CN217364014U - Independent nursing device for vegetable seedlings - Google Patents

Abstract

The utility model relates to the technical field of vegetable seedling growing devices, and discloses a vegetable seedling independent nursing device, which comprises an insulation can, wherein the insulation can is divided into independent seedling growing units by a cross partition plate, the seedling growing units are divided into independent seedling growing chambers by a longitudinal partition plate, the rear wall of each seedling growing chamber is provided with a vent, a ventilation device is arranged on the vent, the bottom in each seedling growing chamber is provided with a seedling growing pot, the side wall in each seedling growing chamber is provided with a temperature sensor and an illumination sensor, the insulation can is externally provided with a main watering pipe, the main watering pipe is provided with a branch watering pipe, the branch watering pipe is provided with a branch watering pipe, the end part of the branch watering pipe is provided with a spray head, the spray head is provided with a plurality of nozzles, the branch watering pipe is provided with a valve, the spray head is provided with a humidity detection device, and the top part of the seedling growing chamber is provided with an LED plant growth lamp and a warming lamp, the seedlings of vegetables such as tomatoes, watermelons, cucumbers and the like grow healthier, and the success rate of seedling culture is improved.

Description

Independent nursing device for vegetable seedlings

Technical Field

The utility model relates to a vegetable seedling raising device technical field especially relates to a vegetable seedling nurses device alone.

Background

With the development of the vegetable industry, the planting area of vegetables such as tomatoes, cucumbers, peppers and the like is continuously enlarged, high benefit is required to be produced, and the seedlings are strong, the seedlings are cultured by paying attention to the following points that firstly seeds are disinfected, secondly bed soil is disinfected, in addition, the configuration of nutrient soil, the control of temperature, humidity, illumination and the like are required, and in 5-7 days before field planting, the seedlings should be subjected to a seedling hardening process to enhance the resistance of the seedlings and adapt to the environment after field planting. Direct planting without hardening seedlings is forbidden to prevent the phenomena of slow seedling growth and severe seedling death after planting due to uncomfortable environment after planting. The modern facility agriculture in China starts late, the most widely applied industries of the modern facility agriculture in China are tobacco seedling raising, flower seedling raising, vegetable planting, rice seedling raising, corn seedling raising, tomato seedling raising and the like, and the popularization and application of agricultural facilities such as greenhouses, plant factories and the like are of great importance to the current stable agricultural development in China. Present vegetable seedling device is placed vegetable seedling in same container mostly, and under the same environmental parameter, all seedlings are unified management, unified watering, can't carry out the index monitoring to each vegetable seedling pertinence ground, can not carry out solitary pertinence nursing to each vegetable seedling, especially when vegetable seedling cultivates the experiment, more need manage alone each vegetable seedling.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a vegetable seedling nurses device alone that can carry out index monitoring and nurse alone to each vegetable seedling is provided.

In order to solve the technical problem, the technical scheme of the utility model is that: a vegetable seedling independent nursing device comprises an insulation can, wherein a plurality of horizontal transverse partition plates are arranged in the insulation can, the transverse partition plates divide the insulation can into independent seedling growing units, a plurality of vertical longitudinal partition plates are arranged in each seedling growing unit, the longitudinal partition plates divide the seedling growing units into independent seedling growing chambers, a front door is hinged in front of each seedling growing chamber, a ventilation opening is formed in the rear wall of each seedling growing chamber, a ventilation device is installed on the ventilation opening, a seedling growing pot is arranged at the bottom in each seedling growing chamber, a temperature sensor and an illumination sensor are installed on the inner side wall of each seedling growing chamber, a main watering pipe is arranged outside the insulation can, a watering branch pipe corresponding to each seedling growing unit is arranged on the main watering pipe, watering branch pipes corresponding to each seedling growing chamber are arranged on the watering branch pipes, and spray nozzles are arranged at the end parts of the watering branch pipes, be equipped with a plurality of orientations on the shower nozzle the nozzle of nursery pot, be equipped with the valve on the branch pipe of watering, the shower nozzle passes the back wall of nursery room is located the top of nursery pot, install humidity detection device on the shower nozzle, LED vegetation lamp and heat the lamp are installed at the top of nursery room, ventilation unit temperature sensor light sensor the valve humidity detection device LED vegetation lamp with heat the lamp and be connected with control system respectively.

