CN222564553U

CN222564553U - Intelligent seed seedling raising box

Info

Publication number: CN222564553U
Application number: CN202421223796.2U
Authority: CN
Inventors: 吕艳芳; 石文文; 郑丽娜; 李倩倩; 郭欣; 高雅倩; 孙妍; 樊佳悦; 赵静; 李嘉欣
Original assignee: Mengcao Ecological Environment Group Co Ltd
Current assignee: Mengcao Ecological Environment Group Co Ltd
Priority date: 2024-05-31
Filing date: 2024-05-31
Publication date: 2025-03-07
Anticipated expiration: 2034-05-31

Abstract

The utility model belongs to the technical field of agricultural production, in particular to an intelligent seed seedling raising box, which aims at solving the problems that an optimal seedling raising environment can not be provided and the emergence rate and the survival rate of seeds can not be improved well, and the intelligent seed seedling raising box comprises a seedling raising box body, seedling raising pots, an intelligent monitoring component and an intelligent regulation component, wherein the intelligent seed seedling raising box body and a plurality of seedling raising pots are arranged in a layered manner, the intelligent seedling raising and sprouting device can be used for simultaneously raising and sprouting different types of seeds or large quantities of similar seeds, and the environment in the box is regulated and controlled through the intelligent regulation and control assembly arranged in the seedling raising box, so that the automatic control of the seedling raising process of the seeds is realized, the seedling raising efficiency and the seedling emergence rate are improved, and the environment in the box and the seedling raising and sprouting condition of the seeds are monitored through the intelligent monitoring assembly; can provide more stable and uniform seedling culture and germination environments for seeds and is beneficial to healthy growth of the seeds.

Description

Intelligent seed seedling raising box

Technical Field

The utility model relates to a seedling raising device, in particular to an intelligent seed seedling raising box, and belongs to the technical field of agricultural production.

Background

Seed seedling raising is an important link in agricultural production, and has a key meaning for guaranteeing the emergence rate and the growth quality of crops. The traditional seed seedling raising method usually depends on manual operation, and has the problems of difficult control of seedling raising conditions, high management cost, low efficiency and the like, so that in order to realize standardized seed seedling raising and germination, a special seedling raising incubator is often adopted for auxiliary seedling raising of seeds.

In prior art, as the seed seedling raising box that the bulletin number is CN218587763U discloses, through addding the watering mechanism, watering mechanism utilizes the siphon principle can carry out automatic watering for a long time, and the water yield of watering is less, watering mechanism can reduce the staff's of growing seedlings work load simultaneously, improve the work efficiency of growing seedlings, the watering mechanism that utilizes the siphon principle can reduce the loss to the energy to a certain extent, but in actual seedling raising process, the required condition of seed seedling raising germination has corresponding requirement except including humidity, still to the temperature of environment and illumination intensity, and in the prior art can't carry out suitable regulation to each condition of required in the seedling raising germination process of seed, and then can't improve the rate of emergence and the survival rate of seed betterly, secondly, as the automatic moisturizing environmental protection seedling raising box of adjustable light intensity that the bulletin number is CN212520187U discloses, the incubator that the temperature is adjustable like bulletin number is CN210726146U, although have the regulation and temperature's that the process carries out illumination intensity, still need not be opened in the same time and take time to realize, the same time and take place in the same time, the same time and take time to change the conditions in the actual seedling raising process can's the time, the seedling raising conditions can't be opened the time, the case can't be changed normally in the time and the time.

Disclosure of utility model

The utility model provides an intelligent seed seedling raising box for solving the problems that the prior art can not provide an optimal seedling raising environment and can not better improve the emergence rate and the survival rate of seeds.

The intelligent seed seedling raising box comprises a seedling raising box body, wherein a plurality of seedling raising basins are arranged in the seedling raising box body, a plurality of layers of seedling raising basins are horizontally arranged, and an intelligent monitoring component and an intelligent regulating component are also arranged in the seedling raising box body;

The intelligent monitoring assembly comprises a monitoring assembly and a miniature camera, the monitoring assembly and the miniature camera are in signal transmission connection with a peripheral monitoring terminal, and the monitoring assembly comprises a temperature sensor, a humidity sensor and an illumination sensor;

the intelligent regulation and control assembly comprises a circulating gas flow pipe, a light supplementing lamp, a spiral heat exchange pipe and a water supply pipe, wherein the circulating gas flow pipe is vertically connected to the corner of the seedling raising box body, the light supplementing lamp is connected to the inner wall of the seedling raising box body, the spiral heat exchange pipe is arranged in the circulating gas flow pipe, the water supply pipe is connected to the side wall of one side of the seedling raising box body in a penetrating manner, and each water supply branch pipe of the water supply pipe is located above each seedling raising basin.

