CN113615424A

CN113615424A - Efficient dissolved oxygen equipment

Info

Publication number: CN113615424A
Application number: CN202110848655.4A
Authority: CN
Inventors: 冷天华; 袁昌定; 何道领; 韦艺媛; 高敏
Original assignee: Sichuan Hongkui Environmental Protection Technology Co ltd
Current assignee: Sichuan Hongkui Environmental Protection Technology Co ltd
Priority date: 2021-07-26
Filing date: 2021-07-26
Publication date: 2021-11-09

Abstract

The invention discloses a high-efficiency oxygen dissolving device, which comprises a base, wherein the base is a rectangular body, one side of the base is provided with a water supply tank, the other side of the base is provided with a culture tank, the upper end surface of the base is connected with a water pump, one end of the water pump is connected with a water inlet, the water inlet is connected with a water inlet pipe, the upper end of the water pump is connected with a water outlet, the water outlet is connected with a first water discharge pipe, two sides of the upper end surface of the culture tank are connected with support columns for fixing the first water discharge pipe, the first water discharge pipe is provided with a plurality of second water discharge pipes, one end of each second water discharge pipe is positioned in the culture tank, the upper end surface of the base is also connected with an oxygen generator, the oxygen generator is communicated with the water inlet pipe through a gas pipe, a solenoid valve is communicated between the gas pipes, one side of the base is connected with a controller, and the water pump, the oxygen generator and the solenoid valve are all electrically connected with the controller, so that the shortage of the oxygen content in the water body during the existing aquatic plant culture and aquatic organism culture is solved, leading to the problems that aquatic plants easily wither and aquatic organisms easily die.

Description

Efficient dissolved oxygen equipment

Technical Field

The invention relates to equipment, in particular to high-efficiency oxygen dissolving equipment.

Background

When the existing aquatic plant cultivation and aquatic organism cultivation, the content of microorganisms in the water body is high due to the fact that the nutrient content in the water body is larger than the nutrient content in the water body, when the air temperature is high, a large amount of oxygen is consumed by the microorganisms in the water body, the oxygen content in the water body is insufficient, the oxygen content in the cultivation pool is insufficient due to the fact that the oxygen consumption of the microorganisms is excessive, aquatic plants in the cultivation pool wither, aquatic organisms in the cultivation pool die due to oxygen deficiency, when the oxygen deficiency in the cultivation pool is caused, oxygen needs to be supplemented to the interior of the cultivation pool, the oxygen content in the cultivation pool is increased, and oxygen needed by the aquatic plants and the aquatic organisms is convenient to meet, however, the existing method for increasing oxygen in the cultivation pool generally adopts a method of stirring the water body to increase oxygen, or water in the cultivation pool is sprayed to the air through a water pump, so that the water adsorbs oxygen in the air, and then the water falls back into the cultivation pool to increase the oxygen, however, the above-mentioned method of increasing oxygen in the culture pond is inefficient, resulting in difficulty in satisfying the oxygen demand of aquatic plants and aquatic organisms.

Disclosure of Invention

The invention aims to solve the technical problems that the aquatic plants are easy to wither and the aquatic organisms are easy to die due to insufficient oxygen content in the water body during the existing aquatic plant cultivation and aquatic organism cultivation, and provides high-efficiency oxygen dissolving equipment which solves the problems that the aquatic plants are easy to wither and the aquatic organisms are easy to die due to insufficient oxygen content in the water body during the existing aquatic plant cultivation and aquatic organism cultivation.

The invention is realized by the following technical scheme:

an efficient oxygen dissolving device comprises a base, wherein the base is a cuboid, a water supply pool is arranged on one side of the base, clear water is stored in the water supply pool, a culture pool is arranged on the other side of the base, clear water for culturing animals and plants is stored in the culture pool, the upper end of the culture pool is open, a water pump is connected to the upper end face of the base, a water inlet is connected to one end of the water pump, a water inlet pipe is connected in the water inlet, one end of the water inlet pipe is communicated with the water inlet, the other end of the water inlet pipe is positioned in the water supply pool, a water outlet is connected to the upper end of the water pump, a first water drainage pipe is connected in the water outlet, one end of the first water drainage pipe is communicated with the water outlet, the other end of the first water drainage pipe is positioned above the culture pool, supporting columns for fixing the first water drainage pipe are connected to two sides of the upper end face of the culture pool, a plurality of second water drainage pipes are arranged on the first water drainage pipe, the second water drainage pipes are flexible pipes uniformly distributed on the first water drainage pipe, the one end and the first drain pipe intercommunication of second drain pipe, the other end of second drain pipe are located and breed the pond inside, and the up end of base still is connected with the oxygenerator, and the oxygenerator passes through the gas-supply pipe intercommunication with the inlet tube, and the intercommunication has the solenoid valve between the gas-supply pipe, and one side of base is connected with the controller, and water pump, oxygenerator, solenoid valve all with controller electric connection.

