CN213029301U - Intelligent monitoring system for nursery stock factory rapid breeding production - Google Patents

Abstract

The utility model relates to the technical field of seedling cultivation, in particular to an intelligent monitoring system for the rapid industrial seedling breeding production, which comprises a cultivation shed, wherein an adjusting device is arranged in the cultivation shed, the upper end of the cultivation shed is provided with an air inlet, the adjusting device comprises a fan and a heating wire mounting seat, and the heating wire mounting seat is provided with a heating wire; a casing is arranged in the cultivation shed, and the bottom end of the casing is connected with a humidifier; the upper end part in the cultivation shed is provided with a water delivery frame; a connecting pipe for communicating the inner cavity of the casing and the water delivery cavity is arranged between the water delivery seat close to the casing and the casing in the two water delivery seats; the water delivery seat far away from the jacket shell is provided with a water inlet pipe communicated with the water delivery cavity. The utility model discloses not only realized carrying out intelligent regulation's function to the environment in cultivating the canopy, the promotion of still preferred to the regulation precision of cultivating the canopy internal environment, promoted the regulation effect.

Description

Intelligent monitoring system for nursery stock factory rapid breeding production

Technical Field

The utility model relates to a nursery stock seedling culture technical field, specifically speaking relates to an intelligent monitoring system that is used for nursery stock factory to breed production fast.

Background

The seedling is a sapling having a root system and a trunk. All the seedlings cultivated in the nursery are called seedlings regardless of age and before being out of nursery. The seedling type is as follows: seedling, nutrition propagation seedling, transplanting seedling and bed-keeping seedling. The seedlings can be classified according to trees and shrubs, and generally, more trees and shrubs are in the north and more shrubs are in the south, which are mainly caused by the growth climate. The greenhouse shed is needed to be used for cultivating the nursery stocks when the nursery stocks are cultivated, and the temperature, the humidity, the soil water content and the carbon dioxide content in the shed are monitored and regulated in real time when the nursery stocks are cultivated, so that the environmental requirement of nursery stock growth is met, and the quick and healthy growth of the nursery stocks is promoted.

At present, when nursery stocks are cultivated, related sensors are usually arranged in greenhouse sheds to monitor the temperature, humidity, soil water content and carbon dioxide content in the greenhouse sheds, and related ventilation equipment, heating equipment, spraying equipment and irrigation equipment are arranged in the sheds to adjust the environment in the greenhouse sheds; but because ventilation equipment, heating equipment, spraying equipment and irrigation equipment in the current shed are usually arranged independently, great inconvenience exists in installation and maintenance.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

an intelligent monitoring system for nursery stock factory rapid breeding production comprises a cultivation shed, wherein an adjusting device is arranged in the cultivation shed, an air inlet is formed in the upper end of the cultivation shed, a mounting bracket positioned at the air inlet is arranged on the outer side wall of the cultivation shed, the adjusting device comprises a fan and a heating wire mounting seat, the fan and the heating wire mounting seat are arranged in the mounting bracket, and a heating wire is arranged on the heating wire mounting seat; a casing for plugging the air inlet is arranged in the cultivation shed, and the bottom end of the casing is connected with a humidifier communicated with the inner cavity of the casing; the upper end part in the cultivation shed is provided with a water delivery frame, the water delivery frame comprises water delivery seats, water delivery cavities are arranged in the water delivery seats, a plurality of water delivery pipes with end parts communicated with the water delivery seats are arranged between the two water delivery seats, the bottom end of each water delivery pipe is provided with a plurality of water outlet holes, and the bottom end of each water delivery pipe is also provided with a plurality of lighting lamps positioned between the water outlet holes; a connecting pipe for communicating the casing inner cavity and the water delivery cavity is arranged between the water delivery seat close to the casing and the casing in the two water delivery seats, and a first electromagnetic valve for plugging the connecting pipe is arranged in the casing inner cavity; a water inlet pipe communicated with the water delivery cavity of the water delivery seat far away from the jacket is arranged on the water delivery seat of the two water delivery seats, a second electromagnetic valve is arranged on the water inlet pipe, and the end part of the water inlet pipe is connected with a water pump; cultivate the last lower extreme of canopy and all be equipped with the air exit, air exit department is equipped with rotatable and is used for carrying out the L type baffle sealed to the air exit.