As a still further scheme of the utility model, the open end of the seedling raising box body is connected with a box door, one side edge of the box door is rotationally connected with one side wall of the open end of the seedling raising box body, the bottom end of the box door is provided with a plurality of ventilation small holes, the seedling raising box body and the box door are formed by splicing heat insulation boards, and four corners of the bottom end of the seedling raising box body are connected with supporting feet.

As a still further scheme of the utility model, a rotating support frame is vertically connected in a seedling raising box body, the rotating support frame comprises a seedling raising basin support plate and seedling raising basin rotating rods, the seedling raising basin support plate is in a cross shape, a plurality of seedling raising basin support plates are equidistantly arranged, the central part of each seedling raising basin support plate is fixedly sleeved on the rod body of each seedling raising basin rotating rod, two seedling raising basins are respectively arranged on each seedling raising basin support plate, the cross end of each seedling raising basin support plate is in an upward convex shape, the rod body at the bottom end of each seedling raising basin rotating rod penetrates through the bottom plate of the seedling raising box body, the bottom end of each seedling raising basin rotating rod is coaxially connected with a low-speed motor, and the body of the low-speed motor is fixedly connected to the lower plate surface of the bottom plate of the seedling raising box body.

As a still further proposal of the utility model, each seedling raising basin is semicircular, a semicircular inner groove is arranged at the middle part of the butt joint surface of the two seedling raising basins, a plurality of vent holes are arranged on the bottom plate of the seedling raising basin, a water-retaining cotton pad is paved on the bottom plate of the seedling raising basin, and a miniature camera is fixedly connected on the inner wall of the arc-shaped side edge of the seedling raising basin.

As a still further proposal of the utility model, the side wall of the upper end of the circulating gas flow pipe is provided with a gas flow inlet, the side wall of the lower end of the circulating gas flow pipe is provided with a gas flow outlet, and the circulating gas flow pipe is internally provided with a circulating power assembly.

As a still further scheme of the utility model, the circulating power assembly comprises circulating fan blades and a circulating rotating rod, wherein the circulating fan blades are fixedly connected to the upper end of the circulating rotating rod, the rod body of the circulating rotating rod penetrates through the bottom plate of the seedling raising box body, the lower end of the circulating rotating rod is coaxially connected with a circulating rotating wheel, the circulating rotating wheel is positioned below the seedling raising box body, the rod body of the seedling raising pot rotating rod positioned below the seedling raising box body is coaxially and fixedly sleeved with a driving rotating wheel, and a transmission belt is sleeved between the driving rotating wheel and the circulating rotating wheel.

As a further scheme of the utility model, the driving rotating wheel is sleeved with two groups of driving belts which are arranged in a staggered manner up and down.

As a still further proposal of the utility model, a spiral heat exchange tube is also arranged in the circulating gas tube, the lower end of the spiral heat exchange tube is communicated with a liquid inlet tube, the upper end of the spiral heat exchange tube is communicated with a liquid outlet tube, the liquid inlet tube and the liquid outlet tube penetrate through the side wall of one side of the seedling box body, and the other ends of the liquid inlet tube and the liquid outlet tube are communicated with a cold and hot water supply system arranged outside through a three-way valve.

As a still further scheme of the utility model, a plurality of light supplementing lamps are arranged, and are respectively aligned to each layer of seedling raising basin, wherein the light supplementing lamps are LED lamps with adjustable brightness, and are electrically connected with a peripheral control terminal.

As a still further proposal of the utility model, a plurality of atomizing spray heads are communicated with the water supply branch pipes positioned above each layer of seedling raising basin, the nozzle parts of the atomizing spray heads are aligned with the seedling raising basin under the seedling raising basin, and the water supply main pipe positioned on the outer wall of the seedling raising box body is communicated with an external water supply system.