The working principle of the invention is as follows: in order to solve the technical problems, an efficient oxygen dissolving device is arranged at present, a water supply tank is used for storing clear water, a base is used for being connected with a water pump and an oxygen generator, a water inlet is used for being communicated with a water inlet pipe, a water outlet is used for being communicated with a first water drainage pipe, the water inlet pipe is used for conveying the clear water in a water supply tank into the water pump, the water pump is used for conveying the clear water into the first water drainage pipe, the first water drainage pipe is used for conveying the clear water into a second water drainage pipe, the second water drainage pipe is used for conveying the clear water into a culture tank, the culture tank is used for aquatic plant culture and aquatic organism culture, the oxygen generator is used for preparing high-purity oxygen, and a gas conveying pipe is used for conveying the prepared high-purity oxygen into the water inlet pipe, so that the prepared high-purity oxygen along with the first water drainage pipe, The second drain pipe is carried and is bred the pond inside, the solenoid valve is used for opening, close the gas-supply pipe, the solenoid valve is still used for adjusting the passageway that the gas-supply pipe opened, be convenient for adjust the oxygen volume of carrying in the inlet pipe, the controller is used for transferring the water pump, the oxygenerator, the work of solenoid valve, the support column is used for connecting first drain pipe, make first drain pipe be located the top of breeding the pond, a plurality of second drain pipes make the equipartition inside breeding the pond, be used for distributing the clear water that contains high-purity oxygen to each position of breeding the pond, be convenient for provide sufficient oxygen to each position of breeding the pond.

The controller actuates the electromagnetic valve to work, the electromagnetic valve closes the channel of the gas pipe, the water pump is convenient to convey clean water to the interior of the culture pond by closing the channel of the gas pipe, the problem that the water pump is difficult to suck the clean water into the water inlet pipe is avoided, the water pump is actuated by the controller to work, the water pump conveys the clean water in the water supply pond to the interior of the water inlet pipe, the water pump conveys the clean water to the interior of the first water discharge pipe and the second water discharge pipe, the controller actuates the oxygen generator to work, the oxygen generator conveys the prepared high-purity oxygen to the interior of the gas pipe, the controller actuates the electromagnetic valve to work, the channel of the gas pipe is opened through the electromagnetic valve, the input oxygen is mixed with the clean water in the water inlet pipe, negative pressure is formed when the water pump sucks water flow in the water inlet pipe, the high-purity oxygen in the gas pipe is convenient to be sucked into the water inlet pipe through the negative pressure, and the high-purity oxygen is fully mixed with the clean water in the water inlet pipe, carry each position of breed pond through the inside second drain pipe of equipartition in breed pond again with the clear water that contains high-purity oxygen, each position in the breed pond of being convenient for has sufficient oxygen content, it is preferred, according to the difference of temperature, the size of opening the valve through controller adjusting solenoid valve, be convenient for carry breed pond inside with the oxygen of equidimension not, be convenient for satisfy the demand to oxygen in the breed pond, through the efficient dissolved oxygen equipment that sets up, oxygen content in the water is not enough when having solved current aquatic plant cultivation and aquatic products aquaculture, lead to the easy withered problem of aquatic plants and the easy death of aquatic products.

