CN217407335U - Indoor bionic humidifying planting frame - Google Patents

Abstract

The utility model relates to an indoor bionic humidification planting frame, which comprises a planting frame formed by stacking a plurality of planting pots on a water tank, wherein the planting pots are thin-walled parts, the side wall of the planting pots is provided with a plurality of planting holes communicated with the inside of the pots, the center of the planting pots is provided with a column platform, the column platform is provided with water leakage holes, when the planting pots are stacked, the column platform is overlapped to form a central cavity, and the wall of the central cavity is provided with a plurality of water leakage holes; an ultrasonic atomization mechanism is arranged in the water tank; the ultrasonic atomization mechanism generates atomized water vapor, and the atomized water vapor flows upwards through the central cavity and escapes from the planting hole through the water leakage hole. The atomized water vapor at the dissipation position can moisten indoor air on one hand and nourish leaves of plants on the other hand, and particularly can avoid leaf wilting in summer. The utility model discloses the beneficial effect who reaches is: improve the humidity environment in plant and the room, guarantee the atomizing vapor volume, plant the different altitude positions of frame and all have excellent humidity environment.

Description

Indoor bionic humidifying planting frame

Technical Field

The utility model relates to a plant frame technical field, especially indoor bionical humidification planting frame.

Background

The atomization cultivation is an important cultivation mode in modern agriculture, can enable the root system of a plant to leave a matrix and water, but can enable the plant to obtain sufficient nutrition and air, and also avoids the problems of oxygen deficiency and root rot of the root system of the plant and the like.

However, in general atomization cultivation, if the demand of plant production is met, the amount of atomized nutrient solution is large; and some will escape into the air, which is relatively costly. Therefore, the cultivation mode is mostly used for cultivating special plants.

The company firstly designs a planting frame which utilizes two modes of water-soil cultivation and atomization cultivation. But the atomizing cultivation is used in the planting frame, and the atomizing effect of the planting frame at each position of the upper height and the lower height is difficult to ensure.

Therefore, according to the specific structure of the planting frame, the corresponding structure of the atomization cultivation is designed to meet the corresponding technical requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide the indoor bionical humidification that improves plant and indoor humidity environment, guarantees the atomizing vapor volume, plants the frame co-altitude position and all have excellent humidity environment and plant the frame.

The purpose of the utility model is realized through the following technical scheme: an indoor bionic humidifying planting frame comprises a planting frame formed by stacking a plurality of planting pots and arranging the planting pots on a water tank, wherein the planting pots are thin-walled parts, the side walls of the planting pots are provided with a plurality of planting holes communicated with the insides of the pots, the centers of the planting pots are provided with pylons, the pylons are provided with water leakage holes, when the planting pots are stacked, the pylons are overlapped to form a central cavity, and the wall of the central cavity is provided with a plurality of water leakage holes;

an ultrasonic atomization mechanism is arranged in the water tank;

the ultrasonic atomization mechanism generates atomized water vapor which flows upwards through the central cavity and escapes from the planting holes through the water leakage holes.

The atomized water vapor at the dissipation part can moisten the indoor air on one hand, and can nourish the leaves of plants on the other hand, and particularly can avoid leaf wilting in summer.

Optionally, in the planting frame, the bottommost planting pot is supported on the bottom surface of the water tank through a supporting pipe;

the supporting tube is communicated with the central cavity;

the ultrasonic atomization mechanism is connected with the supporting tube, and atomized water vapor flows into the central cavity through the supporting tube.

Furthermore, the ultrasonic atomization mechanism comprises an atomization sheet A;

a plurality of small holes are formed on the supporting tube;

after being atomized by the atomizing sheet A, the water enters the supporting tube through the small holes and finally enters the central cavity.

Furthermore, the ultrasonic atomization mechanism also comprises an atomization cavity shell;

the side wall of the atomization cavity shell is provided with an atomization sheet A, and the bottom of the atomization cavity shell is provided with a water inlet which is communicated with the support tube;

water in the water tank enters the atomizing cavity shell through the water inlet to be contacted with the atomizing sheet A.

Furthermore, the ultrasonic atomization mechanism also comprises a fan;

the fan is arranged on the side wall of the atomization cavity shell, and atomized water vapor is blown into the central cavity by airflow generated during rotation of the fan and flows in the central cavity.

Further, the side wall of the water tank is sunken towards the center to form a sunken cavity;

the atomization cavity shell is fixed at the concave cavity;

the fan is arranged on the wall of the concave cavity, and the atomizing sheet A is arranged on the wall of the concave cavity;

an ultrasonic humidifying controller for controlling the atomizing sheet A is fixed in the concave cavity;

the concave cavity is covered by the side cover.

Optionally, the ultrasonic atomization mechanism further comprises an atomization sheet B;

the central cavity is provided with a guide pipe, and the guide pipe guides water in the water tank to a planting pot on the uppermost layer of the planting frame;

the side wall of the guide tube is provided with a long sunken groove sunken towards the center, and the long sunken groove is internally provided with an atomizing sheet B.

Furthermore, the guide tube is provided with a plurality of long concave grooves and a plurality of corresponding atomization sheets B.

The utility model has the advantages of it is following:

the structure of the planting frame and the arrangement of the ultrasonic atomization mechanism in the water tank can enable atomized water vapor to flow out of the planting holes at different height positions of the planting frame, so that the root system and the leaves of the plant are nourished, and the humidity of indoor air can be increased;

the humidity of the surrounding environment of the plant is increased by atomizing water vapor, and the plant growth is facilitated compared with the mode of simply supplying water to the plant;

in the ultrasonic atomization mechanism, the atomization cavity and the fan are arranged, so that atomized water vapor is prevented from mixing in the water tank, the flow rate of the atomized water vapor at the central cavity is ensured, the amount of the atomized water vapor sprayed out of the water leakage holes is large, and the humidity environment around plants and in a room is ensured;

in the ultrasonic atomization mechanism, the arrangement of the long concave groove and the atomization sheet B on the guide tube can increase the concentration of atomized water vapor in the central cavity on one hand, and on the other hand, when the atomized water vapor generated by the atomization sheet A cannot reach the top of the planting frame in a large amount, the atomization sheet B can still ensure the humidity at the top of the planting frame;

the arrangement of the concave pit of the water tank is favorable for the arrangement of the ultrasonic humidifying controller and the arrangement of the fan.

