CN111418378B

CN111418378B - Nitrogen treatment storage device for plant planting

Info

Publication number: CN111418378B
Application number: CN202010373502.4A
Authority: CN
Inventors: 李虹; 杨美军; 李想; 李萍; 吴彤俊
Original assignee: Jilin Huayu Ecological Environment Co ltd
Current assignee: Jilin Huayu Ecological Environment Co ltd
Priority date: 2020-05-06
Filing date: 2020-05-06
Publication date: 2022-07-08
Anticipated expiration: 2040-05-06
Also published as: CN111418378A

Abstract

The invention discloses nitrogen treatment and storage equipment for plant planting, which comprises a circular box body, wherein a nitrogen treatment structure is arranged in the circular box body, a nitrogen drying structure is arranged on the nitrogen treatment structure, and a nitrogen storage structure is arranged on the nitrogen drying structure; the nitrogen gas processing structure includes: the device comprises a water tank, a screen plate, activated carbon, a servo motor and blades; the side wall surface of the round box body is provided with an air inlet, an air inlet pipe is inserted in the air inlet, and the screen plate is arranged on the side wall surface in the round box body and is positioned below the air inlet; the nitrogen drying device has the advantages that nitrogen is reasonably processed through the nitrogen processing structure of the device, the nitrogen after nitrogen processing is dried through the nitrogen drying structure, subsequent use is facilitated, the nitrogen is stored through the nitrogen storage structure, the dried nitrogen is reasonably stored, and the nitrogen can be directly used in the subsequent process.

Description

Nitrogen treatment storage device for plant planting

Technical Field

The invention relates to the field of nitrogen use for plant planting, in particular to nitrogen treatment and storage equipment for plant planting.

Background

During plant experiment is planted, need guarantee the reasonable normal growth of plant, especially the plant is in the culture dish because the air contact is few, so when growing, the nitrogen gas in the bottle can't satisfy vegetation, so need add nitrogen gas in to the culture dish, and traditional nitrogen gas is pouring into the culture dish, so when leading to using, has certain limitation.

The N element active light exists in the air and is simultaneously embodied in the soil, is easy to combine with flora in the soil to form combined nitrogen, and enters the plant body through the root system of the plant, so that the preservation of the crop germplasm resources can be extended on the basis of the combined nitrogen. C. H, O, N is four elements needed by plants, and the quantity of N directly influences the quality of the preservation of the crop germplasm. N is a plurality of important components in a plant body, such as nucleic acid, enzyme, chlorophyll and other substances, is the basis of genetic substances, the normal nitrogen content in the plant body is 16-18%, and a plurality of problems still exist in the preservation of germplasm resources at present, such as the cost is always high, the comprehensive cost of a conventional culture medium is about 5-8 yuan, the service cycle of the culture medium is short, and a large amount of resources are wasted. The industrial waste gas is low in cost, the industrial waste gas is collected more mature, is treated by a special compression tank and is easy to extract, and the industrial waste gas is treated by the protocol signed by each college, enterprise and scientific research unit. The normal plants have strong seedling stage, flowering stage, fruiting stage, great fruit stage and aging stage, and can be pumped into the culture container through a needle tube and a bottle cap filter membrane according to different nitrogen requirements of each stage of the plants to supplement nutrients required by the plants.

Disclosure of Invention

The invention aims to solve the problems and designs a nitrogen treatment and storage device for plant cultivation.

The technical scheme includes that the nitrogen processing and storing device for plant planting comprises a circular box body, wherein a nitrogen processing structure is arranged in the circular box body, a nitrogen drying structure is arranged on the nitrogen processing structure, and a nitrogen storing structure is arranged on the nitrogen drying structure;

the nitrogen gas processing structure comprises: the device comprises a water tank, a screen plate, activated carbon, a servo motor and blades;

