CN203590788U - High pressure aeroponic device - Google Patents

Abstract

The utility model discloses a high pressure aeroponic device which comprises a high pressure aeroponic main machine, a seedling cultivation box and a plant cultivation chamber. The high pressure aeroponic main machine is provided with a water outlet pipe (1) and a water inlet pipe (2) communicated with a water source. The water outlet pipe (1) is communicated with the seedling cultivation box and the plant cultivation chamber, and the high pressure aeroponic main machine is further electrically connected with the seedling cultivation box and the plant cultivation chamber. According to the high pressure aeroponic device, the plant growth efficiency can be improved, and water can be saved.

Description

High-pressure aerial fog culturing device

Technical field

The utility model relates to cultivation technique without soil field, is specifically a kind of high-pressure aerial fog culturing device.

Background technology

Aerial fog cultivation is a kind of novel planting type, and it is that to utilize sprayer unit be little droplet shape by nutrient liquid atomizing, is directly injected to root system of plant so that a kind of cultivation technique without soil of the required moisture of plant growth and nutrient to be provided.

The aerial fog cultivation device of prior art is only for providing nutrient solution to plant, and can the growing environment of plant not carried out data acquisition and be regulated according to the result of data acquisition, and because the growing environment of plant is relative opening with outside natural environment, therefore will inevitably affect the growth of plant.In addition, because this aerial fog cultivation device is low pressure aerial fog cultivation device (flow is 200～300ml/min), its pressure is little, and atomization is thicker, and availability is lower, therefore relatively wastes water.In sum, the aerial fog cultivation device of prior art has reduced the growth efficiency of plant and has relatively wasted water.

Utility model content

The technical problems to be solved in the utility model is, overcomes the defect of above prior art, and a kind of high-pressure aerial fog culturing device that can improve plant growth efficiency and water saving is provided.

The technical solution of the utility model is, a kind of high-pressure aerial fog culturing device is provided, and comprises high-pressure aerial fog cultivation main frame, seedling fostering case and plant cultivation chamber; Described high-pressure aerial fog cultivation main frame is provided with an outlet pipe and a water inlet pipe being communicated with water source; Described outlet pipe is communicated with seedling fostering case, plant cultivation chamber; Described high-pressure aerial fog cultivation main frame is also electrically connected with seedling fostering case, plant cultivation chamber; Described high-pressure aerial fog cultivation main frame comprises the first high voltage power device, the second high voltage power device and controller for electric consumption; Described controller for electric consumption is electrically connected with the first high voltage power device, the second high voltage power device; The water inlet of described the first high voltage power device, the water inlet of the second high voltage power device are all communicated with water inlet pipe; The delivery port of described the first high voltage power device, the delivery port of the second high voltage power device are all communicated with outlet pipe; On described water inlet pipe, be also provided with a water purifier; The first described high voltage power device is identical with the structure of the second high voltage power device; Described high voltage power device is by the electromotor linking together and high-pressure plunger pump composition; Described seedling fostering case comprises a casing and is located at the first temperature sensor, the first humidity sensor and the multiple cultivations unit in casing; In described casing, be provided with the gripper shoe that polylith be arranged in parallel; Casing is divided into multiple unsealed cavitys by described polylith gripper shoe; Described multiple cultivations unit is corresponding one by one with multiple cavitys; Each cultivation unit by be located at cavity both sides two the first high-pressure atomization nozzles, be located at first artificial light source on cavity top and be located at the cultivation dish composition of cavity bottom; Described multiple the first artificial light sources, the first temperature sensor, the first humidity sensor are all electrically connected with controller for electric consumption; Described multiple the first high-pressure atomization nozzles are all located on a tube connector; Described tube connector is communicated with outlet pipe; Described plant culture box comprises an incubator body, is located at the second artificial light source, circulating fan, carbon dioxide sensor, the second temperature sensor, the second humidity sensor, at least one the second high-pressure atomization nozzle and a culturing frame in incubator inner body wall; Described culturing frame inside is provided with multiple third highs and presses atomizer, the 3rd humidity sensor and three-temperature sensor, and described at least one the second high-pressure atomization nozzle, multiple third high press atomizer to be communicated with outlet pipe by a pipeline; Described the second artificial light source, circulating fan, carbon dioxide sensor, the second temperature sensor, the second humidity sensor, the 3rd humidity sensor, three-temperature sensor are all electrically connected with controller for electric consumption; Described controller for electric consumption comprises temperature controller, humidity controller, carbonic acid gas controller and artificial light source controller, and described the first temperature sensor, the second temperature sensor, three-temperature sensor are all electrically connected with temperature controller; Described the first humidity sensor, the second humidity sensor, the 3rd humidity sensor are all electrically connected with humidity controller; Described carbon dioxide sensor is electrically connected with carbonic acid gas controller; Described the first artificial light source, the second artificial light source are all electrically connected with artificial light source controller.

