CN113826543A - Vegetable planting artificial containers based on dynamic characteristic principle - Google Patents
Vegetable planting artificial containers based on dynamic characteristic principle Download PDFInfo
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- CN113826543A CN113826543A CN202111220648.6A CN202111220648A CN113826543A CN 113826543 A CN113826543 A CN 113826543A CN 202111220648 A CN202111220648 A CN 202111220648A CN 113826543 A CN113826543 A CN 113826543A
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- 235000013311 vegetables Nutrition 0.000 title claims abstract description 157
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 335
- 238000003756 stirring Methods 0.000 claims abstract description 115
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 claims abstract description 70
- 229910052760 oxygen Inorganic materials 0.000 claims abstract description 70
- 239000001301 oxygen Substances 0.000 claims abstract description 70
- 235000015097 nutrients Nutrition 0.000 claims abstract description 51
- 238000002844 melting Methods 0.000 claims abstract description 28
- 230000003068 static effect Effects 0.000 claims abstract description 22
- 230000008018 melting Effects 0.000 claims abstract description 19
- 238000009423 ventilation Methods 0.000 claims abstract description 16
- 230000001954 sterilising effect Effects 0.000 claims abstract description 13
- 238000006243 chemical reaction Methods 0.000 claims description 33
- 238000009313 farming Methods 0.000 claims description 20
- 238000007789 sealing Methods 0.000 claims description 20
- 230000000149 penetrating effect Effects 0.000 claims description 16
- 239000011148 porous material Substances 0.000 claims description 14
- 238000009395 breeding Methods 0.000 claims description 13
- 230000001488 breeding effect Effects 0.000 claims description 13
- 238000005286 illumination Methods 0.000 claims description 12
- 238000010438 heat treatment Methods 0.000 claims description 9
- 238000005273 aeration Methods 0.000 claims description 8
- 239000011521 glass Substances 0.000 claims description 8
- 238000005086 pumping Methods 0.000 claims description 8
- 238000005119 centrifugation Methods 0.000 claims description 6
- 238000004659 sterilization and disinfection Methods 0.000 claims description 6
- 238000007872 degassing Methods 0.000 claims description 3
- 238000009434 installation Methods 0.000 claims description 3
- 210000003205 muscle Anatomy 0.000 claims description 2
- 238000000034 method Methods 0.000 description 25
- 238000013019 agitation Methods 0.000 description 20
- 239000007788 liquid Substances 0.000 description 11
- 238000010009 beating Methods 0.000 description 9
- 238000006213 oxygenation reaction Methods 0.000 description 6
- 230000005611 electricity Effects 0.000 description 5
- 239000013589 supplement Substances 0.000 description 5
- 241000894006 Bacteria Species 0.000 description 3
- 241000700605 Viruses Species 0.000 description 3
- 230000001133 acceleration Effects 0.000 description 3
- 238000007667 floating Methods 0.000 description 3
- 239000006260 foam Substances 0.000 description 3
- 230000009545 invasion Effects 0.000 description 3
- 239000000126 substance Substances 0.000 description 2
- 239000002699 waste material Substances 0.000 description 2
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 239000000575 pesticide Substances 0.000 description 1
- 230000003014 reinforcing effect Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 230000001502 supplementing effect Effects 0.000 description 1
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
- A01G31/02—Special apparatus therefor
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L2/00—Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor
- A61L2/02—Methods or apparatus for disinfecting or sterilising materials or objects other than foodstuffs or contact lenses; Accessories therefor using physical phenomena
- A61L2/08—Radiation
- A61L2/10—Ultraviolet radiation
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
- A01G2031/006—Soilless cultivation, e.g. hydroponics with means for recycling the nutritive solution
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P60/00—Technologies relating to agriculture, livestock or agroalimentary industries
- Y02P60/20—Reduction of greenhouse gas [GHG] emissions in agriculture, e.g. CO2
- Y02P60/21—Dinitrogen oxide [N2O], e.g. using aquaponics, hydroponics or efficiency measures
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- Life Sciences & Earth Sciences (AREA)
- Environmental Sciences (AREA)
- Health & Medical Sciences (AREA)
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- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Hydroponics (AREA)
Abstract
The invention discloses a vegetable planting and cultivating box based on a dynamic characteristic principle, which comprises a dynamic and static combined vegetable cultivating main body, an intermediary type nested vegetable cultivating device, a self-service nutrient solution circulating system, a water flow circulating type unpowered accelerated oxygen melting device, a hydraulic structural unpowered ventilation device, an ultrasonic rebounding and stirring type curvature increasing type temperature adjusting and sterilizing device and a sensing assembly. The invention belongs to the technical field of vegetable planting and cultivation based on a dynamic characteristic principle, and particularly relates to a vegetable planting and cultivation box based on the dynamic characteristic principle; the self-service principle is creatively applied to the technical field of vegetable planting and cultivation based on the dynamic characteristic principle, the water flow circulation type unpowered accelerating oxygen melting device and the self-service nutrient solution circulating system are used for processing and treating the nutrient solution, the vegetable culture solution is ensured to circulate, meanwhile, sufficient oxygen melting amount can be ensured, and the technical problem that the nutrient solution needs to circulate and melt oxygen is solved.
Description
Technical Field
The invention belongs to the technical field of vegetable planting and cultivation based on a dynamic characteristic principle, and particularly relates to a vegetable planting and cultivation box based on the dynamic characteristic principle.
Background
Along with the more and higher degree of urbanization, agricultural land and water resources are less and less, the pollution of the land and the water resources is more and more serious, and the excessive use of pesticides causes a lot of unhealthy vegetables to appear on the market.
Urban household users want to plant but do not have the place, also do not have the time management, and receive the influence of weather and weather, can't experience the enjoyment of planting and eat green healthy vegetables, consequently design a section and can put on indoor or balcony, need not sunshine, need not the automatic indoor kind of dish device of management very necessarily.
The constant temperature can not be realized to current vegetable planting artificial containers, also can not realize the automatic of nutrient solution and add, and the water in the pipeline is not purified, easily arouse the invasion of bacterium and virus, when adopting liquid circulation system, but owing to adopt confined confession liquid mode, not only breed the germ easily, and because the culture solution can not fully contact with the air, though also circulation flow, oxygen also can not dissolve in the culture solution fully, so be unfavorable for reinforcing the vigor of vegetable root system in essence, especially adopt the mode that the cultivation pipe network opening of cultivation support was planted, and the cultivation pipe network of cultivation support forms the support inclined plane, be unfavorable for surviving and growing of vegetables.