the device comprises a circular box body, a screen plate, active carbon, a support frame, a water tank, a driving installation seat, a servo motor, a connecting rod, a driving installation seat, a connecting rod, a water tank, a micro pump, a pipe divider, a water tank and a water tank, wherein the circular box body is provided with an air inlet on the side wall surface, the air inlet is inserted with an air inlet pipe, the screen plate is arranged on the inner side wall surface of the circular box body and is positioned below the air inlet, the screen plate is provided with a screen shell, the active carbon is laid in the screen shell, the inner upper wall surface of the circular box body is provided with the support frame, the support frame is provided with a plurality of spray heads, the water tank is arranged below the circular box body, the water tank is arranged inside the circular box body, the micro pump is arranged inside the micro pump, the micro pump is inserted with the stretching pipe extending out of the water tank, one end of the stretching pipe is provided with the pipe, the first water pipe extending out of the spray head, the circular box body is connected with the pipe divider, the driving installation seat is provided with the driving installation seat, the servo motor, the driving end of the servo motor is provided with the connecting rod, the blade suit is on the connecting rod, install the conical shell in the circular box, the flowing water mouth has been seted up to conical shell lower wall face, install in the flowing water mouth and stretch out the flow pipe through circular box, a plurality of blow vents have been seted up to conical shell lateral wall face, circular box lateral wall face just is located the conical shell below and has seted up first exhaust port, install first blast pipe in the first exhaust port.

The nitrogen drying structure comprises: the heating plate, the leakage net, the air deflector and the strip-shaped box body;

the water-absorbing type air-conditioning box is characterized in that the leaking nets are respectively arranged on the inner side wall surface of the bar-shaped box body and close to the upper end and the lower end, water-absorbing cotton is paved on each leaking net, the left side of the bar-shaped box body is connected with one end of a first exhaust pipe, the heating plates are arranged on the left side and the right side of the bar-shaped box body, a pair of supporting columns corresponding to the positions are jointly arranged between the leaking nets, the air deflectors are respectively obliquely arranged on the supporting columns, the right side of the bar-shaped box body is provided with a second exhaust port, and a second exhaust pipe is inserted on the second exhaust port.

The nitrogen gas storage structure includes: the device comprises a collecting box, a pressure sensor and a storage box;

the collecting box is arranged on the second exhaust pipe, the pressure sensor is arranged on the inner side wall surface of the collecting box, the lower wall surface of the collecting box is provided with a mandril, the storage box is arranged on the mandril, the left side wall surface and the right side wall surface of the storage box are respectively provided with a first circular through hole, the inner side wall surface of the collecting box is provided with a third exhaust port, and a third exhaust pipe is inserted into the third exhaust port.

The round box body, the water tank and the lower wall surface of the collecting box are provided with the bearing frame, the lower wall surface of the bearing frame is provided with stand columns close to four corners, and the lower wall surface of each stand column is provided with a base plate.

The side wall surface of the collecting box is provided with a first strip-shaped through hole, and the side wall surface of the collecting box is connected with a first stop gate matched with the first strip-shaped through hole through a hinge.

The circular box side wall surface has been seted up second bar through-hole, circular box side wall surface has seted up with second bar through-hole assorted second stop gate, circular box side wall surface lower extreme is opened there is the drain, the blow off interpolation is equipped with the blow off pipe, the water inlet has been seted up to water tank side wall surface, the water inlet interpolation is equipped with the inlet tube, water tank side wall surface just is located the water inlet below and has seted up the delivery port, the interior cartridge of outlet port has the outlet pipe, equal cartridge has first control valve on inlet tube, outlet pipe, blow off pipe, water flowing pipe, first blast pipe and the second blast pipe.

According to the nitrogen processing and storing device for plant planting, which is manufactured by the technical scheme of the invention, nitrogen is reasonably processed by the nitrogen processing structure of the device, and is dried by the nitrogen drying structure, so that the nitrogen is convenient to use subsequently.

Drawings

FIG. 1 is a schematic structural diagram of a nitrogen treatment and storage device for plant cultivation according to the present invention;

FIG. 2 is a top view of a strip-shaped box body of the nitrogen treatment and storage device for plant cultivation, which is disclosed by the invention;

fig. 3 is a bottom view of a driving mounting seat of the nitrogen treatment and storage device for plant cultivation according to the present invention.