The beneficial effects of the utility model are as follows:

1. the seedling raising boxes and the seedling raising basins are arranged in a layered mode, so that different types of seeds or large quantities of similar seeds can be simultaneously subjected to seedling raising and sprouting, the environment in the box is regulated and controlled through the intelligent regulation and control assembly arranged in the seedling raising box, and the environment in the box and the seedling raising and sprouting conditions of the seeds are monitored through the intelligent monitoring assembly;

2. Through being provided with intelligent monitoring subassembly, intelligent monitoring subassembly includes monitoring subassembly and miniature camera head, monitoring subassembly includes temperature sensor, humidity transducer and illumination sensor, the automated control of seed seedling raising process has been realized, can be to the temperature in the case, humidity and illumination intensity real-time supervision, seedling raising efficiency and rate of emergence have been improved, and real-time monitoring and record seedling raising data, can provide powerful support for scientific research and production management, and miniature camera head can realize remote monitoring and warning, make the user grasp the state of seedling raising case anytime and anywhere, be convenient for in time handle abnormal conditions;

3. Through being provided with intelligent regulation and control subassembly, intelligent regulation and control subassembly includes the circulation air current pipe, the light filling lamp, spiral heat exchange tube and delivery pipe, the circulation air current pipe is vertical form and connects in the corner of growing seedlings box, the light filling lamp is connected on the inner wall of growing seedlings box, spiral heat exchange tube embeds in the circulation air current pipe, delivery pipe through connection is on the lateral wall of one side of growing seedlings box, and every water supply branch pipe of delivery pipe all is located the top of every layer of seedling pot, realize the circulation flow to the incasement air through the circulation air current pipe, realize regulating and control the illumination intensity in the case through the light filling lamp, realize carrying out constant temperature regulation and control to the air current temperature in the case through the spiral heat exchange tube, can be to the required humidity of growing seedlings germination seeds moisturizing of waiting to grow seedlings in order to maintain the seedling germination through the delivery pipe, can provide more stable and even seedling germination environment to the seed, be favorable to the healthy growth of seed.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the connection structure of the rotating support frame and the seedling pot;

FIG. 3 is a schematic view of a rotating support frame according to the present utility model;

FIG. 4 is a schematic view of the structure of the seedling pot of the utility model;

FIG. 5 is a schematic view of a section structure of a side of a seedling raising box body connected with a box door;

FIG. 6 is a schematic view of a section structure of a side of a seedling raising box body connected with a water supply pipe;

FIG. 7 is a schematic diagram of the driving wheel and circulating wheel transmission structure of the present utility model;

FIG. 8 is a schematic view of the tangential structure of the circulating gas flow tube of the present utility model.

In the figure, 1, a seedling box body, 11, a box door, 12, a supporting leg, 13, a ventilation small hole, 2, a rotating supporting frame, 21, a seedling basin supporting plate, 22, a seedling basin rotating rod, 23, a driving rotating wheel, 3, a seedling basin, 31, an inner groove, 32, a ventilation hole, 33, a water-retaining cotton pad, 34, a miniature camera head, 4, a low-speed motor, 5, a circulating airflow pipe, 51, an airflow inlet, 52, an airflow outlet, 6, a light supplementing lamp, 7, a monitoring component, 71, a temperature sensor, 72, a humidity sensor, 73, an illumination sensor, 8, a circulating power component, 81, a circulating fan blade, 82, a circulating rotating rod, 83, a circulating rotating wheel, 84, a driving belt, 9, a spiral heat exchange pipe, 91, a liquid inlet pipe, 92, a liquid outlet pipe, 10, a water supply pipe, 101 and an atomizing nozzle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1, fig. 2, fig. 5 and fig. 6, the intelligent seed seedling raising box comprises a seedling raising box body 1, wherein a plurality of seedling raising basins 3 are arranged in the seedling raising box body 1, the seedling raising basins 3 are horizontally provided with a plurality of layers, an intelligent monitoring component and an intelligent regulation and control component are also arranged in the seedling raising box body 1, seeds to be germinated in a seedling raising basin 3 can be tiled, the seedling raising basins 3 can be used for simultaneously raising and sprouting different types of seeds or large quantities of similar seeds by adopting layered arrangement, the environment in the box is regulated and controlled by the intelligent regulation and control component arranged in the seedling raising box body 1, and the environment in the box and the seedling raising and sprouting condition of the seeds are monitored by the intelligent monitoring component;