Disclosure of Invention
In order to solve the existing problems, the invention provides a vegetable planting incubator based on a dynamic characteristic principle, which creatively applies a self-service principle (flexibly using waste materials, energy and substances) to the technical field of vegetable planting and cultivation based on the dynamic characteristic principle according to the contradiction that a vegetable culture solution needs to ensure sufficient oxygen-melting amount while circulating, processes the nutrient solution by using a water flow circulation type unpowered acceleration oxygen-melting device and a self-service nutrient solution circulation system, ensures that the vegetable culture solution can also ensure sufficient oxygen-melting amount while circulating, and overcomes the technical problems that the nutrient solution needs to circulate and also needs to melt oxygen; the ultrasonic wave rebounding stirring type curvature increasing type temperature adjusting and sterilizing device is designed, and the technical problem that water in a pipeline is not purified and invasion of bacteria and viruses is easily caused is solved.
The technical scheme adopted by the invention is as follows: the invention relates to a vegetable planting and cultivating box based on a dynamic characteristic principle, which comprises a dynamic and static combined vegetable cultivating main body, an intermediary type nested vegetable cultivating device, a self-service nutrient solution circulating system, a water flow circulating type unpowered accelerated oxygen melting device, a hydraulic structural unpowered ventilation device, an ultrasonic rebounding stirring type curvature increasing type temperature adjusting and sterilizing device and a sensing assembly, wherein the intermediary type nested vegetable cultivating device is arranged in the dynamic and static combined vegetable cultivating main body, the self-service nutrient solution circulating system is arranged in the dynamic and static combined vegetable cultivating main body, the water flow circulating type unpowered accelerated oxygen melting device is arranged in the dynamic and static combined vegetable cultivating main body, the hydraulic structural unpowered ventilation device is arranged on the dynamic and static combined vegetable cultivating main body, the ultrasonic rebounding stirring type curvature increasing type temperature adjusting and sterilizing device is arranged on the dynamic and static combined vegetable cultivating main body, the sensing assembly is arranged in the dynamic and static combined type vegetable cultivation main body.
Furthermore, the dynamic and static combined type vegetable cultivation main body comprises a cultivation box, a water circulation glass observation door, a control panel and a water circulation reaction kettle, wherein the cultivation box is arranged on the dynamic and static combined type vegetable cultivation main body; the medium type nested vegetable cultivation device comprises a nested cultivation primary water tank, a nested cultivation secondary water tank, a nested cultivation tertiary water tank, a water circulation system self-service vegetable cultivation primary flow guide pipe, a water circulation system self-service vegetable cultivation secondary flow guide pipe and a medium type nested vegetable cultivation aeration pond, wherein the nested cultivation primary water tank is arranged in a cultivation box, the nested cultivation secondary water tank is arranged in the cultivation box, the nested cultivation tertiary water tank is arranged in the cultivation box, one end of the water circulation system self-service vegetable cultivation primary flow guide pipe is communicated with one end side of the nested cultivation primary water tank, the other end of the water circulation system self-service vegetable cultivation primary flow guide pipe is communicated with the upper side of one end of the nested cultivation secondary water tank, one end of the water circulation system self-service vegetable cultivation secondary flow guide pipe is communicated with the lower side of the other end of the nested cultivation secondary water tank, the other end of the self-service vegetable cultivation second-stage flow guide pipe of the water circulation system is communicated with the upper side of the other end of the nested cultivation third-stage water tank, and the nested vegetable cultivation oxygen pond of the intermediary type is arranged in the cultivation box.
Further, nested formula is bred one-level basin includes that the dish seedling places one-level showy cystosepiment, porous material type one-level dish seedling standing groove and inlet opening, the dish seedling is placed one-level showy cystosepiment and is dismantled and locate on nested formula is bred one-level basin, porous material type one-level dish seedling standing groove is dismantled and is located the dish seedling and place on the one-level showy cystosepiment, the inlet opening is located on the porous material type one-level dish seedling standing groove.
Further, the self-service nutrient solution circulation system comprises a water circulation primary electronic valve, a water circulation secondary electronic valve, a water circulation tertiary electronic valve, a water circulation primary water pump, a water circulation secondary water pump, a primary circulating water pipe, a secondary circulating water pipe, a tertiary water pipe, a water pumping pipe, a water outlet pipe and a water inlet pipe, wherein one end of the water inlet pipe is communicated with the water circulation reaction kettle, the water circulation primary electronic valve is arranged on the water inlet pipe, one end of the tertiary water pipe is communicated with one end of a nested culture tertiary water tank, the other end of the tertiary water pipe is communicated with the water circulation reaction kettle, the water circulation secondary electronic valve is arranged on the tertiary water pipe, the water circulation primary water pump is arranged on the water circulation reaction kettle, one end of the water pumping pipe is communicated with the input end of the water circulation primary water pump, and one end of the water outlet pipe is communicated with the output end of the water circulation primary water pump, the other end of outlet pipe link up and locate on the nested formula vegetables of intermediary type are bred and beat the oxygen pond, one-level circulating water pipe link up and locate the nested formula vegetables of intermediary type and breed the lower extreme in oxygen pond, the tertiary electronic valve of hydrologic cycle is located on the one-level circulating water pipe, the input of hydrologic cycle second grade water pump link up and locate on the one-level circulating water pipe, the one end of second grade circulating water pipe link up the output of locating hydrologic cycle second grade water pump, the other end of second grade circulating water pipe link up and locates on the nested formula breeds the one-level basin.
Furthermore, the water circulation type unpowered accelerating oxygen melting device comprises a water circulation type oxygen supply pump, a water circulation type oxygen supply pipe, a water circulation type oxygen supply hole, a water circulation type driving paddle, a friction lossless type first bearing, a first sealing element and a unpowered accelerating oxygen melting stirring rod, wherein the friction lossless type first bearing is arranged on the inner wall of the water outlet pipe, one end of the water circulation type driving paddle is arranged on the friction lossless type first bearing, the unpowered accelerating oxygen melting stirring rod is arranged at the other end of the water circulation type driving paddle, the first sealing element is arranged on the water outlet pipe, the first sealing element is rotatably sleeved on the water circulation type driving paddle, the water circulation type oxygen supply pump is arranged in the culture box, the water circulation type oxygen supply pipe is arranged in the bottom side wall of the intermediary type nested vegetable culture oxygen beating pool, and the water circulation type oxygen supply pipe is communicated with the output end of the water circulation type oxygen supply pump, the circulating oxygen feed hole of rivers locates on the diapire in the nested formula vegetables of intermediary breed pond of oxygen of beating, nutrient solution after the processing is in the nested formula vegetables of intermediary breed pond of oxygen of beating of hydrologic cycle one-level water pump suction, at the in-process of suction, the circulating oxygen feed pump of rivers starts to beat oxygen to the liquid in the nested formula vegetables of intermediary breed pond of oxygen of beating, nutrient solution gets into the nested formula vegetables of intermediary breed through the outlet pipe and drives the circulating drive oar of rivers and rotate when beating the oxygen pond, the circulating drive oar of rivers rotates and drives unpowered acceleration oxygen-melting stirring rod and rotate, the oxygen-melting volume of nutrient solution in the nested formula vegetables of intermediary breed pond of oxygen of beating is accelerated.
