CN212174598U - Water microorganism viable bacteria culture oxygen dissolving device - Google Patents

Abstract

The utility model discloses a water microorganism viable bacteria culture oxygen dissolving device, which comprises a microorganism incubator and an oxygen dissolving mechanism arranged on the microorganism incubator; supporting rods are arranged at four corners of the microorganism cultivation box, so that a solar panel is arranged on the supporting rods, is bent upwards and is positioned above the oxygen dissolving mechanism; a control box is arranged on the side edge of the oxygen dissolving mechanism, a battery connected with the solar panel is arranged in the control box, and the oxygen dissolving mechanism comprises an oxygen dissolving tank arranged on the microorganism incubator; dissolve oxygen jar inside from top to bottom be provided with water diversion tray and water-collecting tray, the utility model discloses be equipped with solar panel to this charges for the battery in the control box, thereby lets the battery supply power, and guarantees the normal work of each part.

Description

Water microorganism viable bacteria culture oxygen dissolving device

Technical Field

The utility model relates to a aquaculture dissolves oxygen device field, concretely relates to water microorganism viable bacteria cultivates and dissolves oxygen device.

Background

In aquaculture industry, such as fish and shrimp culture, oxygen pumps, aquaculture fans, impeller type oxygen increasing machines and other equipment are mostly arranged in culture water to enhance water body dissolved oxygen, but the equipment is mostly connected with a power supply through wires to ensure normal use.

Therefore, the equipment is difficult to use continuously, and the equipment needs to be connected with a power supply every time the equipment is used, so that the operation is troublesome, and in addition, the equipment has the danger of electric leakage when the equipment is used in thunderstorm weather.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a water microorganism viable bacteria culture dissolved oxygen device to the weak point of prior art to reach the purpose of guaranteeing to last normal use.

The utility model adopts the technical proposal that: a water body microorganism viable bacteria culture oxygen dissolving device comprises a microorganism incubator and an oxygen dissolving mechanism arranged on the microorganism incubator; supporting rods are arranged at four corners of the microorganism cultivation box, so that a solar panel is arranged on the supporting rods, is bent upwards and is positioned above the oxygen dissolving mechanism; the side of the dissolved oxygen mechanism is provided with a control box, and a battery connected with the solar panel is arranged in the control box.

Further, the oxygen dissolving mechanism comprises an oxygen dissolving tank arranged on the microorganism incubator; a water distribution disc and a water collection disc are arranged in the dissolved oxygen tank from top to bottom.

Furthermore, a water inlet pipe is arranged on the oxygen dissolving tank, one end of the water inlet pipe is installed at the top of the oxygen dissolving tank, a water suction pump is arranged at the other end of the water inlet pipe, and the water suction pump is positioned in the microorganism incubator; the bottom of the dissolved oxygen tank is provided with a water outlet pipe, and the lower end port of the water outlet pipe is positioned below the microorganism incubator.

Furthermore, the water diversion disc is disc-shaped, and through holes penetrating through the two planes are uniformly formed in the water diversion disc; the water distribution disc and the water collection disc are identical in structure.

Furthermore, a pipeline is connected between the water inlet pipe and the water outlet pipe, and an adjusting valve used for adjusting the air pressure inside the dissolved oxygen tank is arranged on the pipeline.

Furthermore, a dock-type buoy body is arranged on the side edge of the microorganism incubator.

Furthermore, a partition board is arranged in the microorganism incubator to divide the interior of the microorganism incubator into a plurality of strain incubation spaces.

Furthermore, a filter material block is arranged in the strain cultivation space, and a slow-release strain storage tank is arranged in the filter material block.

Furthermore, a gap is arranged in the side wall of the microorganism incubator.

Furthermore, a hole site for air to enter is arranged at the upper part of the dissolved oxygen tank.

The utility model has the advantages that: the utility model discloses be equipped with solar panel to this charges for the battery in the control box, thereby lets the battery supply power, and guarantees the normal work of each part.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

fig. 3 is a top view of the present invention.