Further, a support plate is connected between the support columns, the support plate is positioned below the first drain pipe, a plurality of sliding grooves are connected to the lower end face of the support plate, the central axis of each sliding groove is perpendicular to the central axis of the support plate, the sliding grooves are in one-to-one correspondence with the second drain pipes, a support table is arranged in each sliding groove, the support table is in sliding connection with the sliding grooves, the second drain pipes are connected with one side of the support table, a driving mechanism is further arranged in each sliding groove, the driving mechanism drives the support table to reciprocate along the sliding grooves, the driving mechanism is electrically connected with the controller, the support columns are used for connecting the support plates, the support plate is used for connecting the plurality of sliding grooves, the sliding grooves are used for enabling the support table to reciprocate along the axial lines of the sliding grooves, the support table is connected with the second drain pipes, the support table slides while driving the second drain pipes to slide, the second drain pipes are flexible pipes, and the length of the second drain pipes is preferably suitable for the support table to drive the second drain pipes to slide to all positions of the sliding grooves, actuating mechanism is used for driving a supporting bench and carries out reciprocating motion along the spout, and the controller is used for transferring actuating mechanism work, and when the second drain pipe provided oxygen in to breeding the pond, the rigidity of second drain pipe just is difficult to provide sufficient oxygen to the position of breeding the pond difference, drives the second drain pipe through a supporting bench and slides for each position is carried to the clear water that the second drain pipe will contain high-purity oxygen, is convenient for satisfy the demand of each position to oxygen.

Further, actuating mechanism includes driving trolley, driving trolley and spout sliding connection, driving trolley's drive wheel is connected with the bottom contact of spout, driving trolley's one end and brace table are connected, driving trolley and controller electric connection, the controller is used for mobilizing driving trolley and carries out work, driving trolley and spout sliding connection, make driving trolley along spout reciprocating motion when being convenient for spout fixed driving trolley, driving trolley's drive wheel is connected with the bottom of spout, the transmission that is convenient for driving trolley produces transmits the drive wheel, be convenient for change driving trolley's position through the friction of drive wheel and spout bottom, drive the positive and negative rotation of drive wheel through driving trolley, be convenient for realize that driving trolley drives brace table along spout reciprocating motion.

Furthermore, a hydraulic pump is connected to the lower end face of the support platform, a multi-stage telescopic shaft is connected in the hydraulic pump, one end of the multi-stage telescopic shaft is connected with a support ring, the support ring is used for connecting the other end of the second drain pipe, the hydraulic pump is electrically connected with the controller, a reinforcing column is arranged between the support platform and the hydraulic pump and located on a circle around the hydraulic pump, one end of the reinforcing column is connected with the support platform, the other end of the reinforcing column is connected with the hydraulic pump, the hydraulic pump is used for driving the multi-stage telescopic shaft to do up-and-down telescopic motion, one end of the multi-stage telescopic shaft is used for connecting the support ring, the support ring is used for fixing the other end of the second drain pipe, the controller is used for adjusting the hydraulic pump to work, the second drain pipe conveys clean water containing high-purity oxygen into the culture pond, but the position of the second drain pipe for outputting clean water is fixed, and the clean water is difficult to convey into the culture pond at different depths, the hydraulic pump is transferred through the controller to work, the hydraulic pump transfers the work of the multistage telescopic shafts, the multistage telescopic shafts drive the other end of the second drain pipe to move up and down, clear water output by the second drain pipe is conveyed to positions of different depths in the culture pond, the requirement of each position in the culture pond on oxygen is convenient to meet, the reinforcing columns are used for enhancing the connection of the hydraulic pump and the lower end face of the supporting table, and the hydraulic pump is prevented from being connected with the supporting table.

Further, still the intercommunication has the ejector between the gas-supply pipe, the ejector is located between solenoid valve and the oxygenerator, the ejector sprays the oxygen in the gas-supply pipe into the inlet tube, make the oxygen in the gas-supply pipe fully mix with the clear water in the inlet tube, make the clear water of inputing to breed the inside in pond contain sufficient oxygen, be convenient for satisfy the demand to oxygen in breeding the pond, it is preferred, form the negative pressure when intaking rivers in the inlet tube through the water pump, the negative pressure is convenient for inhale the inlet tube with the oxygen in the gas-supply pipe, make oxygen and the abundant blending of clear water.

Further, the other end of inlet tube is connected with the cartridge filter, and the cartridge filter is inside hollow trapezoidal body, the both ends opening of cartridge filter, and the bore of cartridge filter and water piping connection one end becomes to the bore of the other end gradually, and the shape of cartridge filter is convenient for gather the clear water in the water supply tank together for clear water gets into the inlet tube inside, is convenient for carry for providing the clear water that lasts in the inlet tube.