Further, the hydraulic structure type unpowered ventilation device comprises a water flow driving type driving paddle, a friction lossless type second bearing, a second sealing piece, a unpowered fan, an installation shell and a hydraulic structure type unpowered ventilation hole, wherein the friction lossless type second bearing is arranged on the inner wall of the secondary circulating water pipe, the water flow driving type driving paddle is arranged on the friction lossless type second bearing, the unpowered fan is arranged on the water flow driving type driving paddle, the second sealing piece is arranged on the secondary circulating water pipe, the second sealing piece is rotatably sleeved on the water flow driving type driving paddle, the installation shell is arranged on the side wall of the cultivation box in a penetrating mode, the hydraulic structure type unpowered ventilation hole is arranged on the side wall of the cultivation box, the primary circulating water pipe is opened, the water circulation secondary water pump is started, nutrient solution in the intermediary type nested vegetable cultivation oxygenation pool is circulated into the nested type cultivation primary water tank through the secondary circulating water pipe, the first-stage vegetable cultivation guide pipe circulates to the nested cultivation second-stage water tank through the water circulation system, the second-stage vegetable cultivation guide pipe circulates to the nested cultivation third-stage water tank through the water circulation system, and finally flows into the water circulation reaction kettle through the third-stage water pipe, so that the nutrient solution circulates, when flowing through the second-stage circulating water pipe, the nutrient solution drives the water flow driving type driving paddle to rotate, the water flow driving type driving paddle drives the unpowered fan to rotate, and the unpowered fan rotates to generate air flow to ventilate the cultivation box.
Further, ultrasonic wave bounce-back stirring type camber increases formula temperature regulation degassing unit includes ultrasonic wave bounce-back stirring type ring type ultraviolet ray disinfection lamp, camber increase formula temperature regulation heating pipe, bounce-back stirring type camber increase formula ultrasonic agitator, charge device and ultrasonic wave bounce-back stirring type camber increase formula agitating unit, ultrasonic wave bounce-back stirring type ring type ultraviolet ray disinfection lamp is located on hydrologic cycle reation kettle's the inside wall, on the diapire that hydrologic cycle reation kettle was located to camber increase formula temperature regulation heating pipe, bounce-back stirring type camber increase formula ultrasonic agitator was located in the hydrologic cycle reation kettle, charge device link up and locates on the hydrologic cycle reation kettle, ultrasonic wave bounce-back stirring type camber increase formula agitating unit locates in the hydrologic cycle reation kettle.
Further, the ultrasonic wave rebounding stirring type curvature increasing type stirring device comprises an ultrasonic wave rebounding stirring type curvature increasing type centrifugal motor, an ultrasonic wave rebounding stirring type curvature increasing type centrifugal bearing, an ultrasonic wave rebounding stirring type curvature increasing type centrifugal gear, an ultrasonic wave rebounding stirring type curvature increasing type centrifugal tooth block, an ultrasonic wave rebounding stirring type curvature increasing type centrifugal turntable and an ultrasonic wave rebounding stirring type curvature increasing type centrifugal lifting rib, wherein the ultrasonic wave rebounding stirring type curvature increasing type centrifugal bearing is arranged on the bottom wall of the water circulation reaction kettle, the ultrasonic wave rebounding stirring type curvature increasing type centrifugal turntable is arranged on the ultrasonic wave rebounding stirring type curvature increasing type centrifugal bearing, the ultrasonic wave rebounding stirring type curvature increasing type centrifugal motor is arranged on the bottom wall of the water circulation reaction kettle, the ultrasonic wave rebounding stirring type curvature increasing type centrifugal gear is arranged at the output end of the ultrasonic wave rebounding stirring type curvature increasing type centrifugal motor, the ultrasonic rebound stirring type curvature increasing type centrifugal gear block annular array is arranged at the lower end of the ultrasonic rebound stirring type curvature increasing type centrifugal turntable, the ultrasonic rebound stirring type curvature increasing type centrifugal lifting rib is arranged on the ultrasonic rebound stirring type curvature increasing type centrifugal turntable, a water circulation primary electronic valve is firstly opened, a water source is connected through a water inlet pipe, nutrient solution is added through a dosing device, a rebound stirring type curvature increasing type ultrasonic stirrer and an ultrasonic rebound stirring type curvature increasing type stirring device are started, the rebound stirring type curvature increasing type ultrasonic stirrer stirs mixed liquid from inside to outside, the output end of the ultrasonic rebound stirring type curvature increasing type centrifugal motor rotates to drive the ultrasonic rebound stirring type curvature increasing type centrifugal gear to rotate, the ultrasonic rebound stirring type curvature increasing type centrifugal gear rotates to drive the ultrasonic rebound stirring type curvature increasing type centrifugal gear block to rotate, ultrasonic wave bounce-back stirring type camber increases formula centrifugation cogged block and rotates and drive ultrasonic wave bounce-back stirring type camber increase formula centrifugation carousel and rotate, and ultrasonic wave bounce-back stirring type camber increases formula centrifugation promotion muscle and rotates, carries out the swirl stirring to mixed liquid, opens ultrasonic wave bounce-back stirring type ring type ultraviolet ray disinfection lamp simultaneously and disinfects mixed liquid, and camber increase formula temperature regulation heating pipe heats mixed liquid.
Further, the sensing assembly comprises a self-service ecological agriculture law type temperature sensor, a self-service ecological agriculture law type humidity sensor, a self-service ecological agriculture law type nutrient solution sensor, a self-service ecological agriculture law type illumination sensor and a plant light supplement lamp, the self-service ecological agriculture law type temperature sensor is arranged in the breeding box, the self-service ecological agriculture law type humidity sensor is arranged in the breeding box, the self-service ecological agriculture law type illumination sensor is arranged in the breeding box, the plant light supplement lamp is arranged in the breeding box, and the self-service ecological agriculture law type nutrient solution sensor is arranged in the nested breeding first-level water tank.