In the figure, 1, a circular box body; 2. a water tank; 3. a screen plate; 4. a first control valve; 5. a servo motor; 6. a blade; 7. an air inlet pipe; 8. a screen housing; 9. a support frame; 10. a spray head; 11. a micro-pump; 12. stretching the tube; 13. a pipe divider; 14. a first water pipe; 15. a drive mounting base; 16. a connecting rod; 17. a conical shell; 18. a water flow pipe; 19. a first exhaust pipe; 20. heating plates; 21. an air deflector; 22. a strip-shaped box body; 23. a pillar; 24. a second exhaust pipe; 25. a collection box; 26. a pressure sensor; 27. a storage box; 28. a top rod; 29. a third exhaust pipe; 30. a carrier; 31. a column; 32. a base plate; 33. a first shutter; 34. a second shutter; 35. a water outlet pipe; 36. a water inlet pipe; 37. a blow-off pipe; 38. a leakage net; 39. absorbent cotton.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, and as shown in fig. 1-3, a nitrogen processing and storing device for plant cultivation comprises a circular box body 1, wherein a nitrogen processing structure is arranged in the circular box body 1, a nitrogen drying structure is arranged on the nitrogen processing structure, and a nitrogen storing structure is arranged on the nitrogen drying structure;

the nitrogen gas processing structure comprises: the device comprises a water tank 2, a screen plate 3, active carbon, a servo motor 5 and blades 6;

an air inlet is arranged on the side wall surface of the circular box body 1, an air inlet pipe 7 is inserted in the air inlet, a screen plate 3 is arranged on the side wall surface in the circular box body 1 and located below the air inlet, a screen shell 8 is arranged on the screen plate 3, active carbon is laid in the screen shell 8, a support frame 9 is arranged on the upper wall surface in the circular box body 1, a plurality of spray heads 10 are arranged on the support frame 9, a water tank 2 is arranged below the circular box body 1, a micro pump 11 is arranged in the water tank 2, a stretching pipe 12 extending out of the water tank 2 is inserted on the micro pump 11, a pipe divider 13 is arranged at one end of the stretching pipe 12, a first water pipe 14 extending out of the circular box body 1 is sleeved on the spray heads 10, the first water pipe 14 is connected with the pipe divider 13, a driving mounting seat 15 is arranged on the lower wall surface of the screen plate 3, a servo motor 5 is arranged on the lower wall surface of the driving mounting seat 15, and a connecting rod 16 is arranged at the driving end of the servo motor 5, the blades 6 are sleeved on the connecting rod 16, the circular box body 1 is internally provided with a conical shell 17, the lower wall surface of the conical shell 17 is provided with a water flowing port, the water flowing port is internally provided with a water flowing pipe 18 extending out of the circular box body 1, the side wall surface of the conical shell 17 is provided with a plurality of air vents, the side wall surface of the circular box body 1 is positioned below the conical shell 17 and is provided with a first air exhaust port, and the first air exhaust port is internally provided with a first air exhaust pipe 19.

The nitrogen drying structure comprises: the heating plate 20, the leakage net 38, the air deflector 21 and the strip-shaped box body 22;

the leakage nets 38 are respectively arranged on the inner side wall surface of the strip-shaped box body 22 and close to the upper end and the lower end, water absorption cotton 39 is laid on each leakage net 38, the left side of the strip-shaped box body 22 is connected with one end of the first exhaust pipe 19, the heating plates 20 are arranged on the left side and the right side of the strip-shaped box body 22, a pair of pillars 23 corresponding to the positions are jointly arranged between the leakage nets 38, the air deflectors 21 are respectively obliquely arranged on the pillars 23, the right side of the strip-shaped box body 22 is provided with a second exhaust port, and a second exhaust pipe 24 is inserted on the second exhaust port.

The nitrogen gas storage structure includes: a collection tank 25, a pressure sensor 26, and a storage box 27;

collecting box 25 settles on second blast pipe 24, and pressure sensor 26 settles in the inside wall surface of collecting box 25, and roof bar 28 is installed to the wall surface under in the collecting box 25, and storage box 27 settles on roof bar 28, and first circular through-hole has all been seted up to the both sides wall surface about in the storage box 27, and the third gas vent has been seted up to collecting box 25 side wall surface, and the cartridge has third blast pipe 29 in the third gas vent.

The lower wall surfaces of the round box body 1, the water tank 2 and the collecting box 25 are jointly provided with a bearing frame 30, upright posts 31 are arranged at the positions, close to four corners, of the lower wall surface of the bearing frame 30, and a backing plate 32 is arranged on the lower wall surface of each upright post 31.