The intelligent monitoring assembly comprises a monitoring assembly 7 and a miniature camera 34, the monitoring assembly 7 and the miniature camera 34 are in signal transmission connection with an external monitoring terminal, the monitoring assembly 7 comprises a temperature sensor 71, a humidity sensor 72 and an illumination sensor 73, automatic control of the seed seedling raising process is realized through the monitoring assembly 7, the temperature, the humidity and the illumination intensity in the box can be monitored in real time, the seedling raising efficiency and the seedling emergence rate are improved, seedling raising data are monitored and recorded in real time, powerful support can be provided for scientific research and production management, and the miniature camera 34 can realize remote monitoring and alarm, so that a user can master the state of the seedling raising box anytime and anywhere, and abnormal conditions can be conveniently handled in time;

The intelligent regulation and control subassembly includes circulation air flow pipe 5, light filling lamp 6, spiral heat exchange tube 9 and delivery pipe 10, circulation air flow pipe 5 is vertical form and connects in the corner of growing seedlings box 1, light filling lamp 6 connects on the inner wall of growing seedlings box 1, spiral heat exchange tube 9 embeds in circulation air flow pipe 5, delivery pipe 10 through connection is on the lateral wall of one side of growing seedlings box 1, and every water supply branch pipe of delivery pipe 10 all is located the top of every layer of basin 3 of growing seedlings, realize the circulation flow to the incasement air through circulation air flow pipe 5, realize regulating and control the illumination intensity in the case through light filling lamp 6, realize carrying out constant temperature regulation and control to the air current temperature in the case through spiral heat exchange tube 9, can supply water to the required humidity of growing seedlings germination seeds in to the basin 3 of growing seedlings with maintaining, can provide more stable and even environment of growing seedlings to the seed, be favorable to the healthy growth of seed.

Example two

Improvement on the basis of the first embodiment:

As shown in fig. 1 to 7, the open end of the seedling raising box body 1 is connected with a box door 11, one side edge of the box door 11 is rotationally connected with a side wall of the open end of the seedling raising box body 1, a plurality of ventilation holes 13 are formed in the bottom end of the box door 11, the seedling raising box body 1 and the box door 11 are formed by splicing heat insulation boards, supporting feet 12 are connected to four corners of the bottom end of the seedling raising box body 1, the open end of the seedling raising box body 1 is plugged through the box door 11, the seedling raising box body 1 and the box door 11 have good heat insulation effect, namely, the seedling raising box can have good heat insulation performance, the stable internal environment is ensured, oxygen can be supplied to the box at any time through the formed ventilation holes 13, and oxygen required by seed seedling raising germination is maintained.

Further, vertical rotation support frame 2 that is connected with in the seedling raising box 1, rotation support frame 2 is including raising seedling basin backup pad 21 and raising seedling basin dwang 22, raising seedling basin backup pad 21 is the cross, raising seedling basin backup pad 21 equidistance is provided with a plurality of, and the fixed cover in central part of raising seedling basin backup pad 21 is established on the pole of raising seedling basin dwang 22, and two raising seedling basins 3 have all been placed on every raising seedling basin backup pad 21, raising seedling basin backup pad 21's cross end department is the convexity, raising seedling basin dwang 22's bottom pole body runs through raising seedling box 1's bottom plate, raising seedling basin dwang 22's bottom coaxial line is connected with low-speed motor 4, and the fuselage fixed connection of low-speed motor 4 is at raising seedling box 1's bottom plate face, can make raising seedling basin 3 can firmly and steadily laminate on raising seedling basin backup pad 21, and raising seedling basin 3 is detachable setting, make things convenient for the placing and taking out of seed, and drive raising seedling basin dwang 22 through low-speed motor 4 and rotate, and then can make raising seedling basin 3 slowly rotate in box 1, in order to guarantee that every seedling raising seedling 3 is sprouting condition of sprouting is unanimous.