As a preferable technical scheme, the ventilation device comprises a fan installed on the ventilation opening, and a ventilation door is installed at the ventilation opening on the outer side of the rear wall of the heat preservation box.

As an optimized technical scheme, a seedling raising pot limiting groove is formed in the bottom of the seedling raising chamber, and the seedling raising pot is installed in the seedling raising pot limiting groove.

According to the preferable technical scheme, the humidity detection device comprises an air cylinder fixedly mounted on the spray head, the cylinder end of the air cylinder is fixedly mounted on the spray head, the cylinder rod end of the air cylinder vertically faces downwards to the seedling raising pot, and the end of the cylinder rod is fixedly mounted with a humidity sensor.

By adopting the technical scheme, the vegetable seedling independent nursing device comprises an insulation can, wherein a plurality of horizontal transverse partition plates are arranged in the insulation can, the transverse partition plates divide the insulation can into independent seedling growing units, a plurality of vertical longitudinal partition plates are arranged in each seedling growing unit, the longitudinal partition plates divide the seedling growing units into independent seedling growing chambers, the front of each seedling growing chamber is hinged with a front door, the rear wall of each seedling growing chamber is provided with a vent, a ventilation device is arranged on the vent, a seedling growing pot is arranged at the bottom in each seedling growing chamber, a temperature sensor and an illumination sensor are arranged on the inner side wall of each seedling growing chamber, a main watering pipe is arranged outside the insulation can, a branch watering pipe corresponding to each layer of seedling growing unit is arranged on the main watering pipe, a branch watering pipe corresponding to each seedling growing chamber is arranged on the branch watering pipe, a spray nozzle is arranged at the end part of the branch watering pipe, and a plurality of spray nozzles facing the seedling growing pot are arranged on the spray nozzle, the watering branch pipe is provided with a valve, the spray head penetrates through the rear wall of the seedling raising chamber and is positioned above the seedling raising pot, the spray head is provided with a humidity detection device, the top of the seedling raising chamber is provided with an LED plant growth lamp and a temperature increasing lamp, and the ventilation device, the temperature sensor, the illumination sensor, the valve, the humidity detection device, the LED plant growth lamp and the temperature increasing lamp are respectively connected with a control system; the utility model has the advantages that: each vegetable seedling is planted in one seedling growing pot, only one seedling growing pot is arranged in each seedling growing chamber, each seedling growing chamber is respectively provided with a ventilating device, a temperature sensor, an illumination sensor, a humidity detection device, an LED plant growth lamp and a warming lamp, and each seedling growing chamber is respectively provided with an independent valve for watering, so that the temperature, humidity and illumination values measured by the temperature sensor, the humidity detection device and the illumination sensor are all monitoring aiming at a single vegetable seedling in the seedling growing chamber, a control system controls whether the valve corresponding to the seedling growing chamber waters the vegetable seedling according to the monitoring index of the single vegetable seedling in the seedling growing chamber, controls whether the warming lamp warms the vegetable seedling, controls whether the LED plant growth lamp supplements light to the vegetable seedling, controls whether the ventilating device ventilates and cools the vegetable seedling, index monitoring is carried out on each vegetable seedling in a targeted manner, and targeted nursing is carried out, so that the vegetable seedlings grow healthier, and the seedling raising success rate is improved.