The utility model discloses not only realized carrying out intelligent regulation's function to the environment in cultivating the canopy, still made air, water smoke and rivers that carry out the regulation to the environment in cultivating the canopy all discharge from the apopore to not only the simplification adjusting device's of preferred mounting structure, the promotion of still preferred has promoted the regulation effect to cultivating the regulation precision of canopy internal environment.

Preferably, the cultivation shed is internally provided with two mounting plates which are respectively positioned at two ends of the air outlet in the length direction, the mounting plates are provided with mounting plate through holes, a rotatable optical axis is arranged between the two mounting plate through holes, the L-shaped baffle is arranged on the optical axis, and the cultivation shed is internally provided with a motor connected with the optical axis.

Through the utility model discloses a setting of mounting panel, optical axis and motor, rotation of realization L type baffle that can be comparatively convenient to comparatively convenient realization is to the sealed of air exit.

Preferably, the water delivery pipe is provided with a threaded seat positioned at the water outlet, and the threaded seat is in threaded connection with the atomizing nozzle.

Through the utility model discloses a setting of atomizer can be so that irrigate more evenly to the soil in cultivating the canopy to the promotion of preferred irrigates the effect.

Preferably, a central controller, a temperature detection module, an air humidity detection module, a soil humidity detection module, a carbon dioxide detection module and a light intensity detection module are arranged in the cultivation shed; the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module are respectively used for detecting the temperature, the control humidity, the soil humidity, the carbon dioxide concentration and the illumination intensity in the cultivation shed and transmitting data to the central controller, and the central controller is used for processing the information transmitted by the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module and controlling the adjustment device to work; signals are transmitted between the central controller and the temperature detection module, between the central controller and the air humidity detection module, between the air humidity detection module and the soil humidity detection module, between the carbon dioxide detection module and the light intensity detection module through a wireless network, and signals are transmitted between the central controller and the adjusting device through a wireless network.

By transmitting signals between the central controller and the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module through the wireless network, the data detected by the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module can be conveniently transmitted to the central controller; through with passing through wireless network transmission signal between central controller and the adjustment mechanism, can be comparatively convenient control adjustment mechanism work through central controller.

Preferably, the temperature detection module comprises a temperature sensor, the air humidity detection module comprises an air humidity sensor, the soil humidity detection module comprises a soil humidity sensor, the carbon dioxide detection module comprises a carbon dioxide sensor, and the light intensity detection module comprises a light intensity sensor.

Through the utility model discloses a temperature sensor, air humidity sensor, soil moisture sensor, carbon dioxide sensor and illumination intensity sensor's setting, temperature, air humidity, soil moisture, carbon dioxide concentration and illumination intensity to cultivating in the canopy that can be comparatively accurate detect.

Preferably, the open end of the mounting bracket is provided with a filter screen for plugging the opening of the mounting bracket.

Through the utility model discloses a filter screen setting can avoid when ventilating to cultivating the canopy, and material such as dust among the external environment gets into to cause the interference to the normal growth of cultivating the nursery stock in the canopy in cultivating the canopy to the promotion of preferred is to the cultivation effect of nursery stock.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent monitoring system for rapid seedling factory breeding in embodiment 1.

Fig. 2 is a cross-sectional view of the intelligent monitoring system for rapid propagation in nursery stock factory in fig. 1.

Fig. 3 is a longitudinal sectional view of the intelligent monitoring system for seedling factory rapid breeding production in fig. 1.

Fig. 4 is a schematic structural view of the water delivery frame in fig. 2.

Fig. 5 is a working schematic diagram of the intelligent monitoring system for seedling factory rapid breeding production in this embodiment.