Further, each seedling raising basin 3 is semicircular, semicircular inner grooves 31 are formed in the middle of the butt joint surfaces of the two seedling raising basins 3, a plurality of ventilation holes 32 are formed in the bottom plate of the seedling raising basin 3, water-retaining cotton pads 33 are paved on the bottom plate of the seedling raising basin 3, miniature cameras 34 are fixedly connected to the inner walls of the arc-shaped side edges of the seedling raising basin 3, the positions of seedling raising basin rotating rods 22 can be reserved through the formed inner grooves 31, when the two semicircular seedling raising basins 3 are butted together, the two semicircular seedling raising basins can be just clamped on the seedling raising basin supporting plates 21, seeds to be raised and germinated can be paved on the water-retaining cotton pads 33, the water-retaining cotton pads 33 can continuously improve the humidity required by germination, the ventilation holes 32 can enable the lower portions of the seeds to be germinated to have good ventilation performance, the seeds can be in good germination environments, the miniature cameras 34 can monitor the seedling raising conditions of the seeds in the tray at any time, the state of the incubator can be checked in real time through a mobile phone or a computer end, and alarm notification can be sent out under abnormal conditions.

Further, the upper end side wall of the circulating air flow pipe 5 is provided with an air inlet 51, the lower end side wall of the circulating air flow pipe 5 is provided with an air outlet 52, the circulating air flow pipe 5 is internally provided with a circulating power component 8, so that air flow in the box can be sucked into the circulating air flow pipe 5 from the air inlet 51 through the starting of the circulating power component 8 and is discharged from the air outlet 52, namely, the air flow in the box can realize circulating flow, and the air temperature and the air humidity in the box can be driven to be balanced through the flowing of the air flow, and the seedling raising and sprouting environment with balanced temperature and humidity can be provided for seeds in the box.

Further, circulation power component 8 includes circulation flabellum 81 and circulation bull stick 82, circulation flabellum 81 fixed connection is in the upper end of circulation bull stick 82, the shaft of circulation bull stick 82 is passed the bottom plate of educating seedling box 1, and the lower extreme coaxial line of circulation bull stick 82 is connected with circulation runner 83, and circulation runner 83 is located the below of educating seedling box 1, the fixed cover of coaxial line on the shaft of educating seedling pot dwang 22 that is located educating seedling box 1 below is equipped with initiative runner 23, the cover is equipped with driving belt 84 between initiative runner 23 and the circulation runner 83, can be when educating seedling pot dwang 22 pivoted, drive circulation bull stick 82 through driving belt 84 rotates, and then can make circulation flabellum 81 rotate in circulation air current pipe 5, in order to provide circulation power to the air current in the circulation air current pipe 5.

Further, the driving wheel 23 is sleeved with two groups of driving belts 84, and the two groups of driving belts 84 are arranged in a vertically staggered mode, so that driving force can be provided for the two circulating power assemblies 8 at the same time, and further, the efficiency of circulating flow of air flow in the seedling raising box body 1 can be further improved.

As shown in fig. 1, 5, 6 and 8, the spiral heat exchange tube 9 is further disposed in the circulating air flow tube 5, the lower end of the spiral heat exchange tube 9 is communicated with the liquid inlet tube 91, the upper end of the spiral heat exchange tube 9 is communicated with the liquid outlet tube 92, the liquid inlet tube 91 and the liquid outlet tube 92 both penetrate through one side wall of the seedling raising box 1, and the other ends of the liquid inlet tube 91 and the liquid outlet tube 92 are communicated with an external cold and hot water supply system through three-way valves, so that when the temperature sensor 71 monitors that the temperature in the box is low, hot water is conveyed to the liquid inlet tube 91, so that the hot water exchanges heat to the air flow in the circulating air flow tube 5 in the process of flowing in the spiral heat exchange tube 9, the temperature in the box is increased, and when the temperature sensor 71 monitors that the temperature in the box is high, cold water is conveyed to the liquid inlet tube 91, so that the temperature in the box is reduced, the temperature in the box is maintained in a certain range, and the optimal germination temperature condition is ensured for the seedling raising seeds.

Further, the light supplementing lamps 6 are provided with a plurality of, and the light supplementing lamps 6 are respectively aligned to each layer of seedling raising basin 3, the light supplementing lamps 6 are LED lamps with adjustable brightness, the light supplementing lamps 6 are electrically connected with a peripheral control terminal, when the illumination sensor 73 monitors that the illumination intensity in the box is insufficient, the brightness of the light supplementing lamps 6 can be adjusted, and then the optimal seedling raising and sprouting illumination conditions can be ensured to be provided for seeds.