The side wall surface of the collecting box 25 is provided with a first strip-shaped through hole, and the side wall surface of the collecting box 25 is connected with a first stop door 33 matched with the first strip-shaped through hole through a hinge.

The second bar through-hole has been seted up to circular box 1 side wall face, circular box 1 side wall face seted up with second bar through-hole assorted second stop gate 34, circular box 1 side wall face lower extreme is opened there is the drain, the interior cartridge of drain has blow off pipe 37, the water inlet has been seted up to 2 side wall faces of water tank, the inlet tube 36 is equipped with in the water inlet interpolation, the delivery port has been seted up to 2 side wall faces of water tank and be located the water inlet below, the outlet tube 35 is equipped with in the delivery port interpolation, inlet tube 36, the outlet pipe 35, blow off pipe 37, water-flowing pipe 18, equal cartridge has first control valve 4 on first blast pipe 19 and the second blast pipe 24.

The nitrogen drying device is characterized by comprising a circular box body 1, wherein a nitrogen processing structure is arranged in the circular box body 1, a nitrogen drying structure is arranged on the nitrogen processing structure, and a nitrogen storage structure is arranged on the nitrogen drying structure;

an air inlet is arranged on the side wall surface of the circular box body 1, an air inlet pipe 7 is inserted in the air inlet, a screen plate 3 is arranged on the side wall surface in the circular box body 1 and located below the air inlet, a screen shell 8 is arranged on the screen plate 3, active carbon is laid in the screen shell 8, a support frame 9 is arranged on the upper wall surface in the circular box body 1, a plurality of spray heads 10 are arranged on the support frame 9, a water tank 2 is arranged below the circular box body 1, a micro pump 11 is arranged in the water tank 2, a stretching pipe 12 extending out of the water tank 2 is inserted on the micro pump 11, a pipe divider 13 is arranged at one end of the stretching pipe 12, a first water pipe 14 extending out of the circular box body 1 is sleeved on the spray heads 10, the first water pipe 14 is connected with the pipe divider 13, a driving mounting seat 15 is arranged on the lower wall surface of the screen plate 3, a servo motor 5 is arranged on the lower wall surface of the driving mounting seat 15, and a connecting rod 16 is arranged at the driving end of the servo motor 5, blade 6 suit is on connecting rod 16, install conical shell 17 in the circular box 1, the drain hole has been seted up to conical shell 17 lower wall face, install in the drain hole and stretch out flow pipe 18 through circular box 1, a plurality of blow vents have been seted up to conical shell 17 side wall face, circular box 1 side wall face just is located conical shell 17 below and has seted up first exhaust port, install first exhaust pipe 19 in the first exhaust port, nitrogen treatment structure through this device, carry out reasonable processing to nitrogen gas, through nitrogen gas stoving structure, nitrogen gas after handling nitrogen gas dries, the follow-up use of being convenient for, through nitrogen gas storage structure, deposit nitrogen gas, let the reasonable storage of nitrogen gas after the stoving, the follow-up direct use of nitrogen gas of being convenient for.

In the embodiment, the device comprises a circular box body 1, wherein a nitrogen processing structure is arranged in the circular box body 1, a nitrogen drying structure is arranged on the nitrogen processing structure, and a nitrogen storage structure is arranged on the nitrogen drying structure;

an air inlet is arranged on the side wall surface of the circular box body 1, an air inlet pipe 7 is inserted in the air inlet, a screen plate 3 is arranged on the side wall surface in the circular box body 1 and located below the air inlet, a screen shell 8 is arranged on the screen plate 3, active carbon is laid in the screen shell 8, a support frame 9 is arranged on the upper wall surface in the circular box body 1, a plurality of spray heads 10 are arranged on the support frame 9, a water tank 2 is arranged below the circular box body 1, a micro pump 11 is arranged in the water tank 2, a stretching pipe 12 extending out of the water tank 2 is inserted on the micro pump 11, a pipe divider 13 is arranged at one end of the stretching pipe 12, a first water pipe 14 extending out of the circular box body 1 is sleeved on the spray heads 10, the first water pipe 14 is connected with the pipe divider 13, a driving mounting seat 15 is arranged on the lower wall surface of the screen plate 3, a servo motor 5 is arranged on the lower wall surface of the driving mounting seat 15, and a connecting rod 16 is arranged at the driving end of the servo motor 5, the blades 6 are sleeved on the connecting rod 16, a conical shell 17 is installed in the circular box body 1, a water flowing port is formed in the lower wall surface of the conical shell 17, a water flowing pipe 18 extending out of the circular box body 1 is installed in the water flowing port, a plurality of air vents are formed in the side wall surface of the conical shell 17, a first exhaust port is formed in the side wall surface of the circular box body 1 and below the conical shell 17, and a first exhaust pipe 19 is installed in the first exhaust port;