Drawings

The drawings are only intended to illustrate and explain the present invention and do not limit the scope of the invention. Wherein:

FIG. 1 is a schematic view of a device for individually nursing vegetable seedlings according to the present invention;

fig. 2 is a second schematic structural view of the device for nursing vegetable seedlings separately according to the present invention;

FIG. 3 is a view taken in the direction A of FIG. 1;

FIG. 4 is one of the schematic internal structural views of a device for individually nursing vegetable seedlings according to the present invention;

FIG. 5 is a second schematic view of the internal structure of a device for individually nursing vegetable seedlings according to the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at I;

fig. 7 is a third schematic view of the internal structure of a device for individually nursing vegetable seedlings according to the present invention;

in the figure: 1-insulation box; 2-diaphragm plate; 3-longitudinal partition board; 4-a seedling raising room; 5-front door; 6-seedling raising pot; 7-a temperature sensor; 8-an illumination sensor; 9-main watering pipe; 10-watering and pipe dividing; 11-watering branch pipes; 12-a spray head; 13-a nozzle; 14-a valve; 15-a humidity sensor; 16-LED plant growth lights; 17-a warming lamp; 18-a ventilation door; 19-a cylinder; and 20-a fan.

Detailed Description

The invention is further explained below with reference to the drawings and examples. In the following detailed description, certain exemplary embodiments of the present invention have been described by way of illustration only. Needless to say, a person skilled in the art will recognize that the described embodiments can be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive on the scope of the claims.

As shown in figures 1 to 7, the device for independently nursing the vegetable seedlings comprises an insulation can 1, a plurality of horizontal transverse partition plates 2 are arranged in the insulation can 1, the transverse partition plates 2 divide the insulation can 1 into independent seedling growing units, a plurality of vertical longitudinal partition plates 3 are arranged in each seedling growing unit, the longitudinal partition plates 3 divide the seedling growing units into independent seedling growing chambers 4, a front door 5 is hinged to the front of each seedling growing chamber 4, a ventilation opening is formed in the rear wall of each seedling growing chamber 4, a ventilation device is arranged on the ventilation opening, a seedling growing pot 6 is arranged at the bottom in each seedling growing chamber 4, a temperature sensor 7 and an illumination sensor 8 are arranged on the inner side wall of each seedling growing chamber 4, a main watering pipe 9 is arranged outside the insulation can 1, branch watering pipes 10 corresponding to the seedling growing units in each layer are arranged on the main watering pipe 9, branch pipes 11 corresponding to the seedling growing chambers 4 are arranged on the branch watering pipes 10, spray nozzles 12 are arranged at the end parts of the branch watering pipes 11, a plurality of nozzles 13 facing the seedling raising pot 6 are arranged on the spray head 12, a valve 14 is arranged on the watering branch pipe 11, the spray head 12 penetrates through the rear wall of the seedling raising chamber 4 and is positioned above the seedling raising pot 6, a humidity detection device is arranged on the spray head 12, an LED plant growth lamp 16 and a temperature increasing lamp 17 are arranged at the top of the seedling raising chamber 4, and a ventilation device, a temperature sensor 7, an illumination sensor 8, the valve 14, the humidity detection device, the LED plant growth lamp 16 and the temperature increasing lamp 17 are respectively connected with a control system; in this embodiment, two transverse partition plates 2 are provided, the incubator 1 is divided into three seedling raising units, a longitudinal partition plate 3 is provided, each seedling raising unit is divided into two seedling raising chambers 4, the transverse partition plates 2 and the longitudinal partition plates 3 are made of heat insulation materials respectively, the box wall of the incubator 1 is also made of heat insulation materials, a front door 5 is hinged at an opening at the front part of each seedling raising chamber 4 through a hinge, a handle is mounted on the front door 5 to facilitate opening and closing of the front door 5, each vegetable seedling is planted in one seedling raising pot 6, only one seedling raising pot 6 is mounted in each seedling raising chamber 4, a ventilation device, a temperature sensor 7, an illumination sensor 8, a humidity detection device, an LED plant growth lamp 16 and a warming lamp 17 are arranged in each seedling raising chamber 4 respectively, the illumination sensor 8 is a light intensity monitoring instrument commonly used in the field and prepared from other photosensitive materials, and each seedling raising chamber 4 is provided with a respective independent valve 14, therefore, the temperature sensor 7, the temperature measured by the humidity detection device and the illumination sensor 8, the humidity and the illumination numerical value are all monitoring made for the single vegetable seedling in the seedling raising chamber 4, the control system controls whether the corresponding valve 14 is used for watering the vegetable seedling according to the monitoring index of the single vegetable seedling in each seedling raising chamber 4, the control warming lamp 17 is used for warming the vegetable seedling, the LED plant growth lamp 16 is used for controlling the light supplement for the vegetable seedling, the ventilation device is used for controlling the ventilation and cooling for the vegetable seedling, index monitoring is carried out on each vegetable seedling pertinently, and pertinence nursing is carried out on each vegetable seedling, so that the vegetables such as tomatoes, cucumbers and watermelons grow healthily, and the seedling raising success rate is improved.