Further, the water supply pipe 10 is located the water supply branch pipe of every layer of seedling raising basin 3 top and is communicated with a plurality of atomizer 101, and the nozzle position of atomizer 101 aligns the seedling raising basin 3 under, the water supply main pipe that the water supply pipe 10 is located on the outer wall of seedling raising box 1 is linked together with the water supply system of peripheral hardware, when humidity sensor 72 monitors that the humidity in the case is low, can spray the water smoke to the incasement through atomizer 101, can improve the humidity of incasement air, also can spray water on the seed surface of waiting to grow seedlings sprouting simultaneously, and then can ensure to provide the most suitable seedling raising sprouting humidity condition for the seed.

Working principle: firstly, a water-retaining cotton pad 33 is paved on a seedling raising basin 3, then seeds are paved on the water-retaining cotton pad 33, two semicircular seedling raising basins 3 are placed on the same seedling raising basin supporting plate 21, a seedling raising basin rotating rod 22 is driven by a low-speed motor 4 to rotate, the seedling raising basin 3 can slowly rotate in a seedling raising box body 1, a circulating rotating rod 82 is driven to rotate by the transmission of a transmission belt 84 while the seedling raising basin rotating rod 22 rotates, circulating fan blades 81 can further rotate in a circulating air flow pipe 5 to provide circulating power for air flow in the circulating air flow pipe 5, the air temperature and the air humidity in the box are kept balanced, seedling raising and sprouting environments with balanced temperature and humidity are provided for the seeds in the box, when the temperature sensor 71 monitors that the temperature in the box is low, hot water is conveyed to a liquid inlet pipe 91 so that the hot water flows in a spiral heat exchange pipe 9, the heat is exchanged to the air flow in the circulating air flow pipe 5 to increase the temperature in the tank, when the temperature sensor 71 monitors that the temperature in the tank is higher, cold water is conveyed to the liquid inlet pipe 91, so that the heat of the air flow in the circulating air flow pipe 5 is absorbed in the process of flowing in the spiral heat exchange pipe 9 to reduce the temperature in the tank, the temperature in the tank can be further maintained in a certain range, the optimal seedling raising germination temperature condition is ensured to be provided for seeds, when the illumination sensor 73 monitors that the illumination intensity in the tank is insufficient, the brightness of the light supplementing lamp 6 can be adjusted, the optimal seedling raising germination illumination condition is ensured to be provided for the seeds, when the humidity sensor 72 monitors that the humidity in the tank is lower, water is supplied by the water supply pipe 10, water mist is sprayed into the tank through the atomizing nozzle 101, the humidity of the air in the tank can be increased, meanwhile, water can be sprayed on the surface of the seeds to be grown and germinated, so that optimal growing and germination humidity conditions can be provided for the seeds, the miniature camera 34 can monitor the growing conditions of the seeds in the tray at any time, check the state of the incubator in real time through a mobile phone or a computer end, and timely send out alarm notification under abnormal conditions.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. An intelligent seed seedling raising box comprises a seedling raising box body (1) and is characterized in that a plurality of seedling raising basins (3) are arranged in the seedling raising box body (1), the seedling raising basins (3) are horizontally provided with a plurality of layers, and an intelligent monitoring assembly and an intelligent regulation assembly are further arranged in the seedling raising box body (1);

The intelligent monitoring assembly comprises a monitoring assembly (7) and a miniature camera (34), the monitoring assembly (7) and the miniature camera (34) are in signal transmission connection with an external monitoring terminal, and the monitoring assembly (7) comprises a temperature sensor (71), a humidity sensor (72) and an illumination sensor (73);

The intelligent regulation and control subassembly includes circulation air current pipe (5), light filling lamp (6), spiral heat exchange tube (9) and delivery pipe (10), circulation air current pipe (5) are vertical form and connect the corner at box (1) of growing seedlings, light filling lamp (6) are connected on the inner wall of box (1) of growing seedlings, spiral heat exchange tube (9) are built-in circulation air current pipe (5), delivery pipe (10) through connection is on the lateral wall of one side of box (1) of growing seedlings, just every water supply branch pipe of delivery pipe (10) all is located the top of every layer of basin (3) of growing seedlings.

2. The intelligent seed seedling raising box according to claim 1, wherein the opening end of the seedling raising box body (1) is connected with a box door (11), one side edge of the box door (11) is rotationally connected with one side wall of the opening end of the seedling raising box body (1), a plurality of ventilation holes (13) are formed in the bottom end of the box door (11), the seedling raising box body (1) and the box door (11) are formed by splicing heat insulation boards, and supporting feet (12) are connected to four corners of the bottom end of the seedling raising box body (1).