The device comprises a microorganism cultivation box 1, a microorganism cultivation box 2, an oxygen dissolving mechanism 3, a solar panel 4, a support rod 5, a control box 6, a dock type buoy body 7, a water outlet pipe 8, a filter material block 9, a water inlet pipe 10, a water suction pump 11, a slow release type strain storage tank 12, a regulating valve 21, an oxygen dissolving tank 22, a water distribution disc 23, a water collection disc 101 and a strain cultivation space.

Detailed Description

The present invention will be further explained with reference to the embodiments of the drawings.

As shown in fig. 1, the utility model adopts the technical scheme that: a water body microorganism viable bacteria culture oxygen dissolving device comprises a microorganism incubator 1 and an oxygen dissolving mechanism 2 arranged on the microorganism incubator 1, wherein the microorganism incubator 1 is used for cultivating microorganisms, and the oxygen dissolving mechanism 2 is used for fully mixing air into water; the four corners of the microorganism incubator 1 are provided with support rods 4, so that the support rods 4 are provided with solar panels 3; the side of the dissolved oxygen mechanism 2 is provided with a control box 5, a battery connected with the solar panel 3 is arranged in the control box 5, and the battery provides electric energy for each part of the device.

The solar panel 3 can absorb sunlight and convert the sunlight into electric energy, so that the battery in the control box 5 is charged, the electric quantity in the battery is sufficient, the battery can supply power to all parts, and the normal work of all equipment is ensured; solar panel 3 is the kickup setting, and is located 2 tops of dissolved oxygen mechanism to this lets solar panel 3 increase and the area of contact of light, can also make it protect following part, and in rainy or sunshine violent weather, solar panel 3 can carry out certain degree for following part and shelter from, with this provides the guard action.

As shown in fig. 2, the dissolved oxygen mechanism 2 comprises an dissolved oxygen tank 21 mounted on the microorganism incubator 1, and a water distribution tray 22 and a water collection tray 23 are arranged in the dissolved oxygen tank 21 from top to bottom; the oxygen dissolving tank 21 is provided with a water inlet pipe 9, one end of the water inlet pipe 9 is installed at the top of the oxygen dissolving tank 21, the other end of the water inlet pipe 9 is provided with a water suction pump 10, and the water suction pump 10 is positioned in the microorganism incubator 1; the bottom of the oxygen dissolving tank 21 is provided with a water outlet pipe 7, and the lower end port of the water outlet pipe 7 is positioned below the microorganism incubator 1.

Wherein the water pump 10 pumps the water containing the microorganisms in the microorganism incubator 1 into the dissolved oxygen tank 21, when the water just enters the dissolved oxygen tank 21, because the oxygen dissolving tank 21 is relatively sealed, when the water flow falls down, a certain vacuum is formed on the upper part of the oxygen dissolving tank 21, so that the external air can be sucked into the dissolved oxygen tank 21 at the hole site of the upper end of the dissolved oxygen tank 21, then the water flow falls on the water diversion disc 22 and is divided into a plurality of small water flows on the water diversion disc 22 to fall down, so that the water flow is fully contacted with the air in the oxygen dissolving tank 21, thereby increasing the oxygen content in the water flow, when the water flow reaches the water collecting tray 23, the water flow can be shunted again, further the air is contacted with the water flow, the oxygen content in the water is increased again, finally, the oxygen-enriched water flow is discharged from the water outlet pipe 7 at the lower part of the dissolved oxygen tank 21 to the culture water area, thereby increasing the oxygen content in the water of the culture water area.

The structure of the water diversion disc 22 is the same as that of the water collection disc 23, the water diversion disc 22 is disc-shaped, and through holes penetrating through two planes are uniformly formed in the water diversion disc 22, so that water flow is divided, and the water flow is dispersed.

A pipeline is connected between the water inlet pipe 9 and the water outlet pipe 7, and the pipeline is provided with an adjusting valve 12, so that the normal air pressure in the oxygen dissolving tank 21 is ensured.

The side of the microorganism incubator 1 is provided with a dock-type buoy body 6, so that the device can float on the water surface.