The names of the parts indicated by the numerical references in the drawings are as follows:

110. cultivating a shed; 120. mounting a bracket; 130. an air outlet; 140. an L-shaped baffle plate; 210. an air inlet; 220. a fan; 230. a heating wire mounting base; 231. an electric heating wire; 240. a housing; 250. a humidifier; 260. a water delivery rack; 261. a water delivery seat; 262. a water delivery cavity; 263. a water delivery pipe; 270. a connecting pipe; 280. a first solenoid valve; 290. a second solenoid valve; 2100. mounting a plate; 2110. an optical axis; 2120. a motor; 2130. filtering with a screen; 2140. a water inlet pipe; 2150. a water pump; 310. a mounting plate through hole; 410. a water outlet hole; 420. a threaded seat; 430. an atomizing spray head.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention only and are not limiting.

Example 1

As shown in fig. 1-5, the present embodiment provides an intelligent monitoring system for nursery stock factory rapid breeding production, which includes a cultivation shed 110, an adjusting device is disposed in the cultivation shed, an air inlet 210 is disposed at an upper end of the cultivation shed 110, a mounting bracket 120 located at the air inlet 210 is disposed on an outer side wall of the cultivation shed 110, the adjusting device includes a fan 220 disposed in the mounting bracket 120 and a heating wire mounting seat 230, and a heating wire 231 is disposed on the heating wire mounting seat 230; a sleeve 240 for plugging the air inlet 210 is arranged in the cultivation shed 110, and the bottom end of the sleeve 240 is connected with a humidifier 250 communicated with the inner cavity of the sleeve 240; the upper end part in the cultivation shed 110 is provided with a water delivery frame 260, the water delivery frame 260 comprises a water delivery seat 261, a water delivery cavity 262 is arranged in the water delivery seat 261, a plurality of water delivery pipes 263 with the end parts communicated with the water delivery seat 261 are arranged between the two water delivery seats 261, the bottom end of each water delivery pipe 263 is provided with a plurality of water outlet holes 410, and the bottom end of each water delivery pipe 263 is also provided with a plurality of lighting lamps 440 positioned between the water outlet holes 410; a connecting pipe 270 for communicating the inner cavity of the casing 240 and the water delivery cavity 262 is arranged between the water delivery seat 261 close to the casing 240 and the casing 240 in the two water delivery seats 261, and a first electromagnetic valve 280 for plugging the connecting pipe 270 is arranged in the inner cavity of the casing 240; a water inlet pipe 2140 communicated with the water delivery cavity 262 of the water delivery seat 261 far away from the jacket 240 is arranged on the water delivery seat 261, a second electromagnetic valve 290 is arranged on the water inlet pipe 2140, and a water pump 2150 is connected to the end part of the water inlet pipe 2140; the cultivation shed 110 is provided with air outlets 130 at the upper and lower ends thereof, and the air outlets 130 are provided with rotatable L-shaped baffles 140 for sealing the air outlets 130.

The intelligent monitoring system for nursery stock factory fast breeding production in this embodiment is when using, can will pass through temperature detect module, air humidity detection module, soil humidity detection module, carbon dioxide detection module and luminous intensity detection module are to cultivating the temperature in the canopy 110, air humidity, soil humidity, carbon dioxide's content and illumination intensity detect, and handle data transmission to central controller in and through central controller, central controller passes through communication module remote transmission to service platform and control adjustment mechanism work with the data of handling the completion. When it is detected that the concentration of carbon dioxide in the cultivation shed 110 is decreased, the central controller controls the motor 2120 to rotate so that the air outlet 130 is opened, and then the outside air is supplied to the cultivation shed 110 by the operation of the blower 220; when a decrease in the temperature of the cultivation shed 110 is detected, the central controller controls the operation of the motor 2120, the blower fan 220 and the heating wire 231 to supply hot air into the cultivation shed 110, thereby heating the cultivation shed 110; when the reduction of the soil humidity is detected, the central controller controls the second electromagnetic valve 290 to be opened, the first electromagnetic valve 280 to be closed, and then controls the water pump 2150 to work, so that the water flow pumped by the water pump 2150 is discharged from the water outlet hole 410 to irrigate the land in the cultivation shed 110, and when the reduction of the soil humidity in the cultivation shed 110 is detected, the central controller controls the humidifier 250 and the fan 220 to operate, so that the water mist is discharged from the water outlet hole 410 to humidify the cultivation shed 110; when the illumination intensity in the cultivation shed 110 is insufficient, the central controller controls the illumination lamp 440 to operate. An intelligent monitoring system for nursery stock factory fast breeding production in this embodiment has not only realized carrying out intelligent regulation's function to the environment of cultivating in the canopy 110, still makes the air, water smoke and rivers that carry out the regulation to the environment of cultivating in the canopy 110 all discharge from apopore 410, thereby not only the simplification of preferred adjustment mechanism's mounting structure, the promotion of still preferred to cultivating the regulation precision of canopy 110 internal environment, promoted the regulating effect. In this embodiment, the user may also send an instruction to the service platform through the mobile phone terminal to control the central controller to make the adjusting device work, thereby implementing manual adjustment of the environment in the cultivation shed 110. It should be noted that the control principle related to this embodiment is the same as that in the patent with publication number CN208126125U, and therefore, no further description is given in this embodiment.