As shown in fig. 2, 4, 5 and 6, the ventilation device includes a fan 20 mounted on a ventilation opening, and a ventilation door 18 is mounted on the outside of the rear wall of the incubator 1 at the ventilation opening. When the temperature sensor 7 in a certain seedling raising chamber 4 monitors that the temperature in the seedling raising chamber 4 is higher than a set value, the control system controls the fan 20 in the seedling raising chamber 4 to work, the corresponding ventilating door 18 is manually opened, the ventilating door 18 can be hinged to the ventilating opening through a hinge as shown in the figure, the hinge can adopt a 90-degree self-locking hinge, the ventilating door 18 can also be fixed on a ventilating opening in other modes, as long as the opening and closing can be realized, when the temperature sensor 7 monitors that the temperature in the seedling raising chamber 4 is lower than the set value, the control system controls the fan 20 to stop working, the ventilating door 18 is manually closed, a heat insulation layer is preferably arranged on the ventilating door 18, the temperature in the seedling raising chamber 4 can be kept constant after the ventilating door 18 is closed, and the control system monitors the temperature in each seedling raising chamber 4 in sequence and performs the ventilating operation independently according to actual conditions.

The bottom in the nursery room 4 is provided with a nursery pot limiting groove, and the nursery pot 6 is arranged in the nursery pot limiting groove. Educate the spacing recess of seedling pot and show in the figure, educate the spacing recess of seedling pot and just set up on the diapire of nursery room 4 with the unanimous recess of the pelvic floor shape of the basin 6 of growing seedlings, the basin 6 of growing seedlings is placed and is difficult for rocking after educating the spacing recess of seedling pot, has guaranteed that nozzle 13 is located the top of the basin 6 of growing seedlings, avoids the basin 6 of growing seedlings to move the back, and nozzle 13 can not correctly aim at the basin 6 of growing seedlings and spray water, has guaranteed vegetable seedling's growth stability.