Further, from ecological farming legal system temperature sensor electricity connection control panel of service formula, from ecological farming legal system humidity transducer electricity connection control panel of service formula, from ecological farming legal system nutrient solution sensor electricity connection control panel of service formula, from ecological farming legal system illumination sensor electricity connection control panel of service formula, plant light filling lamp electricity connection control panel, the external water source of inlet tube puts into porous material type one-level dish seedling standing groove with the dish seedling, and nutrient solution provides the nutrient for vegetables in the inlet opening gets into porous material type one-level dish seedling standing groove, and operating personnel accessible control panel control breeds the incasement temperature, humidity, illumination intensity, the concentration of nutrient solution.
The invention with the structure has the following beneficial effects: the invention provides a vegetable planting incubator based on a dynamic characteristic principle, which creatively applies a self-service principle (flexibly applying waste materials, energy and substances) to the technical field of vegetable planting and cultivation based on the dynamic characteristic principle according to the contradiction that a vegetable culture solution is circulated and simultaneously ensures sufficient oxygen-melting amount, utilizes a water flow circulating type unpowered accelerating oxygen-melting device and a self-service nutrient solution circulating system to process the nutrient solution, ensures that the vegetable culture solution is circulated and simultaneously can ensure sufficient oxygen-melting amount, and overcomes the technical problems that the nutrient solution is circulated and needs oxygen-melting; the ultrasonic wave rebounding stirring type curvature increasing type temperature adjusting and sterilizing device is designed, and the technical problem that water in a pipeline is not purified and invasion of bacteria and viruses is easily caused is solved.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.
FIG. 1 is a front view of a vegetable cultivation box based on the dynamic characteristic principle according to the present invention;
FIG. 2 is a front sectional view of a vegetable cultivation box based on the dynamic characteristic principle according to the present invention;
FIG. 3 is a left side view of a vegetable planting incubator according to the dynamic principle of the present invention;
FIG. 4 is an enlarged view of a portion A of FIG. 2;
FIG. 5 is a partial enlarged view of portion B of FIG. 2;
FIG. 6 is an enlarged view of a portion C of FIG. 2;
FIG. 7 is a schematic view of a structure of an intermediate nested vegetable culture aeration tank;
FIG. 8 is a schematic structural view of an ultrasonic bounce-back stirring type curvature increasing stirring apparatus;
FIG. 9 is a top view of an ultrasonic bounce agitation type curvature increasing agitation apparatus;
fig. 10 is a schematic block diagram of a vegetable planting incubator based on the dynamic characteristic principle.
Wherein, 1, a dynamic and static combined vegetable cultivation main body, 2, an intermediary type nested vegetable cultivation device, 3, a self-service nutrient solution circulation system, 4, a water circulation type unpowered accelerating oxygen melting device, 5, a hydraulic structure type unpowered ventilation device, 6, an ultrasonic rebounding stirring type curvature increasing type temperature adjusting and sterilizing device, 7, a sensing assembly, 8, a cultivation box, 9, a water circulation glass observation door, 10, a control panel, 11, a water circulation reaction kettle, 12, a nested cultivation primary water tank, 13, a nested cultivation secondary water tank, 14, a nested cultivation tertiary water tank, 15, a water circulation system self-service vegetable cultivation primary flow guide pipe, 16, a water circulation system self-service vegetable cultivation secondary flow guide pipe, 17, an intermediary type nested vegetable cultivation oxygen-killing pond, 18, vegetable seedling placing primary floating foam board, 19, a porous material type primary vegetable seedling placing groove, 20. a water inlet hole, 21, a water circulation primary electronic valve, 22, a water circulation secondary electronic valve, 23, a water circulation tertiary electronic valve, 24, a water circulation primary water pump, 25, a water circulation secondary water pump, 26, a primary circulating water pipe, 27, a secondary circulating water pipe, 28, a tertiary water pipe, 29, a water pumping pipe, 30, a water outlet pipe, 31, a water inlet pipe, 32, a water circulation type oxygen supply pump, 33, a water circulation type oxygen supply pipe, 34, a water circulation type oxygen supply hole, 35, a water circulation type driving paddle, 36, a friction lossless type first bearing, 37, a first sealing element, 38, an unpowered accelerated oxygen melting stirring rod, 39, a water driving paddle, 40, a friction type second bearing, 41, a lossless second sealing element, 42, a unpowered fan, 43, a mounting shell, 44, a hydraulic structural unpowered vent hole, 45, an ultrasonic rebound stirring type annular ultraviolet disinfection lamp, 46. a curvature increasing type temperature adjusting heating pipe, 47 a rebound stirring type curvature increasing type ultrasonic stirrer, 48 a dosing device, 49 an ultrasonic rebound stirring type curvature increasing type stirring device, 50 an ultrasonic rebound stirring type curvature increasing type centrifugal motor, 51 an ultrasonic rebound stirring type curvature increasing type centrifugal bearing, 52 an ultrasonic rebound stirring type curvature increasing type centrifugal gear, 53, the system comprises an ultrasonic rebounding and stirring type curvature increasing type centrifugal tooth block, an ultrasonic rebounding and stirring type curvature increasing type centrifugal rotary table, 55 an ultrasonic rebounding and stirring type curvature increasing type centrifugal lifting rib, 56 a self-service type ecological farming method type temperature sensor, 57 a self-service type ecological farming method type humidity sensor, 58 a self-service type ecological farming method type nutrient solution sensor, 59 a self-service type ecological farming method type illumination sensor, 60 and a plant light supplementing lamp.
Detailed Description
The technical solutions of the present invention will be further described in detail with reference to specific embodiments, and the technical features or connection relationships described in the present invention are not described in detail in the prior art. The present invention will be described in further detail with reference to the accompanying drawings.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.
As shown in figures 1 and 2, the invention provides a vegetable planting and cultivating box based on the dynamic characteristic principle, which comprises a dynamic and static combined vegetable cultivating main body 1, an intermediary type nested vegetable cultivating device 2, a self-service nutrient solution circulating system 3, a water flow circulating type unpowered accelerated oxygen melting device 4, a hydraulic structural type unpowered ventilation device 5, an ultrasonic rebounding stirring type curvature increasing type temperature adjusting and sterilizing device 6 and a sensing assembly 7, wherein the intermediary type nested vegetable cultivating device 2 is arranged in the dynamic and static combined vegetable cultivating main body 1, the self-service nutrient solution circulating system 3 is arranged in the dynamic and static combined vegetable cultivating main body 1, the water flow circulating type unpowered accelerated oxygen melting device 4 is arranged in the dynamic and static combined vegetable cultivating main body 1, the hydraulic structural type ventilation device 5 is arranged on the dynamic and static combined vegetable cultivating main body 1, the ultrasonic rebounding stirring type curvature increasing type temperature adjusting and sterilizing device 6 is arranged on the dynamic and static combined vegetable cultivating main body 1, the sensing component 7 is arranged in the dynamic and static combined type vegetable cultivation main body 1.