3. The intelligent seed seedling raising box of claim 1, wherein the seedling raising box body (1) is vertically connected with a rotating support frame (2), the rotating support frame (2) comprises a seedling raising basin support plate (21) and seedling raising basin rotating rods (22), the seedling raising basin support plate (21) is in a cross shape, the seedling raising basin support plate (21) is provided with a plurality of equidistantly, the central part of the seedling raising basin support plate (21) is fixedly sleeved on the rod body of the seedling raising basin rotating rods (22), two seedling raising basins (3) are respectively placed on the seedling raising basin support plate (21), the cross end of the seedling raising basin support plate (21) is in a convex shape, the bottom rod body of the seedling raising basin rotating rods (22) penetrates through the bottom plate of the seedling raising box body (1), the bottom end of the seedling raising basin rotating rods (22) is coaxially connected with a low-speed motor (4), the bottom plate surface of the seedling raising basin support plate (21) is fixedly connected with the bottom plate body of the box body (1), and the seedling raising basins (3) can be firmly placed on the seedling raising basin support plate (21) in a layered mode, and the seedling raising basin (21) can be stably placed on the seedling raising basin body.

4. The intelligent seed seedling raising box according to claim 2, wherein each seedling raising basin (3) is semicircular, semicircular inner grooves (31) are formed in the middle of the butt joint surfaces of the two seedling raising basins (3), a plurality of vent holes (32) are formed in the bottom plate of each seedling raising basin (3), water-retaining cotton pads (33) are paved on the bottom plate of each seedling raising basin (3), and miniature cameras (34) are fixedly connected to the inner walls of the arc-shaped side edges of each seedling raising basin (3).

5. The intelligent seed seedling raising box according to claim 1, wherein an air flow inlet (51) is formed in the side wall of the upper end of the circulating air flow pipe (5), an air flow outlet (52) is formed in the side wall of the lower end of the circulating air flow pipe (5), and a circulating power assembly (8) is further arranged in the circulating air flow pipe (5).

6. The intelligent seed seedling raising box according to claim 5, wherein the circulating power assembly (8) comprises circulating fan blades (81) and a circulating rotating rod (82), the circulating fan blades (81) are fixedly connected to the upper end of the circulating rotating rod (82), a rod body of the circulating rotating rod (82) penetrates through a bottom plate of the seedling raising box body (1), the lower end of the circulating rotating rod (82) is coaxially connected with a circulating rotating wheel (83), the circulating rotating wheel (83) is located below the seedling raising box body (1), a driving rotating wheel (23) is fixedly sleeved on a rod body of a seedling raising basin rotating rod (22) located below the seedling raising box body, and a transmission belt (84) is sleeved between the driving rotating wheel (23) and the circulating rotating wheel (83).

7. The intelligent seed seedling raising box as set forth in claim 6, wherein the driving wheel (23) is sleeved with two sets of driving belts (84), and the two sets of driving belts (84) are arranged in a vertically staggered manner.

8. The intelligent seed seedling raising box according to claim 1, wherein a spiral heat exchange tube (9) is further arranged in the circulating air flow tube (5), a liquid inlet tube (91) is communicated with the lower end of the spiral heat exchange tube (9), a liquid outlet tube (92) is communicated with the upper end of the spiral heat exchange tube (9), the liquid inlet tube (91) and the liquid outlet tube (92) penetrate through one side wall of the seedling raising box body (1), and the other ends of the liquid inlet tube (91) and the liquid outlet tube (92) are communicated with an external cold and hot water liquid supply system through three-way valves.

9. The intelligent seed seedling raising box of claim 1, wherein a plurality of light supplementing lamps (6) are arranged, the light supplementing lamps (6) are respectively aligned to each layer of seedling raising basin (3), the light supplementing lamps (6) are LED lamps with adjustable brightness, and the light supplementing lamps (6) are electrically connected with a peripheral control terminal.

10. The intelligent seed seedling raising box according to claim 1, wherein the water supply pipe (10) is positioned on a water supply branch pipe above each layer of seedling raising basin (3) and is communicated with a plurality of atomizing spray heads (101), the nozzle parts of the atomizing spray heads (101) are aligned with the seedling raising basin (3) under the same, and a water supply main pipe positioned on the outer wall of the seedling raising box body (1) of the water supply pipe (10) is communicated with an external water supply system.