Further, the inside filter screen that is equipped with of cartridge filter, the shape of filter screen and the inside shape phase-match of cartridge filter, the outer wall of filter screen and the interior wall connection of cartridge filter, the axis of the up end perpendicular to inlet tube of filter screen, the filter screen is used for filtering the impurity in the water supply pond, has avoided inside impurity gets into the inlet tube, and then has avoided inside impurity gets into the water pump, has avoided the damage problem that leads to the water pump.

Compared with the prior art, the invention has the following advantages and beneficial effects:

1. according to the efficient oxygen dissolving device, the hydraulic pump drives the multistage telescopic shafts to work, the multistage telescopic shafts drive the second drain pipes to move up and down, and clear water output by the second drain pipes is conveyed to positions at different depths in the culture pond, so that the requirement of each position in the culture pond on oxygen is met;

2. according to the efficient oxygen dissolving device, the supporting table drives the second drain pipe to slide, so that the second drain pipe conveys clear water containing high-purity oxygen to each position, and the requirement of each position on the oxygen is met conveniently;

3. according to the efficient oxygen dissolving equipment, the second drain pipes are uniformly distributed on the first drain pipes, and clear water containing high-purity oxygen is conveyed to each position of the culture pond through the second drain pipes uniformly distributed in the culture pond, so that each position of the culture pond has sufficient oxygen content.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic view of the structure of the present invention.

Reference numbers and corresponding part names in the drawings:

1-base, 2-water supply tank, 3-culture tank, 4-water pump, 5-water inlet, 6-water inlet pipe, 7-water outlet, 8-first water discharge pipe, 9-support column, 10-second water discharge pipe, 11-oxygen generator, 12-gas pipe, 13-electromagnetic valve, 14-controller, 15-support plate, 16-chute, 17-support table, 18-hydraulic pump, 19-multi-stage telescopic shaft, 20-support ring, 21-reinforced column, 22-jet ejector, 23-filter cartridge, 24-filter screen.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Example 1

The invention relates to high-efficiency oxygen dissolving equipment, which comprises a base (1) as shown in figure 1, wherein the base (1) is a rectangular body, a water supply tank (2) is arranged on one side of the base (1), clear water is stored in the water supply tank (2), a culture tank (3) is arranged on the other side of the base (1), clear water for culturing animals and plants is stored in the culture tank (3), the upper end of the culture tank (3) is opened, a water pump (4) is connected to the upper end surface of the base (1), a water inlet (5) is connected to one end of the water pump (4), a water inlet pipe (6) is connected in the water inlet (5), one end of the water inlet pipe (6) is communicated with the water inlet (5), the other end of the water inlet pipe (6) is positioned in the water supply tank (2), a water outlet (7) is connected to the upper end of the water pump (4), a first water drainage pipe (8) is connected in the water outlet (7), one end of the first water drainage pipe (8) is communicated with the water outlet (7), the other end of the first drainage pipe (8) is positioned above the culture pond (3), two sides of the upper end surface of the culture pond (3) are connected with support columns (9) for fixing the first drainage pipe (8), the first drainage pipe (8) is provided with a plurality of second drainage pipes (10), the second drainage pipes (10) are flexible pipes, the second drainage pipes (10) are uniformly distributed on the first drainage pipe (8), one end of each second drainage pipe (10) is communicated with the first drainage pipe (8), the other end of each second drainage pipe (10) is positioned inside the culture pond (3), the upper end surface of the base (1) is also connected with an oxygen generator (11), the oxygen generator (11) is communicated with the water inlet pipe (6) through a gas pipe (12), an electromagnetic valve (13) is communicated between the gas pipes (12), one side of the base (1) is connected with a controller (14), a water pump (4) and the oxygen generator (11), the electromagnetic valves (13) are electrically connected with the controller (14).