As shown in fig. 1 and 2, the dynamic and static combined vegetable cultivation main body 1 includes a cultivation box 8, a water circulation glass observation door 9, a control panel 10 and a water circulation reaction kettle 11, the cultivation box 8 is arranged on the dynamic and static combined vegetable cultivation main body 1, the water circulation glass observation door 9 is opened and closed on the cultivation box 8, the control panel 10 is arranged on the water circulation glass observation door 9, and the water circulation reaction kettle 11 is arranged on one side of the cultivation box 8 in a penetrating manner; the medium type nested vegetable cultivation device 2 comprises a nested cultivation primary water tank 12, a nested cultivation secondary water tank 13, a nested cultivation tertiary water tank 14, a water circulation system self-service vegetable cultivation primary flow guide pipe 15, a water circulation system self-service vegetable cultivation secondary flow guide pipe 16 and a medium type nested vegetable cultivation aeration pond 17, the nested cultivation primary water tank 12 is arranged in a cultivation box 8, the nested cultivation secondary water tank 13 is arranged in the cultivation box 8, the nested cultivation tertiary water tank 14 is arranged in the cultivation box 8, one end of the water circulation system self-service vegetable cultivation primary flow guide pipe 15 is communicated with one end side of the nested cultivation primary water tank 12, the other end of the water circulation system self-service vegetable cultivation primary flow guide pipe 15 is communicated with the upper side of one end of the nested cultivation secondary water tank 13, one end of the water circulation system self-service vegetable cultivation secondary flow guide pipe 16 is communicated with the lower side of the other end of the nested cultivation secondary flow guide pipe 13, the other end of the self-service vegetable cultivation second-stage flow guide pipe 16 of the water circulation system is communicated with the upper side of the other end of the nested cultivation third-stage water tank 14, and the intermediate nested vegetable cultivation oxygen pond 17 is arranged in the cultivation box 8.
As shown in fig. 2 and 6, the nested cultivation primary water tank 12 comprises a first-stage floating foam board 18 for placing the vegetable seedlings, a first-stage porous material vegetable seedling placing groove 19 and a water inlet hole 20, the first-stage vegetable seedling placing groove 18 for placing the vegetable seedlings is detachably arranged on the nested cultivation primary water tank 12, the first-stage porous material vegetable seedling placing groove 19 is detachably arranged on the first-stage floating foam board 18 for placing the vegetable seedlings, and the water inlet hole 20 is arranged on the first-stage porous material vegetable seedling placing groove 19.
As shown in fig. 1, 2 and 3, the self-service nutrient solution circulating system 3 comprises a water circulation primary electronic valve 21, a water circulation secondary electronic valve 22, a water circulation tertiary electronic valve 23, a water circulation primary water pump 24, a water circulation secondary water pump 25, a primary circulating water pipe 26, a secondary circulating water pipe 27, a tertiary water pipe 28, a water pumping pipe 29, a water outlet pipe 30 and a water inlet pipe 31, wherein one end of the water inlet pipe 31 is arranged on the water circulation reaction kettle 11 in a penetrating manner, the water circulation primary electronic valve 21 is arranged on the water inlet pipe 31, one end of the tertiary water pipe 28 is arranged on one end of the nested culture tertiary water tank 14 in a penetrating manner, the other end of the tertiary water pipe 28 is arranged on the water circulation reaction kettle 11 in a penetrating manner, the water circulation secondary electronic valve 22 is arranged on the tertiary water pipe 28, the water circulation primary water pump 24 is arranged on the water circulation reaction kettle 11, one end of the water pumping pipe 29 is arranged on the input end of the water circulation primary water pump 24, the one end of outlet pipe 30 link up the output of locating hydrologic cycle one-level water pump 24, the other end of outlet pipe 30 link up and locates on the nested formula vegetable cultivation of intermediary's type pond 17 of oxygen of beating, one-level circulating pipe 26 link up and locates the nested formula vegetable cultivation of intermediary's type lower extreme of beating the oxygen pond 17, tertiary electronic valve 23 of hydrologic cycle locates on one-level circulating pipe 26, the input of hydrologic cycle second grade water pump 25 link up and locates on one-level circulating pipe 26, the one end of second grade circulating pipe 27 link up the output of locating hydrologic cycle second grade water pump 25, the other end of second grade circulating pipe 27 link up and locates on the nested formula one-level basin 12 of breeding.
As shown in fig. 2, 5 and 7, the water circulation type unpowered accelerating oxygen melting device 4 comprises a water circulation type oxygen supply pump 32, a water circulation type oxygen supply pipe 33, a water circulation type oxygen supply hole 34, a water circulation type driving paddle 35, a friction lossless type first bearing 36, a first sealing member 37 and a unpowered accelerating oxygen melting stirring rod 38, wherein the friction lossless type first bearing 36 is arranged on the inner wall of the water outlet pipe 30, one end of the water circulation type driving paddle 35 is arranged on the friction lossless type first bearing 36, the unpowered accelerating oxygen melting stirring rod 38 is arranged at the other end of the water circulation type driving paddle 35, the first sealing member 37 is arranged on the water outlet pipe 30, the first sealing member 37 is rotatably sleeved on the water circulation type driving paddle 35, the water circulation type oxygen supply pump 32 is arranged in the culture box 8, the water circulation type oxygen supply pipe 33 is arranged in the bottom side wall of the medium type nested vegetable culture oxygen beating pool 17, the water circulation type oxygen supply pipe 33 is arranged at the output end of the water circulation type oxygen supply pump 32 in a penetrating way, and the water circulation type oxygen supply hole 34 is arranged on the bottom wall of the medium type nested vegetable culture oxygen aeration tank 17.