As shown in fig. 5 and fig. 6 together, the humidity detection device comprises an air cylinder 19 fixedly installed on the spray head 12, a cylinder end of the air cylinder 19 is fixedly installed on the spray head 12, a cylinder rod end of the air cylinder 19 vertically faces downwards to the seedling raising pot 6, and a humidity sensor 15 is fixedly installed at the end of the cylinder rod. When monitoring the soil humidity, the control system controls the cylinder 19 in each seedling raising chamber 4 to extend out in sequence, the humidity sensor 15 extends into the soil of the seedling raising pot 6 to monitor the soil humidity, the humidity sensor 15 transmits the monitored humidity value to the control system, if the control system judges that the set humidity value is not reached and watering is needed, the control system controls the corresponding valve 14 of the seedling raising chamber 4 to open to water the seedling raising pot 6, water flow enters the main watering pipe 9 from the water tank, is pumped into the branch watering pipe 10 under the action of the water pump, enters the branch watering pipe 11 from the branch watering pipe 10, enters the spray head 12 and enters the spray nozzle 13, the water pump is not shown in the figure, because the water pump belongs to the known technology, because the spray head 12 is positioned right above the seedling raising pot 6 and below the leaves of the vegetable plants instead of spraying above the leaves of the vegetable plants, when the spray nozzle 13 sprays water, just to educating seedling pot 6 water spray, can not directly spray water to vegetable blade like traditional mode of watering, the pearl splashes everywhere under vegetable blade's bounce-back, sprays other places of growing seedlings room 4, the utility model discloses the root to vegetable plant of pertinence waters, has both practiced thrift the water source and has guaranteed the clean and tidy of growing seedlings room 4, and control system carries out growth index monitoring and nursing alone to every vegetable seedling who educates in the seedling room 4 in proper order.

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, and are only for convenience of description and simplicity of 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 therefore, should not be construed as limiting the present invention.

The foregoing shows and describes the general principles, essential features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a vegetable seedling nurses device alone which characterized in that: the novel seedling raising device comprises an insulation box (1), wherein a plurality of horizontal transverse partition plates (2) are arranged in the insulation box (1), the transverse partition plates (2) divide the insulation box (1) into independent seedling raising units, each seedling raising unit is internally provided with a plurality of vertical longitudinal partition plates (3) in the vertical direction, the longitudinal partition plates (3) divide the seedling raising units into independent seedling raising chambers (4), the front of each seedling raising chamber (4) is hinged with a front door (5), the rear wall of each seedling raising chamber (4) is provided with a ventilation opening, a ventilation device is installed on the ventilation opening, a seedling raising pot (6) is arranged at the bottom in each seedling raising chamber (4), a temperature sensor (7) and an illumination sensor (8) are installed on the inner side wall of each seedling raising chamber (4), a watering main pipe (9) is arranged outside the insulation box (1), watering branch pipes (10) corresponding to each layer of seedling raising unit are arranged on the watering main pipe (9), watering branch pipes (11) corresponding to the seedling growing chambers (4) are arranged on the watering branch pipes (10), a spray head (12) is arranged at the end part of the watering branch pipe (11), a plurality of spray nozzles (13) facing the seedling raising pot (6) are arranged on the spray head (12), a valve (14) is arranged on the watering branch pipe (11), the spray head (12) penetrates through the rear wall of the seedling raising chamber (4) and is positioned above the seedling raising pot (6), a humidity detection device is arranged on the spray head (12), an LED plant growth lamp (16) and a warming lamp (17) are arranged at the top of the seedling raising chamber (4), the ventilation device, the temperature sensor (7), the illumination sensor (8), the valve (14), the humidity detection device, the LED plant growth lamp (16) and the warming lamp (17) are respectively connected with a control system.

2. A device for nursing vegetable seedlings individually as set forth in claim 1, wherein: the ventilation device comprises a fan (20) arranged on the ventilation opening, and a ventilation door (18) is arranged on the position, located at the ventilation opening, of the outer side of the rear wall of the heat preservation box (1).

3. A device for individually caring for vegetable seedlings as claimed in claim 1, wherein: the bottom in the seedling raising chamber (4) is provided with a seedling raising basin limiting groove, and the seedling raising basin (6) is arranged in the seedling raising basin limiting groove.

4. A device for individually caring for vegetable seedlings as claimed in any one of claims 1 to 3, wherein: the humidity detection device comprises an air cylinder (19) fixedly installed on the spray head (12), the cylinder end of the air cylinder (19) is fixedly installed on the spray head (12), the cylinder rod end of the air cylinder (19) vertically faces downwards to the seedling raising pot (6), and a humidity sensor (15) is fixedly installed at the end of the cylinder rod.

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