device 160 is under the effect of booster pump 130 pressure, the water body being mixed with oxygen produced in emulsifier 140 can be discharged at a high speed by micropore 161 above, because micropore 161 covers in all directions of irrigation device 160, thus effectively can increase the oxygen area coverage of water body, the oxygen that can produce in efficiency utilization emulsifier 140.

In addition, in other embodiments, booster pump 130 can also be communicated with 120 by a three-way pipe with water inlet pipe 110 and air inlet pipe.

In order to ensure the steadily controlled operation of oxygen-enriching device 100, the oxygen-enriching device 100 of present embodiment its also comprise and being located between water inlet pipe 110 and booster pump 130 for controlling the first adjuster 112 of inflow size, be located between air inlet pipe 120 and booster pump 130 for controlling the second adjuster 122 of air inflow size, and, be located at the 3rd adjuster 131 between booster pump 130 and emulsifier 140.In addition, also comprise the first manometer 113 be located between water inlet pipe 110 and booster pump 130, be located at the second manometer 123 between air inlet pipe 120 and booster pump 130, and, be located at the 3rd manometer 132 between booster pump 130 and emulsifier 140.

In other embodiments, the adjuster on oxygen-enriching device and manometer can be one, and also can be multiple, adjuster and manometric number be all selected depending on actual service condition.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. an oxygen-enriching device, is characterized in that, comprising:

For connecting the water inlet pipe treating oxygenation water body;

For connecting the air inlet pipe of oxygenerator/pure air;

For described water body is mixed with described the booster pump pressurizeed afterwards, described booster pump is communicated with described water inlet pipe and described air inlet pipe;

For generation of the emulsifier of nano bubble, described emulsifier is communicated with described booster pump; And,

For discharging the discharge pipe of oxygenation water body, described discharge pipe is communicated with described emulsifier; Described discharge pipe is provided with irrigation device, and described irrigation device is provided with several micropore.

2. a kind of oxygen-enriching device according to claim 1, is characterized in that, described irrigation device is tubulose, tabular or spherical shape.

3. a kind of oxygen-enriching device according to claim 1 and 2, it is characterized in that, described micropore is evenly located at bottom described irrigation device.

4. a kind of oxygen-enriching device according to claim 1, is characterized in that, the aperture of described micropore is 0.9mm-1.6mm.

5. a kind of oxygen-enriching device according to claim 1, is characterized in that, be provided with liquid filter between described water inlet pipe and described booster pump.

6. a kind of oxygen-enriching device according to claim 1, it is characterized in that, described emulsifier comprises tube connector, the nano bubble reactor be communicated with described tube connector, and the end of described tube connector is communicated with described booster pump and described discharge pipe successively.

7. a kind of oxygen-enriching device according to claim 1, it is characterized in that, described tube connector has at least two by described booster pump to the circulation duct of described discharge pipe, and described circulation duct is provided with at least one for controlling the valve in water body flow direction in described tube connector.

8. a kind of oxygen-enriching device according to claim 7, is characterized in that, described valve is magnetic valve.

9. a kind of oxygen-enriching device according to claim 1, is characterized in that, also comprises the first adjuster for controlling water yield size, the second adjuster and the 3rd adjuster; Described first adjuster is located between described water inlet pipe and described booster pump, and described second adjuster is located between described air inlet pipe and described booster pump, and described 3rd adjuster is located between described booster pump and described emulsifier.

10. a kind of oxygen-enriching device according to claim 1, it is characterized in that, also comprise and be located at the first manometer between described water inlet pipe and described booster pump, be located at the second manometer between described air inlet pipe and described booster pump and be located at the 3rd manometer between described booster pump and described emulsifier.