In this embodiment, two mounting plates 2100 are disposed in the cultivation shed 110 and located at two ends of the air outlet 130 in the longitudinal direction, respectively, a mounting plate through hole 310 is disposed on the mounting plate 2100, a rotatable optical axis 2110 is disposed between the two mounting plate through holes 310, an L-shaped baffle 140 is disposed on the optical axis 2110, and a motor 2120 is disposed in the cultivation shed 110 and connected to the optical axis 2110.

Through the installation of the installation plate 2100, the optical axis 2110 and the motor 2120 in this embodiment, the rotation of the L-shaped baffle 140 can be conveniently realized, so that the sealing of the air outlet 130 is conveniently realized.

In this embodiment, the water pipe 263 is provided with a threaded seat 420 located at the water outlet 410, and the threaded seat 420 is threadedly connected with the atomizing nozzle 430.

The arrangement of the atomizing nozzles 430 can make the irrigation of the soil in the cultivation shed 110 more uniform, thereby better improving the irrigation effect.

In this embodiment, the cultivation shed 110 is provided with a central controller, a temperature detection module, an air humidity detection module, a soil humidity detection module, a carbon dioxide detection module and a light intensity detection module; the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module are respectively used for detecting the temperature, the control humidity, the soil humidity, the carbon dioxide concentration and the illumination intensity in the cultivation shed 110 and transmitting data to the central controller, and the central controller is used for processing the information transmitted by the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module and controlling the adjustment device to work; signals are transmitted between the central controller and the temperature detection module, between the central controller and the air humidity detection module, between the air humidity detection module and the soil humidity detection module, between the carbon dioxide detection module and the light intensity detection module through a wireless network, and signals are transmitted between the central controller and the adjusting device through a wireless network.

Signals are transmitted among the central controller, the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module through a wireless network, so that data detected by the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module can be conveniently transmitted to the central controller; through with passing through wireless network transmission signal between central controller and the adjustment mechanism, can be comparatively convenient control adjustment mechanism work through central controller.

In this embodiment, the temperature detection module includes temperature sensor, and air humidity detection module includes air humidity sensor, and soil humidity detection module includes soil humidity sensor, and carbon dioxide detection module includes carbon dioxide sensor, and light intensity detection module includes illuminance sensor.

Through the setting of temperature sensor, air humidity sensor, soil moisture sensor, carbon dioxide sensor and illuminance sensor in this embodiment, can be comparatively accurate detect temperature, air humidity, soil moisture, carbon dioxide concentration and illumination intensity in cultivating canopy 110.

In this embodiment, a filter screen 2130 for blocking the opening of the mounting bracket 120 is disposed at the opening end of the mounting bracket 120.