As shown in fig. 2, 3 and 4, the hydraulic structure type unpowered ventilation device 5 includes a water flow driving type driving paddle 39, a friction lossless type second bearing 40, a second sealing element 41, a unpowered fan 42, a mounting shell 43 and a hydraulic structure type unpowered ventilation hole 44, the friction lossless type second bearing 40 is arranged on the inner wall of the secondary circulating water pipe 27, the water flow driving type driving paddle 39 is arranged on the friction lossless type second bearing 40, the unpowered fan 42 is arranged on the water flow driving paddle 39, the second sealing element 41 is arranged on the secondary circulating water pipe 27, the second sealing element 41 is rotatably sleeved on the water flow driving type driving paddle 39, the mounting shell 43 is arranged on the side wall of the cultivation box 8 in a penetrating manner, and the hydraulic structure type unpowered ventilation hole 44 is arranged on the side wall of the cultivation box 8.
As shown in fig. 1 and fig. 2, the ultrasonic wave rebounding stirring type curvature increasing type temperature adjusting and sterilizing device 6 includes an ultrasonic wave rebounding stirring type circular ring type ultraviolet sterilizing lamp 45, a curvature increasing type temperature adjusting heating pipe 46, a rebounding stirring type curvature increasing type ultrasonic stirrer 47, a dosing device 48 and an ultrasonic wave rebounding stirring type curvature increasing type stirring device 49, the ultrasonic wave rebounding stirring type circular ring type ultraviolet sterilizing lamp 45 is arranged on the inner side wall of the water circulation reaction kettle 11, the curvature increasing type temperature adjusting heating pipe 46 is arranged on the bottom wall of the water circulation reaction kettle 11, the rebounding stirring type curvature increasing type ultrasonic stirrer 47 is arranged in the water circulation reaction kettle 11, the dosing device 48 is arranged on the water circulation reaction kettle 11 in a penetrating manner, and the ultrasonic wave rebounding stirring type curvature increasing type stirring device 49 is arranged in the water circulation reaction kettle 11.
As shown in fig. 1, 2, 8 and 9, the ultrasonic bounce agitation type curvature increasing type agitation device 49 includes an ultrasonic bounce agitation type curvature increasing type centrifugal motor 50, an ultrasonic bounce agitation type curvature increasing type centrifugal bearing 51, an ultrasonic bounce agitation type curvature increasing type centrifugal gear 52, an ultrasonic bounce agitation type curvature increasing type centrifugal tooth block 53, an ultrasonic bounce agitation type curvature increasing type centrifugal turntable 54 and an ultrasonic bounce agitation type curvature increasing type centrifugal lifting rib 55, the ultrasonic bounce agitation type curvature increasing type centrifugal bearing 51 is provided on the bottom wall of the water circulation reaction vessel 11, the ultrasonic bounce agitation type curvature increasing type centrifugal turntable 54 is provided on the ultrasonic bounce agitation type curvature increasing type centrifugal bearing 51, the ultrasonic bounce agitation type curvature increasing type centrifugal motor 50 is provided on the bottom wall of the water circulation reaction vessel 11, and the ultrasonic bounce agitation type curvature increasing type centrifugal gear 52 is provided on the ultrasonic bounce agitation type curvature increasing type centrifugal bearing 51 At the output end of the motor 50, the ultrasonic bounce agitation type curvature increasing type centrifugal block 53 is annularly arrayed at the lower end of the ultrasonic bounce agitation type curvature increasing type centrifugal turntable 54, and the ultrasonic bounce agitation type curvature increasing type centrifugal lifting rib 55 is arranged on the ultrasonic bounce agitation type curvature increasing type centrifugal turntable 54.
As shown in fig. 2, the sensing assembly 7 includes a self-service ecological agriculture-method type temperature sensor 56, a self-service ecological agriculture-method type humidity sensor 57, a self-service ecological agriculture-method type nutrient solution sensor 58, a self-service ecological agriculture-method type illumination sensor 59 and a plant light supplement lamp 60, the self-service ecological agriculture-method type temperature sensor 56 is disposed in the cultivation box 8, the self-service ecological agriculture-method type humidity sensor 57 is disposed in the cultivation box 8, the self-service ecological agriculture-method type illumination sensor 59 is disposed in the cultivation box 8, the plant light supplement lamp 60 is disposed in the cultivation box 8, and the self-service ecological agriculture-method type nutrient solution sensor 58 is disposed in the nested cultivation primary water tank 12.
As shown in fig. 1 and 2, the self-service ecological agriculture method type temperature sensor 56 is electrically connected to the control panel 10, the self-service ecological agriculture method type humidity sensor 57 is electrically connected to the control panel 10, the self-service ecological agriculture method type nutrient solution sensor 58 is electrically connected to the control panel 10, the self-service ecological agriculture method type illumination sensor 59 is electrically connected to the control panel 10, the plant light supplement lamp 60 is electrically connected to the control panel 10, and the water inlet pipe 31 is externally connected to a water source.
When the ultrasonic rebound stirring type curvature increasing type centrifugal gear 52 rotates to drive the ultrasonic rebound stirring type curvature increasing type centrifugal toothed block 53 to rotate, the ultrasonic rebound stirring type curvature increasing type centrifugal toothed block 53 rotates to drive the ultrasonic rebound stirring type curvature increasing type centrifugal turntable 54 to rotate, and the ultrasonic rebound stirring type curvature increasing type centrifugal turntable 54 rotates to drive the ultrasonic rebound stirring type curvature increasing type centrifugal lifting rib 55 to rotate The mixed liquid is stirred in a vortex mode, meanwhile, an ultrasonic rebounding stirring type circular ring type ultraviolet disinfection lamp 45 is started to disinfect the mixed liquid, an ultrasonic rebounding stirring type curvature increasing type stirring device 49 is used for heating the mixed liquid, the treated nutrient solution is pumped into the intermediary type nested vegetable culture oxygenation pond 17 through a water circulation primary water pump 24, in the pumping process, a water circulation type oxygen supply pump 32 is started to oxygenate the liquid in the intermediary type nested vegetable culture oxygenation pond 17, the nutrient solution enters the intermediary type nested vegetable culture oxygenation pond 17 through a water outlet pipe 30 and drives a water circulation type driving paddle 35 to rotate, the water circulation type driving paddle 35 rotates to drive a powerless acceleration oxygenation stirring rod 38 to rotate, the oxygen melting amount of the nutrient solution in the intermediary type nested vegetable culture oxygenation pond 17 is accelerated, a primary circulating water pipe 26 is started, a water circulation secondary water pump 25 is started, circulating nutrient solution in an intermediary type nested vegetable culture aeration tank 17 into a nested culture primary water tank 12 through a secondary circulating water pipe 27, circulating the nutrient solution into a nested culture secondary water tank 13 through a water circulating system from a service type vegetable culture primary draft tube 15, circulating the nutrient solution into a nested culture tertiary water tank 14 through a water circulating system from a service type vegetable culture secondary draft tube 16, finally flowing into a water circulating reaction kettle 11 through a tertiary water pipe 28, circulating the nutrient solution, driving a water flow driving type driving paddle 39 to rotate when the nutrient solution flows through the secondary circulating water pipe 27, driving a non-power type fan 42 to rotate by the water flow driving paddle 39, generating air flow by the rotation of the non-power type fan 42 to ventilate a culture box 8, finally putting vegetable seedlings into a porous material type primary vegetable seedling placing groove 19, and allowing the nutrient solution to enter the porous material type primary vegetable seedling placing groove 19 through a water inlet hole 20, the temperature, the humidity, the illumination intensity and the concentration of the nutrient solution in the cultivation box 8 can be controlled by an operator through the control panel 10, the whole working process is realized, and the steps are repeated when the cultivation box is used next time.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.