The specific implementation manner of this embodiment is: the controller actuates the electromagnetic valve to work, the electromagnetic valve closes the channel of the gas pipe, the water pump is convenient to convey clean water to the interior of the culture pond by closing the channel of the gas pipe, the problem that the water pump is difficult to suck the clean water into the water inlet pipe is avoided, the water pump is actuated by the controller to work, the water pump conveys the clean water in the water supply pond to the interior of the water inlet pipe, the water pump conveys the clean water to the interior of the first water discharge pipe and the second water discharge pipe, the controller actuates the oxygen generator to work, the oxygen generator conveys the prepared high-purity oxygen to the interior of the gas pipe, the controller actuates the electromagnetic valve to work, the channel of the gas pipe is opened through the electromagnetic valve, the input oxygen is mixed with the clean water in the water inlet pipe, negative pressure is formed when the water pump sucks water flow in the water inlet pipe, the high-purity oxygen in the gas pipe is convenient to be sucked into the water inlet pipe through the negative pressure, and the high-purity oxygen is fully mixed with the clean water in the water inlet pipe, carry the clear water that contains high-purity oxygen each position of breed pond through the equipartition again at the inside second drain pipe of breed pond, each position of the breed pond of being convenient for has sufficient oxygen content, it is preferred, according to the difference of temperature, the size of opening the valve through controller adjusting solenoid valve, it is inside to be convenient for carry breed pond with the oxygen of equidimension not, be convenient for satisfy the demand to oxygen in the breed pond, it is preferred, the water supply tank passes through the water pipe intercommunication with the breed pond, be convenient for the recycling of water, through the efficient dissolved oxygen equipment that sets up, oxygen content in the water is not enough when having solved current aquatic plant cultivation and aquatic products cultivation, lead to the easy withered and the easy dead problem of aquatic products of aquatic plants.

Example 2

Based on embodiment 1, as shown in fig. 1, a supporting plate (15) is connected between supporting columns (9), the supporting plate (15) is located below a first drainage pipe (8), a plurality of sliding grooves (16) are connected to the lower end surface of the supporting plate (15), the central axis of each sliding groove (16) is perpendicular to the central axis of the supporting plate (15), the sliding grooves (16) are in one-to-one correspondence with second drainage pipes (10), a supporting table (17) is arranged in each sliding groove (16), the supporting table (17) is in sliding connection with the corresponding sliding groove (16), the second drainage pipes (10) are connected with one side of the corresponding supporting table (17), a driving mechanism is further arranged in each sliding groove (16), the driving mechanism drives the supporting table (17) to reciprocate along the corresponding sliding groove (16), the driving mechanism is electrically connected with a controller (14), the driving mechanism comprises a driving trolley, the driving trolley is in sliding connection with the corresponding sliding groove (16), and a driving wheel of the driving trolley is in contact connection with the bottom of the corresponding sliding groove (16), one end of the driving trolley is connected with the supporting platform (17), and the driving trolley is electrically connected with the controller (14).

The specific implementation manner of this embodiment is: the support column is used for connecting the support plate, the support plate is used for connecting the plurality of sliding grooves, the sliding grooves are used for enabling the support table to reciprocate along the axis of the sliding grooves, the support table is used for being connected with the second drain pipe, the support table slides and drives the second drain pipe to slide, the second drain pipe is a flexible pipe, preferably, the length of the second drain pipe is suitable for the support table to drive the second drain pipe to slide to each position of the sliding grooves, the driving mechanism is used for driving the support table to reciprocate along the sliding grooves, the controller is used for adjusting the driving mechanism to work, when the second drain pipe supplies oxygen to the culture pond, the position of the second drain pipe is fixed, sufficient oxygen is difficult to be supplied to different positions of the culture pond, the support table drives the second drain pipe to slide, the second drain pipe is enabled to convey clean water containing high-purity oxygen to each position, and requirements of each position on oxygen are convenient to meet, the controller is used for moving the driving trolley to work, the driving trolley is connected with the sliding groove in a sliding mode, the sliding groove is convenient for fixing the driving trolley, the driving trolley can move back and forth along the sliding groove, the driving wheel of the driving trolley is connected with the bottom of the sliding groove, transmission generated by the driving trolley is convenient to drive and transmit to the driving wheel, the position of the driving trolley can be changed conveniently through friction between the driving wheel and the bottom of the sliding groove, the driving wheel is driven to rotate forwards and backwards through the driving trolley, and the driving trolley can drive the supporting table to move back and forth along the sliding groove.

Example 3

Based on the basis of the above embodiment, as shown in fig. 1, the lower end surface of the supporting platform (17) is connected with a hydraulic pump (18), a multi-stage telescopic shaft (19) is connected in the hydraulic pump (18), one end of the multi-stage telescopic shaft (19) is connected with a supporting ring (20), the supporting ring (20) is used for connecting the other end of the second drain pipe (10), the hydraulic pump (18) is electrically connected with the controller (14), a reinforcing column (21) is arranged between the supporting platform (17) and the hydraulic pump (18), the reinforcing column (21) is located on a circle around the hydraulic pump (18), one end of the reinforcing column (21) is connected with the supporting platform (17), and the other end of the reinforcing column (21) is connected with the hydraulic pump (18).