it should be noted that: an air inlet pipe 7 arranged in an air inlet on the round box body 1 is convenient for filling nitrogen in industrial waste gas into the round box body 1, then a micro pump 11 in the water tank 2 works, water in the water tank 2 is sucked out through the micro pump 11 and is transported into a spray head 10 supported by a support frame 9 through a stretching pipe 12, then the spray head 10 is sprayed out, dust falling is carried out on the nitrogen filled in the round box body 1, the dust falling particles are adsorbed through activated carbon filled in a screen shell 8 on a screen plate 3, the particles can fall on the activated carbon after dust falling, the screen shell 8 is positioned below the air inlet and the spray head 10, so after the nitrogen enters the round box body 1, water is sprayed out to reduce dust falling of the nitrogen, then the nitrogen can fall through the activated carbon, when the nitrogen passes through the activated carbon, the particles in the nitrogen are adsorbed through the activated carbon, and the particles in the nitrogen passing through the activated carbon are greatly reduced, the nitrogen use mark is met, then the water after dust fall flows into the conical shell 17 through the activated carbon, the sewage flows out through the water flowing port, and the nitrogen gas passes through the air vent on the conical shell 17, so that the nitrogen gas can conveniently enter the lower end of the round box body 1, is discharged through the first exhaust pipe 19 and then passes through the water flowing pipe 18 and the driving end of the servo motor 5 to drive the blades 6 on the connecting rod 16 to rotate, so as to improve the flow of surrounding air, thereby accelerating the nitrogen to penetrate through the active carbon, being positioned in the conical shell 17 and then being convenient for the nitrogen to enter the lower end of the round box body 1 through the vent, so that the sewage accumulated in the conical shell 17 is discharged, but at the time of nitrogen treatment, the control valve on the water flow pipe 18 is not opened, therefore, the sewage cannot flow out through the water flowing pipe 18, and after the nitrogen dust fall is finished, when all the nitrogen enters the drying process, the control valve is opened, and the water flowing pipe 18 discharges the sewage.

Nitrogen gas stoving structure includes: the heating plate 20, the leakage net 38, the air deflector 21 and the strip-shaped box body 22;

the leakage nets 38 are respectively arranged on the inner side wall surface of the strip-shaped box body 22 and close to the upper end and the lower end, water absorption cotton 39 is laid on each leakage net 38, the left side of the strip-shaped box body 22 is connected with one end of the first exhaust pipe 19, the heating plates 20 are arranged on the left side and the right side of the strip-shaped box body 22, a pair of support columns 23 corresponding to the positions are jointly arranged between the pair of leakage nets 38, the air deflectors 21 are respectively obliquely arranged on the support columns 23, the right side of the strip-shaped box body 22 is provided with a second exhaust port, and the second exhaust pipe 24 is inserted into the second exhaust port;

it should be noted that: bar box 22 is connected with first blast pipe 19, be convenient for through 19 nitrogen gas transportation to bar box 22 inside of handling after the dust fall of first blast pipe, later through the work of hot plate 20 in the bar box 22, improve the temperature in the bar box 22, thereby carry out the drying by heating to the nitrogen gas that gets into in the bar box 22, vapor is adsorbed through all having laid absorbent cotton 39 on leaking the net 38, when reducing and drying, adsorb vapor through absorbent cotton 39, reduce the remixing behind nitrogen gas and the vapor separation, later can be convenient for form the slot through aviation baffle 21, when letting nitrogen gas flow transportation in bar box 22, the formation divide into two parts, gas road narrows down suddenly, let nitrogen gas flow velocity change through a pair of aviation baffle 21, increase the stoving effect.