Adopt after above structure, the utility model compared with prior art, has the following advantages:

The utility model high-pressure aerial fog culturing device can only not provide nutrient solution to plant, and can carry out data acquisition and carry out the adjusting of humidity, luminosity, temperature etc. according to the result of data acquisition the growing environment of plant, and because the growing environment of plant is relative completely cutting off with outside natural environment, it is not subject to the impact of outside natural environment, has therefore guaranteed the normal growth of plant.In sum, the utility model high-pressure aerial fog culturing device has improved the growth efficiency of plant.In addition, because this aerial fog cultivation device is high-pressure aerial fog culturing device (single high-pressure atomization nozzle flow is 49～89ml/min), its pressure (reaching 60-70bar) is larger, atomization is thinner, availability is higher, therefore the utilization of Plant To Nutrient liquid is greatly improved, therefore in water saving, energy-conservation, to save aspect nutrient solution effect splendid.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model high-pressure aerial fog culturing device.

Fig. 2 is the circuit block diagram of the utility model high-pressure aerial fog culturing device.

Shown in figure 1, outlet pipe, 2, water inlet pipe, 3, artificial light source controller, 4, water purifier, 5, electromotor, 6, high-pressure plunger pump, 7, casing, 8, the first temperature sensor, 9, the first humidity sensor, 10, gripper shoe, 11, cavity, 12, the first high-pressure atomization nozzle, 13, the first artificial light source, 14, cultivation dish, 15, tube connector, 16, incubator body, 17, the second artificial light source, 18, circulating fan, 19, carbon dioxide sensor, 20, the second temperature sensor, 21, the second humidity sensor, 22, the second high-pressure atomization nozzle, 23, culturing frame, 24, third high is pressed atomizer, 25, the 3rd humidity sensor, 26, three-temperature sensor, 27, carbonic acid gas controller, 28, temperature controller, 29, humidity controller.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

As shown in Figure 1 and Figure 2, a kind of high-pressure aerial fog culturing device of the utility model, comprises high-pressure aerial fog cultivation main frame, seedling fostering case and plant cultivation chamber; Described high-pressure aerial fog cultivation main frame is provided with an outlet pipe 1 and a water inlet pipe being communicated with water source 2; Described outlet pipe 1 is communicated with seedling fostering case, plant cultivation chamber; Described high-pressure aerial fog cultivation main frame is also electrically connected with seedling fostering case, plant cultivation chamber; Described high-pressure aerial fog cultivation main frame comprises the first high voltage power device, the second high voltage power device and controller for electric consumption; Described controller for electric consumption is electrically connected with the first high voltage power device, the second high voltage power device; The water inlet of described the first high voltage power device, the water inlet of the second high voltage power device are all communicated with water inlet pipe 2; The delivery port of described the first high voltage power device, the delivery port of the second high voltage power device are all communicated with outlet pipe 1; On described water inlet pipe 2, be also provided with a water purifier 4, in water purifier, be provided with successively active carbon, stainless (steel) wire and PP cotton, water, successively by active carbon, stainless (steel) wire and PP cotton, carries out the water purifications such as sterilization, filtration, water purifier belongs to commercially available prod, is not described in detail in this; The first described high voltage power device is identical with the structure of the second high voltage power device; Described high voltage power device forms by the electromotor 5 linking together and high-pressure plunger pump 6, and electromotor 5 and high-pressure plunger pump 6 belong to commercially available prod, are not described in detail in this its structure; Described seedling fostering case comprises a casing 7 and is located at the first temperature sensor 8, the first humidity sensor 9 and the multiple cultivations unit in casing 7; In described casing 7, be provided with the gripper shoe 10 that polylith be arranged in parallel, gripper shoe 10 is horizontally disposed with; Casing 7 is divided into multiple unsealed cavitys 11 by described polylith gripper shoe 10, between multiple cavitys 11, communicates by a hole; Described multiple cultivations unit is corresponding one by one with multiple cavitys 11, in a cavity 11, has one to cultivate unit; Each cultivation unit by being located at two the first high-pressure atomization nozzles 12 of cavity 11 both sides, the cultivation dish 14 that is located at first artificial light source 13 on cavity 11 tops and is located at cavity 11 bottoms forms; Described multiple the first artificial light sources 13, the first temperature sensor 8, the first humidity sensor 9 are all electrically connected with controller for electric consumption; Described multiple the first high-pressure atomization nozzles 12 are all located on a tube connector 15; Described tube connector 15 is communicated with outlet pipe 1; Described plant culture box comprises an incubator body 16, is located at the second artificial light source 17, circulating fan 18, carbon dioxide sensor 19, the second temperature sensor 20, the second humidity sensor 21, at least one second high-pressure atomization nozzle 22 and a culturing frame 23 on incubator body 16 inwalls; Described culturing frame 23 inside are provided with multiple third highs and press atomizer 24, the 3rd humidity sensor 25 and three-temperature sensor 26, and described at least one the second high-pressure atomization nozzle 22, multiple third high press atomizer 24 to be communicated with outlet pipe 1 by a pipeline; Described the second artificial light source 17, circulating fan 18, carbon dioxide sensor 19, the second temperature sensor 20, the second humidity sensor 21, the 3rd humidity sensor 25, three-temperature sensor 26 are all electrically connected with controller for electric consumption; Described controller for electric consumption comprises temperature controller 28, humidity controller 29, carbonic acid gas controller 27 and artificial light source controller 3, described the first temperature sensor 8, the second temperature sensor 20, three-temperature sensor 26 are all electrically connected with temperature controller 28, and electrical connection connects by wire; Described the first humidity sensor 9, the second humidity sensor 21, the 3rd humidity sensor 25 are all electrically connected with humidity controller 29, and electrical connection connects by wire; Described carbon dioxide sensor 19 is electrically connected with carbonic acid gas controller 27, and electrical connection connects by wire; Described the first artificial light source 13, the second artificial light source 17 are all electrically connected with artificial light source controller 3, and electrical connection connects by wire.Wherein temperature controller 28, humidity controller 29, carbonic acid gas controller 27 and artificial light source controller 3 are the product that can sell on market, and its concrete structure is not described in detail in this.