The specific implementation manner of this embodiment is: the lower end surface of the supporting platform is connected with a hydraulic pump, a multistage telescopic shaft is connected in the hydraulic pump, one end of the multistage telescopic shaft is connected with a supporting ring, the supporting ring is used for connecting the other end of a second water discharging pipe, the hydraulic pump is electrically connected with a controller, a reinforcing column is arranged between the supporting platform and the hydraulic pump and is positioned on a circle around the hydraulic pump, one end of the reinforcing column is connected with the supporting platform, the other end of the reinforcing column is connected with the hydraulic pump, the hydraulic pump is used for driving the multistage telescopic shaft to do up-and-down telescopic motion, one end of the multistage telescopic shaft is used for connecting the supporting ring, the supporting ring is used for fixing the other end of the second water discharging pipe, the controller is used for adjusting the hydraulic pump to work, the second water discharging pipe conveys clean water containing high-purity oxygen to the interior of the culture pond, but the position of the clean water output by the second water discharging pipe is fixed, the clean water is difficult to convey to different depths in the culture pond, and the hydraulic pump is adjusted by the controller to work, the hydraulic pump transfers the work of multistage telescopic shaft, and multistage telescopic shaft drives the other end up-and-down motion of second drain pipe, carries the position of the different degree of depth in breeding the pond with the clear water of second drain pipe output, is convenient for satisfy each position in breeding the pond to the demand of oxygen, strengthens the post and is used for strengthening the hydraulic pump and propping up being connected of terminal surface under the supporting bench, has avoided the hydraulic pump to break away from the connection of supporting bench.

Example 4

Based on the basis of above-mentioned embodiment, as shown in fig. 1, still communicate between gas-supply pipe (12) and have ejector (22), ejector (22) are located between solenoid valve (13) and the oxygenerator (11), the other end of inlet tube (6) is connected with cartridge filter (23), cartridge filter (23) are inside hollow trapezoidal body, the both ends opening of cartridge filter (23), cartridge filter (23) are connected the bore of one end with inlet tube (6) and are crescent to the bore of the other end, cartridge filter (23) inside is equipped with filter screen (24), the shape of filter screen (24) and the inside shape phase-match of cartridge filter (23), the outer wall of filter screen (24) and the interior wall connection of cartridge filter (23), the up end perpendicular to the axis of inlet tube (6) of filter screen (24).

The specific implementation manner of this embodiment is: the ejector is positioned between the electromagnetic valve and the oxygen generator and used for ejecting oxygen in the gas transmission pipe into the water inlet pipe, so that the oxygen in the gas transmission pipe is fully mixed with clean water in the water inlet pipe, the clean water input into the culture pond contains enough oxygen, the requirement on the oxygen in the culture pond is conveniently met, preferably, negative pressure is formed when water flow is sucked into the water inlet pipe through the water pump, the oxygen in the gas transmission pipe is sucked into the water inlet pipe through the negative pressure, so that the oxygen and the clean water are fully mixed, the other end of the water inlet pipe is connected with a filter cartridge which is a hollow trapezoid body, two ends of the filter cartridge are opened, the caliber of one end, connected with the water inlet pipe, of the filter cartridge is gradually enlarged from the caliber of the other end, the shape of the filter cartridge is convenient for gathering the clean water in the water supply pond together, so that the clean water enters the water inlet pipe and is convenient for providing continuous clean water delivery in the water inlet pipe, the inside filter screen that is equipped with of cartridge filter, the shape of filter screen and the inside shape phase-match of cartridge filter, the outer wall of filter screen and the interior wall connection of cartridge filter, the axis of the up end perpendicular to inlet tube of filter screen, the filter screen is used for filtering the impurity in the water supply pond, inside having avoided impurity to get into the inlet tube, and then inside having avoided impurity to get into the water pump, avoided the damage problem that leads to the water pump.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. The efficient oxygen dissolving device is characterized by comprising a base (1), wherein the base (1) is a rectangular body, a water supply pool (2) is arranged on one side of the base (1), clear water is stored in the water supply pool (2), a culture pool (3) is arranged on the other side of the base (1), clear water for culturing animals and plants is stored in the culture pool (3), an upper end opening of the culture pool (3), a water pump (4) is connected to the upper end face of the base (1), one end of the water pump (4) is connected with a water inlet (5), a water inlet pipe (6) is connected in the water inlet (5), one end of the water inlet pipe (6) is communicated with the water inlet (5), the other end of the water inlet pipe (6) is positioned in the water supply pool (2), the upper end of the water pump (4) is connected with a water outlet (7), a first water drainage pipe (8) is connected in the water outlet (7), one end of the first water drainage pipe (8) is communicated with the water outlet (7), the other end of the first drainage pipe (8) is positioned above the culture pond (3), two sides of the upper end surface of the culture pond (3) are connected with support columns (9) for fixing the first drainage pipe (8), the first drainage pipe (8) is provided with a plurality of second drainage pipes (10), the second drainage pipes (10) are flexible pipes, the second drainage pipes (10) are uniformly distributed on the first drainage pipe (8), one end of each second drainage pipe (10) is communicated with the first drainage pipe (8), the other end of each second drainage pipe (10) is positioned inside the culture pond (3), the upper end surface of the base (1) is also connected with an oxygen generator (11), the oxygen generator (11) is communicated with the water inlet pipe (6) through a gas pipe (12), an electromagnetic valve (13) is communicated between the gas pipes (12), one side of the base (1) is connected with a controller (14), a water pump (4) and the oxygen generator (11), the electromagnetic valves (13) are electrically connected with the controller (14).