The nitrogen gas storage structure includes: a collection box 25, a pressure sensor 26, and a storage box 27;

the collecting box 25 is arranged on the second exhaust pipe 24, the pressure sensor 26 is arranged on the inner side wall surface of the collecting box 25, the ejector rod 28 is arranged on the inner lower wall surface of the collecting box 25, the storage box 27 is arranged on the ejector rod 28, first circular through holes are formed in the left side wall surface and the right side wall surface of the storage box 27, a third exhaust port is formed in the side wall surface of the collecting box 25, and a third exhaust pipe 29 is inserted in the third exhaust port.

It should be noted that: the collection box 25 is installed on the second exhaust pipe 24 so that the pressure sensor 26 is installed inside the collection box 25 for detecting the amount of nitrogen stored in the collection box 25, and the desiccant is placed in the storage box 27 pressed against the ejector rod 28 to dry the nitrogen in the collection box 25, thereby reducing the moisture of nitrogen caused by the water vapor during the treatment.

As a preferable technical scheme, further, the lower wall surfaces of the round box body 1, the water tank 2 and the collecting box 25 are jointly provided with a bearing frame 30, the lower wall surfaces of the bearing frame 30 close to four corners are provided with upright posts 31, and the lower wall surface of each upright post 31 is provided with a backing plate 32; the pillars 31 passing through the lower wall surface of the carrier 30 serve to support the circular casing 1, the water tank 2 and the collection tank 25.

As a preferred technical scheme, furthermore, a first strip-shaped through hole is formed in the side wall surface of the collection box 25, and the side wall surface of the collection box 25 is connected with a first shutter 33 matched with the first strip-shaped through hole through a hinge; the first shutter 33 is used to block the first bar through hole.

A second strip-shaped through hole is formed in the side wall surface of the circular box body 1, a second stop door 34 matched with the second strip-shaped through hole is formed in the side wall surface of the circular box body 1, a sewage discharge outlet is formed in the lower end of the side wall surface of the circular box body 1, a sewage discharge pipe 37 is inserted in the sewage discharge outlet, a water inlet is formed in the side wall surface of the water tank 2, a water inlet pipe 36 is inserted in the water inlet, a water outlet is formed in the side wall surface of the water tank 2 and located below the water inlet, a water outlet pipe 35 is inserted in the water outlet, and a first control valve 4 is inserted in each of the water inlet pipe 36, the water outlet pipe 35, the sewage discharge pipe 37, the water flowing pipe 18, the first exhaust pipe 19 and the second exhaust pipe 24; sheltering from second bar through-hole through second shutter 34, through second bar through-hole, be convenient for change or maintain the inside part of circular box 1, through blow off pipe 37, be convenient for the sewage discharge in the circular box 1, through the inlet tube of water tank 2, be convenient for water tank 2 is inside to be watered, through outlet pipe 35, let the remaining water in the water tank 2 discharge, inlet tube 36, outlet pipe 35, blow off pipe 37, water flowing pipe 18, first exhaust pipe 19 and second exhaust pipe 24 are gone up all the cartridge and are had first control valve 4, be convenient for through first control valve 4, control inlet tube 36, outlet pipe 35, blow off pipe 37, water flowing pipe 18, the use of first exhaust pipe 19 and second exhaust pipe 24.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The nitrogen processing and storing device for plant planting comprises a circular box body (1) and is characterized in that a nitrogen processing structure is arranged in the circular box body (1), a nitrogen drying structure is arranged on the nitrogen processing structure, and a nitrogen storing structure is arranged on the nitrogen drying structure;

the nitrogen gas processing structure includes: the device comprises a water tank (2), a screen plate (3), active carbon, a servo motor (5) and blades (6);