As shown in fig. 2 and 3, a gap is formed in the side wall of the microorganism incubator 1, so that water in the culture water area enters the microorganism incubator 1; be provided with the baffle in the microorganism artificial containers 1, with this with microorganism artificial containers 1 internal partitioning become a plurality of bacterial cultivation space 101, and the baffle height sets up in proper order by low toward high to this let rivers come in to one of them bacterial cultivation space 101 from the breach, then enter into each cultivation space 101 in proper order through the extraction of suction pump 10, and in last bacterial cultivation space 101 department through suction pump 10 with rivers extraction dissolved oxygen jar 21.

Be provided with filter block 8 in the bacterial cultivation space 101, filter block 8 is used for filtering the impurity of rivers to this prevents that debris in the rivers from entering into suction pump 10 or other pipelines and causing the jam, be provided with slow-release type bacterial in the filter block 8 and deposit jar 11, cultivates the microorganism with this in the jar, and makes the microorganism mix the aquatic when rivers pass through, then drops into through suction pump 10 and breed in the waters, and the microorganism is used for carrying out sewage treatment and improvement aquatic dissolved oxygen volume to breeding the waters.

The utility model discloses can guarantee that each part lasts normal work, and multiplicable aquatic dissolved oxygen volume to improve and breed output.

The above is only the preferred embodiment of the present invention, the present invention is not limited to the above embodiment, there may be local minor structural modification in the implementation process, if it is right that various modifications or variations of the present invention do not depart from the spirit and scope of the present invention, and belong to the claims and the equivalent technical scope of the present invention, then the present invention is also intended to include these modifications and variations.

Claims (10)

1. The utility model provides a water microorganism viable bacteria culture dissolved oxygen device which characterized in that: comprises a microorganism incubator and an oxygen dissolving mechanism arranged on the microorganism incubator; supporting rods are arranged at four corners of the microorganism cultivation box, so that a solar panel is arranged on the supporting rods, is bent upwards and is positioned above the oxygen dissolving mechanism; the side of the dissolved oxygen mechanism is provided with a control box, and a battery connected with the solar panel is arranged in the control box.

2. The water body microorganism viable bacteria culture oxygen dissolving device according to claim 1, characterized in that: the oxygen dissolving mechanism comprises an oxygen dissolving tank arranged on the microorganism incubator; a water distribution disc and a water collection disc are arranged in the dissolved oxygen tank from top to bottom.

3. The water body microorganism viable bacteria culture oxygen dissolving device according to claim 2, characterized in that: a water inlet pipe is arranged on the dissolved oxygen tank, one end of the water inlet pipe is installed at the top of the dissolved oxygen tank, a water suction pump is arranged at the other end of the water inlet pipe, and the water suction pump is positioned in the microorganism incubator; the bottom of the dissolved oxygen tank is provided with a water outlet pipe, and the lower end port of the water outlet pipe is positioned below the microorganism incubator.

4. The water body microorganism viable bacteria culture oxygen dissolving device according to claim 2, characterized in that: the water diversion disc is disc-shaped, and through holes penetrating through the two planes are uniformly formed in the water diversion disc; the water distribution disc and the water collection disc are identical in structure.

5. The device for living bacteria cultivation and oxygen dissolution of water body microorganisms according to claim 3, which is characterized in that: a pipeline is connected between the water inlet pipe and the water outlet pipe, and an adjusting valve used for adjusting the air pressure inside the dissolved oxygen tank is arranged on the pipeline.

6. The water body microorganism viable bacteria culture oxygen dissolving device according to claim 1, characterized in that: the side of the microorganism incubator is provided with a dock-type buoy body.

7. The water body microorganism viable bacteria culture oxygen dissolving device according to claim 1, characterized in that: the inside of the microorganism incubator is provided with a partition board which divides the inside of the microorganism incubator into a plurality of strain incubation spaces.

8. The device for living bacteria cultivation and oxygen dissolution of water body microorganisms according to claim 7, which is characterized in that: a filter material block is arranged in the strain cultivation space, and a slow-release strain storage tank is arranged in the filter material block.

9. The water body microorganism viable bacteria culture oxygen dissolving device according to claim 1, characterized in that: a notch is arranged in the side wall of the microorganism incubator.

10. The water body microorganism viable bacteria culture oxygen dissolving device according to claim 2, characterized in that: and a hole site for air to enter is arranged at the upper part of the dissolved oxygen tank.

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