Below be only described with regard to most preferred embodiment of the present utility model, but can not be interpreted as it is limitations on claims.The utility model is not limited only to above embodiment, and its concrete structure allows to change.All various variations of doing in the protection domain of the utility model independent claims are all in protection domain of the present utility model.

Claims (1)

1. a high-pressure aerial fog culturing device, is characterized in that: comprise high-pressure aerial fog cultivation main frame, seedling fostering case and plant cultivation chamber; Described high-pressure aerial fog cultivation main frame is provided with an outlet pipe (1) and a water inlet pipe being communicated with water source (2); Described outlet pipe (1) is communicated with seedling fostering case, plant cultivation chamber; Described high-pressure aerial fog cultivation main frame is also electrically connected with seedling fostering case, plant cultivation chamber; Described high-pressure aerial fog cultivation main frame comprises the first high voltage power device, the second high voltage power device and controller for electric consumption; Described controller for electric consumption is electrically connected with the first high voltage power device, the second high voltage power device; The water inlet of described the first high voltage power device, the water inlet of the second high voltage power device are all communicated with water inlet pipe (2); The delivery port of described the first high voltage power device, the delivery port of the second high voltage power device are all communicated with outlet pipe (1); On described water inlet pipe (2), be also provided with a water purifier (4); The first described high voltage power device is identical with the structure of the second high voltage power device; Described high voltage power device is by the electromotor linking together (5) and high-pressure plunger pump (6) composition; Described seedling fostering case comprises a casing (7) and is located at the first temperature sensor (8), the first humidity sensor (9) and the multiple cultivations unit in casing (7); In described casing (7), be provided with the gripper shoe (10) that polylith be arranged in parallel; Casing (7) is divided into multiple unsealed cavitys (11) by described polylith gripper shoe (10); Described multiple cultivations unit is corresponding one by one with multiple cavitys (11); Each cultivation unit by be located at cavity (11) both sides two the first high-pressure atomization nozzles (12), be located at first artificial light source (13) on cavity (11) top and be located at cultivation dish (14) composition of cavity (11) bottom; Described multiple the first artificial light sources (13), the first temperature sensor (8), the first humidity sensor (9) are all electrically connected with controller for electric consumption; Described multiple the first high-pressure atomization nozzles (12) are all located on a tube connector (15); Described tube connector (15) is communicated with outlet pipe (1); Described plant culture box comprises an incubator body (16), is located at the second artificial light source (17), circulating fan (18), carbon dioxide sensor (19), the second temperature sensor (20), the second humidity sensor (21), at least one the second high-pressure atomization nozzle (22) and culturing frame (23) on incubator body (16) inwall; Described culturing frame (23) inside is provided with multiple third highs and presses atomizer (24), the 3rd humidity sensor (25) and three-temperature sensor (26), and described at least one the second high-pressure atomization nozzle (22), multiple third high press atomizer (24) to be communicated with outlet pipe (1) by a pipeline; Described the second artificial light source (17), circulating fan (18), carbon dioxide sensor (19), the second temperature sensor (20), the second humidity sensor (21), the 3rd humidity sensor (25), three-temperature sensor (26) are all electrically connected with controller for electric consumption; Described controller for electric consumption comprises temperature controller (28), humidity controller (29), carbonic acid gas controller (27) and artificial light source controller (3), and described the first temperature sensor (8), the second temperature sensor (20), three-temperature sensor (26) are all electrically connected with temperature controller (28); Described the first humidity sensor (9), the second humidity sensor (21), the 3rd humidity sensor (25) are all electrically connected with humidity controller (29); Described carbon dioxide sensor (19) is electrically connected with carbonic acid gas controller (27); Described the first artificial light source (13), the second artificial light source (17) are all electrically connected with artificial light source controller (3).

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