Claims (10)
1. The utility model provides a vegetable planting artificial containers based on dynamic characteristic principle which characterized in that: including sound combination formula vegetables cultivation main part (1), nested formula vegetables breeding device of intermediary (2), from service nutrient solution circulation system (3), rivers circulating unpowered with higher speed melt oxygen device (4), unpowered ventilation unit (5) of hydraulic pressure structural formula, ultrasonic wave bounce-back stirring type camber increase formula temperature regulation degassing unit (6) and sensing component (7), the nested formula vegetables breeding device of intermediary (2) is located in sound combination formula vegetables cultivation main part (1), locate in sound combination formula vegetables cultivation main part (1) from service nutrient solution circulation system (3), rivers circulating unpowered with higher speed melt oxygen device (4) and locate in sound combination formula vegetables cultivation main part (1), hydraulic pressure structural formula ventilation unit (5) are located on sound combination formula vegetables cultivation main part (1), ultrasonic wave bounce-back stirring type camber increase formula temperature regulation degassing unit (6) are located sound combination formula vegetables cultivation main part (1) On cultivating main part (1), sensing component (7) are located in sound convolution vegetables cultivation main part (1).
2. A vegetable planting incubator according to claim 1, wherein the vegetable planting incubator is characterized in that: the dynamic and static combined type vegetable cultivation main body (1) comprises a cultivation box (8), a water circulation glass observation door (9), a control panel (10) and a water circulation reaction kettle (11), wherein the cultivation box (8) is arranged on the dynamic and static combined type vegetable cultivation main body (1), the water circulation glass observation door (9) is arranged on the cultivation box (8) in an opening and closing mode, the control panel (10) is arranged on the water circulation glass observation door (9), and the water circulation reaction kettle (11) is arranged on one side of the cultivation box (8) in a penetrating mode; the medium type nested vegetable cultivation device (2) comprises a nested cultivation first-level water tank (12), a nested cultivation second-level water tank (13), a nested cultivation third-level water tank (14), a water circulation system self-service vegetable cultivation first-level guide pipe (15), a water circulation system self-service vegetable cultivation second-level guide pipe (16) and a medium type nested vegetable cultivation aeration basin (17), wherein the nested cultivation first-level water tank (12) is arranged in a cultivation box (8), the nested cultivation second-level water tank (13) is arranged in the cultivation box (8), the nested cultivation third-level water tank (14) is arranged in the cultivation box (8), one end of the water circulation system self-service vegetable cultivation first-level guide pipe (15) is communicated with one end side of the nested cultivation first-level water tank (12), the other end of the water circulation system self-service vegetable cultivation first-level guide pipe (15) is communicated with one end upper side of the nested cultivation second-level water tank (13), water circulating system link up from the one end of service formula vegetables cultivation second grade honeycomb duct (16) and locate the other end downside that nested formula was bred second grade basin (13), water circulating system link up from the other end of service formula vegetables cultivation second grade honeycomb duct (16) and locate the other end upside that nested formula was bred tertiary basin (14), the nested formula vegetables of intermediary are bred and are beaten oxygen pond (17) and locate in breeding case (8).
3. A vegetable planting incubator according to claim 2, wherein the vegetable planting incubator is characterized in that: nested formula is bred one-level basin (12) and is placed one-level showy cystosepiment (18), porous material type one-level vegetable seedling standing groove (19) and inlet opening (20) including the vegetable seedling, the vegetable seedling is placed one-level showy cystosepiment (18) and is dismantled and locate nested formula and breed on one-level basin (12), porous material type one-level vegetable seedling standing groove (19) are dismantled and are located the vegetable seedling and place on one-level showy cystosepiment (18), inlet opening (20) are located on porous material type one-level vegetable seedling standing groove (19).
4. A vegetable planting incubator according to claim 3, wherein the vegetable planting incubator is characterized in that: the self-service nutrient solution circulating system (3) comprises a water circulating primary electronic valve (21), a water circulating secondary electronic valve (22), a water circulating tertiary electronic valve (23), a water circulating primary water pump (24), a water circulating secondary water pump (25), a primary circulating water pipe (26), a secondary circulating water pipe (27), a tertiary water pipe (28), a water pumping pipe (29), a water outlet pipe (30) and a water inlet pipe (31), wherein one end of the water inlet pipe (31) is communicated with the water circulating reaction kettle (11), the water circulating primary electronic valve (21) is arranged on the water inlet pipe (31), one end of the tertiary water pipe (28) is communicated with one end of a nested culture tertiary water tank (14), the other end of the tertiary water pipe (28) is communicated with the water circulating reaction kettle (11), and the water circulating secondary electronic valve (22) is arranged on the tertiary water pipe (28), the water circulation primary water pump (24) is arranged on the water circulation reaction kettle (11), one end of the water pumping pipe (29) is communicated with the input end of the water circulation primary water pump (24), one end of the water outlet pipe (30) is arranged at the output end of the water circulation first-stage water pump (24) in a penetrating way, the other end of the water outlet pipe (30) is arranged on the medium type nested vegetable culture aeration tank (17) in a penetrating way, the primary circulating water pipe (26) is arranged at the lower end of the medium type nested vegetable culture aeration tank (17) in a penetrating way, the water circulation three-level electronic valve (23) is arranged on the first-level circulating water pipe (26), the input end of the water circulation secondary water pump (25) is arranged on the primary circulating water pipe (26) in a penetrating way, one end of the secondary circulating water pipe (27) is arranged at the output end of the water circulating secondary water pump (25) in a penetrating way, the other end of the secondary circulating water pipe (27) is arranged on the nested type cultivation primary water tank (12) in a penetrating mode.