2. The efficient oxygen dissolving device according to claim 1, wherein a support plate (15) is connected between the support columns (9), the support plate (15) is located below the first drain pipe (8), a plurality of sliding grooves (16) are connected to the lower end face of the support plate (15), the central axis of each sliding groove (16) is perpendicular to the central axis of the support plate (15), the sliding grooves (16) are in one-to-one correspondence with the second drain pipes (10), a support table (17) is arranged in each sliding groove (16), the support table (17) is in sliding connection with the corresponding sliding grooves (16), the second drain pipes (10) are connected with one side of the support table (17), a driving mechanism is further arranged in each sliding groove (16), the driving mechanism drives the support table (17) to reciprocate along the corresponding sliding grooves (16), and the driving mechanism is electrically connected with the controller (14).

3. The efficient oxygen dissolving device as claimed in claim 2, wherein the driving mechanism comprises a driving trolley, the driving trolley is slidably connected with the chute (16), a driving wheel of the driving trolley is in contact connection with the bottom of the chute (16), one end of the driving trolley is connected with the supporting platform (17), and the driving trolley is electrically connected with the controller (14).

4. The efficient oxygen dissolving device according to claim 2, wherein a hydraulic pump (18) is connected to the lower end face of the support platform (17), a multi-stage telescopic shaft (19) is connected to the hydraulic pump (18), a support ring (20) is connected to one end of the multi-stage telescopic shaft (19), the support ring (20) is used for being connected to the other end of the second drain pipe (10), the hydraulic pump (18) is electrically connected with the controller (14), a reinforcing column (21) is arranged between the support platform (17) and the hydraulic pump (18), the reinforcing column (21) is located on a circle around the hydraulic pump (18), one end of the reinforcing column (21) is connected with the support platform (17), and the other end of the reinforcing column (21) is connected with the hydraulic pump (18).

5. The efficient oxygen dissolving equipment according to claim 1, wherein an ejector (22) is further communicated between the gas transmission pipes (12), and the ejector (22) is positioned between the electromagnetic valve (13) and the oxygen generator (11).

6. The high-efficiency oxygen dissolving device according to claim 1, wherein the other end of the water inlet pipe (6) is connected with a filter cartridge (23), the filter cartridge (23) is a trapezoid body with a hollow inside, two ends of the filter cartridge (23) are open, and the caliber of one end of the filter cartridge (23) connected with the water inlet pipe (6) is gradually increased to the caliber of the other end.

7. The efficient oxygen dissolving device according to claim 6, wherein a filter screen (24) is arranged inside the filter cartridge (23), the shape of the filter screen (24) is matched with the shape inside the filter cartridge (23), the outer wall of the filter screen (24) is connected with the inner wall of the filter cartridge (23), and the upper end face of the filter screen (24) is perpendicular to the axis of the water inlet pipe (6).