the air inlet is formed in the side wall surface of the circular box body (1), an air inlet pipe (7) is inserted into the air inlet, the screen plate (3) is arranged on the inner side wall surface of the circular box body (1) and located below the air inlet, a screen shell (8) is arranged on the screen plate (3), the activated carbon is laid inside the screen shell (8), a support frame (9) is arranged on the inner upper wall surface of the circular box body (1), a plurality of spray heads (10) are arranged on the support frame (9), the water tank (2) is arranged below the circular box body (1), a micro pump (11) is arranged in the water tank (2), a stretching pipe (12) extending out of the water tank (2) is inserted into the micro pump (11), a pipe divider (13) is arranged at one end of the stretching pipe (12), a first water pipe (14) extending out of the circular box body (1) is sleeved on the spray heads (10), first water pipe (14) are connected with pipe divider (13), drive mount pad (15) are installed to screen cloth board (3) lower wall face, wall under drive mount pad (15) is settled in servo motor (5), connecting rod (16) are installed to servo motor (5) drive end, blade (6) suit is on connecting rod (16), install conical shell (17) in circular box (1), the discharge orifice has been seted up to conical shell (17) lower wall face, install in the discharge orifice and stretch out discharge pipe (18) through circular box (1), a plurality of blow vents have been seted up to conical shell (17) side wall face, circular box (1) side wall face just is located conical shell (17) below and has been seted up first exhaust port, install first exhaust pipe (19) in the first exhaust port.

2. The nitrogen treatment storage device for plant cultivation according to claim 1, wherein the nitrogen drying structure comprises: the heating plate (20), the leakage net (38), the air deflector (21) and the strip-shaped box body (22);

the water-absorbing type air-conditioning device is characterized in that the leakage nets (38) are respectively arranged on the inner side wall surface of the bar-shaped box body (22) and close to the upper end and the lower end of the bar-shaped box body, water-absorbing cotton (39) is paved on each leakage net (38), the left side of the bar-shaped box body (22) is connected with one end of the first exhaust pipe (19), the heating plates (20) are arranged on the left side and the right side of the bar-shaped box body (22), a pair of pillars (23) corresponding to each other in position are jointly installed between the leakage nets (38), the air deflectors (21) are respectively obliquely arranged on the pillars (23), the right side of the bar-shaped box body (22) is provided with a second exhaust port, and the second exhaust pipe (24) is inserted on the second exhaust port.

3. The nitrogen treatment storage device for plant cultivation according to claim 1, wherein the nitrogen storage structure comprises: a collection box (25), a pressure sensor (26) and a storage box (27);

the collecting box (25) is arranged on the second exhaust pipe (24), the pressure sensor (26) is arranged on the inner side wall surface of the collecting box (25), the lower wall surface of the collecting box (25) is provided with a mandril (28), the storage box (27) is arranged on the mandril (28), the left side wall surface and the right side wall surface of the storage box (27) are provided with first circular through holes, the side wall surface of the collecting box (25) is provided with a third exhaust port, and a third exhaust pipe (29) is inserted into the third exhaust port.

4. A nitrogen treatment and storage device for plant cultivation as claimed in claim 3, wherein the circular box body (1), the water tank (2) and the lower wall surface of the collection box (25) are jointly provided with a bearing frame (30), the lower wall surface of the bearing frame (30) is provided with upright posts (31) near four corners, and the lower wall surface of each upright post (31) is provided with a backing plate (32).

5. The nitrogen treatment and storage device for plant cultivation as claimed in claim 3, wherein a first through hole is formed in the side wall surface of the collection box (25), and a first shutter (33) matched with the first through hole is connected to the side wall surface of the collection box (25) through a hinge.

6. The nitrogen treatment and storage device for plant cultivation according to claim 1, a second strip-shaped through hole is arranged on the side wall surface of the round box body (1), a second shutter (34) matched with the second strip-shaped through hole is arranged on the side wall surface of the round box body (1), a sewage draining outlet is arranged at the lower end of the side wall surface of the circular box body (1), a sewage draining pipe (37) is inserted in the sewage draining outlet, a water inlet is arranged on the side wall surface of the water tank (2), a water inlet pipe (36) is inserted in the water inlet, a water outlet is arranged on the side wall surface of the water tank (2) and below the water inlet, a water outlet pipe (35) is inserted in the water outlet, the water inlet pipe (36), the water outlet pipe (35), the sewage discharge pipe (37), the water flowing pipe (18), the first exhaust pipe (19) and the second exhaust pipe (24) are all provided with a first control valve (4) in an inserting mode.