5. A vegetable planting incubator according to claim 4, wherein the vegetable planting incubator is characterized in that: the water flow circulating type unpowered accelerating oxygen melting device (4) comprises a water flow circulating type oxygen supply pump (32), a water flow circulating type oxygen supply pipe (33), a water flow circulating type oxygen supply hole (34), a water flow circulating type driving paddle (35), a friction lossless type first bearing (36), a first sealing piece (37) and a unpowered accelerating oxygen melting stirring rod (38), wherein the friction lossless type first bearing (36) is arranged on the inner wall of a water outlet pipe (30), one end of the sent water flow circulating type driving paddle (35) is arranged on the friction lossless type first bearing (36), the sent unpowered accelerating oxygen melting stirring rod (38) is arranged at the other end of the water flow circulating type driving paddle (35), the first sealing piece (37) is arranged on the water outlet pipe (30), the first sealing piece (37) is rotatably sleeved on the water flow circulating type driving paddle (35), the water flow circulating type oxygen supply pump (32) is arranged in a culture box (8), the utility model discloses a set formula vegetables cultivation oxygen pond (17) is beaten to rivers circulating type support pipe (33), the bottom lateral wall in intermediary type nested formula vegetables cultivation oxygen pond (17) is located in rivers circulating type support pipe (33), rivers circulating type support pipe (33) link up the output of locating rivers circulating type oxygen pump (32), rivers circulating type oxygen hole (34) are located on the diapire in intermediary type nested formula vegetables cultivation oxygen pond (17).
6. A vegetable planting incubator according to claim 5, characterised in that: the hydraulic structure type unpowered ventilation device (5) comprises a water flow driving type driving paddle (39), a friction lossless type second bearing (40), a second sealing element (41), a unpowered fan (42), a mounting shell (43) and a hydraulic structure type unpowered ventilation hole (44), the friction lossless type second bearing (40) is arranged on the inner wall of the secondary circulating water pipe (27), the water flow driving type driving paddle (39) is arranged on the friction lossless type second bearing (40), the unpowered fan (42) is arranged on the water flow driving type driving paddle (39), the second sealing element (41) is arranged on the secondary circulating water pipe (27), the second sealing element (41) is rotatably sleeved on the water flow driving type driving paddle (39), the installation shell (43) is arranged on the side wall of the breeding box (8) in a penetrating mode, and the hydraulic structural unpowered vent hole (44) is arranged on the side wall of the breeding box (8).
7. A vegetable planting incubator according to claim 6, wherein the vegetable planting incubator is characterized in that: the ultrasonic wave rebounding stirring type curvature increasing type temperature adjusting and sterilizing device (6) comprises an ultrasonic wave rebounding stirring type annular ultraviolet sterilizing lamp (45), a curvature increasing type temperature adjusting heating pipe (46), a rebounding stirring type curvature increasing type ultrasonic stirrer (47), a dosing device (48) and an ultrasonic wave rebounding stirring type curvature increasing type stirring device (49), the ultrasonic bounce stirring type circular ring type ultraviolet disinfection lamp (45) is arranged on the inner side wall of the water circulation reaction kettle (11), the curvature increasing type temperature adjusting heating pipe (46) is arranged on the bottom wall of the water circulation reaction kettle (11), the rebound stirring type curvature increasing type ultrasonic stirrer (47) is arranged in the water circulation reaction kettle (11), the dosing device (48) is arranged on the water circulation reaction kettle (11) in a run-through mode, and the ultrasonic bounce stirring type curvature increasing type stirring device (49) is arranged in the water circulation reaction kettle (11).
8. A vegetable planting incubator according to claim 7, characterised in that: the ultrasonic wave rebounding stirring type curvature increasing type stirring device (49) comprises an ultrasonic wave rebounding stirring type curvature increasing type centrifugal motor (50), an ultrasonic wave rebounding stirring type curvature increasing type centrifugal bearing (51), an ultrasonic wave rebounding stirring type curvature increasing type centrifugal gear (52), an ultrasonic wave rebounding stirring type curvature increasing type centrifugal tooth block (53), an ultrasonic wave rebounding stirring type curvature increasing type centrifugal turntable (54) and an ultrasonic wave rebounding stirring type curvature increasing type centrifugal lifting rib (55), wherein the ultrasonic wave rebounding stirring type curvature increasing type centrifugal bearing (51) is arranged on the bottom wall of the water circulation reaction kettle (11), the ultrasonic wave rebounding stirring type curvature increasing type centrifugal turntable (54) is arranged on the ultrasonic wave rebounding stirring type curvature increasing type centrifugal bearing (51), and the ultrasonic wave rebounding stirring type curvature increasing type centrifugal motor (50) is arranged on the bottom wall of the water circulation reaction kettle (11), ultrasonic wave bounce-back stirring type camber increases formula centrifugal gear (52) and locates the output of ultrasonic wave bounce-back stirring type camber increase formula centrifugal motor (50), ultrasonic wave bounce-back stirring type camber increases the lower extreme that formula centrifugation carousel (54) was increased to ultrasonic wave bounce-back stirring type camber (53) annular array located, ultrasonic wave bounce-back stirring type camber increases formula centrifugation and promotes muscle (55) and locate on ultrasonic wave bounce-back stirring type camber increases formula centrifugation carousel (54).
9. A vegetable planting incubator according to claim 8, characterised in that: sensing element (7) are including self-service ecological farming law type temperature sensor (56), self-service ecological farming law type humidity transducer (57), self-service ecological farming law type nutrient solution sensor (58), self-service ecological farming law type illumination sensor (59) and plant light filling lamp (60), self-service ecological farming law type temperature sensor (56) are located and are bred in case (8), locate in breeding case (8) from service ecological farming law type humidity transducer (57), locate in breeding case (8) from service ecological farming law type illumination sensor (59), plant light filling lamp (60) are located and are bred in case (8), locate in nested one-level basin (12) from service ecological farming law type nutrient solution sensor (58).
10. A vegetable planting incubator according to claim 9 and based on the dynamic character principle, wherein: from ecological farming of service formula law temperature sensor (56) electric connection control panel (10), from ecological farming of service law humidity transducer (57) electric connection control panel (10), from ecological farming of service law nutrient solution sensor (58) electric connection control panel (10), from ecological farming of service law illumination sensor (59) electric connection control panel (10), plant light filling lamp (60) electric connection control panel (10), inlet tube (31) external water source.
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| CN113826543B (en) | 2022-11-29 |
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