Through the setting of filter screen 2130 in this embodiment, can avoid when ventilating to cultivating canopy 110, the normal growth of nursery stock in cultivating canopy 110 causes the interference in getting into cultivating canopy 110 to matters such as dust among the external environment to the promotion of preferred is to the cultivation effect of nursery stock.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides an intelligent monitoring system for production is bred fast in nursery stock factory, is including cultivating canopy (110), its characterized in that: the cultivation shed is internally provided with an adjusting device, the upper end part of the cultivation shed (110) is provided with an air inlet (210), the outer side wall of the cultivation shed (110) is provided with a mounting bracket (120) positioned at the air inlet (210), the adjusting device comprises a fan (220) arranged in the mounting bracket (120) and a heating wire mounting seat (230), and the heating wire mounting seat (230) is provided with a heating wire (231); a sleeve (240) for plugging the air inlet (210) is arranged in the cultivation shed (110), and the bottom end of the sleeve (240) is connected with a humidifier (250) communicated with the inner cavity of the sleeve (240); a water delivery frame (260) is arranged at the upper end part in the cultivation shed (110), the water delivery frame (260) comprises water delivery seats (261), water delivery cavities (262) are arranged in the water delivery seats (261), a plurality of water delivery pipes (263) with the end parts communicated with the water delivery seats (261) are arranged between the two water delivery seats (261), a plurality of water outlet holes (410) are arranged at the bottom end of each water delivery pipe (263), and a plurality of lighting lamps (440) positioned between the water outlet holes (410) are also arranged at the bottom end of each water delivery pipe (263); a connecting pipe (270) which is communicated with the inner cavity of the casing (240) and the water delivery cavity (262) is arranged between the water delivery seat (261) which is close to the casing (240) and the casing (240) in the two water delivery seats (261), and a first electromagnetic valve (280) which is used for plugging the connecting pipe (270) is arranged in the inner cavity of the casing (240); a water inlet pipe (2140) communicated with the water delivery cavity (262) of the water delivery seat (261) far away from the jacket (240) is arranged on the water delivery seat (261), a second electromagnetic valve (290) is arranged on the water inlet pipe (2140), and a water pump (2150) is connected to the end part of the water inlet pipe (2140); the upper end and the lower end of the cultivation shed (110) are both provided with air outlets (130), and the air outlets (130) are provided with rotatable L-shaped baffles (140) which are used for sealing the air outlets (130).

2. The intelligent monitoring system for seedling factory rapid breeding production according to claim 1, characterized in that: two mounting plates (2100) respectively positioned at two ends of the air outlet (130) in the length direction are arranged in the cultivation shed (110), mounting plate through holes (310) are formed in the mounting plates (2100), a rotatable optical axis (2110) is arranged between the two mounting plate through holes (310), an L-shaped baffle plate (140) is arranged on the optical axis (2110), and a motor (2120) connected with the optical axis (2110) is arranged in the cultivation shed (110).

3. The intelligent monitoring system for seedling factory rapid breeding production according to claim 1, characterized in that: the water delivery pipe (263) is provided with a threaded seat (420) positioned at the water outlet hole (410), and the threaded seat (420) is in threaded connection with an atomizing nozzle (430).

4. The intelligent monitoring system for seedling factory rapid breeding production according to claim 1, characterized in that: a central controller, a temperature detection module, an air humidity detection module, a soil humidity detection module, a carbon dioxide detection module and a light intensity detection module are arranged in the cultivation shed (110); the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module are respectively used for detecting the temperature, controlling the humidity, the soil humidity, the carbon dioxide concentration and the illumination intensity in the cultivation shed (110) and transmitting the data to the central controller, and the central controller is used for processing the information transmitted by the temperature detection module, the air humidity detection module, the soil humidity detection module, the carbon dioxide detection module and the light intensity detection module and controlling the adjustment device to work; signals are transmitted between the central controller and the temperature detection module, between the central controller and the air humidity detection module, between the air humidity detection module and the soil humidity detection module, between the carbon dioxide detection module and the light intensity detection module through a wireless network, and signals are transmitted between the central controller and the adjusting device through a wireless network.

5. The intelligent monitoring system for seedling factory rapid breeding production according to claim 1, characterized in that: the temperature detection module comprises a temperature sensor, the air humidity detection module comprises an air humidity sensor, the soil humidity detection module comprises a soil humidity sensor, the carbon dioxide detection module comprises a carbon dioxide sensor, and the light intensity detection module comprises a light intensity sensor.

6. The intelligent monitoring system for seedling factory rapid breeding production according to claim 1, characterized in that: the opening end of the mounting bracket (120) is provided with a filter screen (2130) used for plugging the opening of the mounting bracket (120).

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