Drawings

FIG. 1 is a schematic structural view of a planting frame;

FIG. 2 is a schematic structural view of the planting pot stack, the guide tube and the support tube in the planting frame;

FIG. 3 is a schematic structural view of another angle set among the planting pot stack, the guide tube and the support tube in the planting frame;

FIG. 4 is a schematic structural view of the ultrasonic atomizing mechanism disposed in the water tank;

FIG. 5 is a schematic view of a structure at a recess;

FIG. 6 is a schematic structural view of an ultrasonic atomizing mechanism;

FIG. 7 is a schematic structural view of the arrangement of the long concave groove on the guide tube;

FIG. 8 is a schematic structural view of a cross section of a long concave groove on a guide tube;

in the figure: 1-water tank, 101-concave lower cavity, 102-side cover, 2-planting frame, 3-planting pot, 301-column base, 302-water leakage hole, 4-planting hole, 5-central cavity, 6-ultrasonic atomization mechanism, 7-supporting tube, 701-small hole, 8-atomization sheet A, 9-atomization cavity, 901-water inlet, 10-fan, 11-ultrasonic humidification controller, 12-atomization sheet B, 13-guide tube, 1301-long concave groove, 14-pump, 15-liquid level sensor and 16-bactericidal lamp.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1 to 4, the indoor bionic humidification planting rack comprises a planting rack 2 formed by stacking a plurality of planting pots 3 and arranging the planting pots on a water tank 1, and an ultrasonic atomization mechanism 6; wherein ultrasonic atomization mechanism 6 sets up in water tank 1 department, and ultrasonic atomization mechanism 6 atomizes the water in water tank 1, forms atomizing steam, and atomizing steam is followed the planting basin 3 of co-altitude and is dissipated. The atomized water vapor at the dissipation part can moisten the indoor air on one hand, and can nourish the leaves of plants on the other hand, and particularly can avoid leaf wilting in summer.

It should be noted that: the planting pot 3 is a thin-wall part, the side wall of the planting pot is provided with a plurality of planting holes 4 communicated with the inside of the pot, the center of the planting pot is provided with a column base 301, and the column base 301 is provided with water leakage holes 302.

It should be noted that: when the planting pots 3 are stacked, the pylons 301 are overlapped to form a central cavity 5; the stacked planting pots 3 are placed on the cover of the water tank 1, the planting pot 3 at the bottommost layer is supported on the bottom surface of the interior of the water tank 1 through a supporting pipe 7, and a plurality of small holes 701 are formed in the supporting pipe 7; a guide pipe 13 is arranged in the central cavity 5, a pump 14 is arranged in the water tank 1, and water in the water tank is guided to the planting pot 3 at the uppermost layer through the guide pipe 13 by the pump 14. The water in the planting pot 3 at the uppermost layer leaks downwards through the water leakage hole 301 and finally returns to the water tank 1.

In the scheme, when the ultrasonic atomization mechanism 6 works, atomized water vapor is generated; atomized water vapor enters the supporting tube 7 through the small holes 701, flows upwards to the central cavity 5, then flows through the water leakage holes 302 to escape, and finally escapes from the planting holes 4 to the outside. Therefore, the atomized water vapor can moisten the leaves of the plants in the planting holes 4, and the indoor humidity can be improved after the atomized water vapor enters the room.

Alternatively, as shown in fig. 4 to 6, the indoor bionic humidification planting frame and the ultrasonic atomization mechanism 6 are designed.

Specifically, the ultrasonic atomizing mechanism 6 includes an atomizing sheet A8. After being atomized by the atomizing plate A8, the water enters the support tube 7 through the small holes 701 and finally enters the central cavity 5.

In this embodiment, the ultrasonic atomizing mechanism 6 further includes an atomizing chamber housing 9. The side wall of the atomizing cavity shell 9 is provided with an atomizing sheet A8, the bottom of the atomizing cavity shell 9 is provided with a water inlet 901, and the atomizing cavity shell 9 is communicated with the support tube 7. The water in the water tank 1 enters the atomizing chamber shell 9 through the water inlet 901 and contacts the atomizing plate A8.

Further, the ultrasonic atomization mechanism 6 further comprises a fan 10. The fan 10 is disposed on the side wall of the atomizing chamber housing 9, and the atomized water vapor is blown into the central chamber 5 by the airflow generated during the rotation of the fan and flows in the central chamber 5.

Further, the sidewall of the water tank 1 is depressed toward the center to form a depressed cavity 101. Moreover, the atomizing chamber shell 9 is fixed at the concave chamber 101; the fan 10 is arranged on the wall of the concave cavity 101, and the atomizing sheet A8 is arranged on the wall of the concave cavity 101; an ultrasonic humidification controller 11 for controlling the atomization sheet A8 is fixed in the concave chamber 101. Meanwhile, the concave cavity 101 is covered by a side cover 102, and a hole pipe is arranged on the side cover 102. The cavity 101 can protect the ultrasonic humidification controller 11 to a certain extent from being contaminated with water.

When in work: water in the water tank 1 enters the atomizing cavity shell 9 through the water inlet 901 and contacts the atomizing sheet 8 to generate atomized water vapor; the fan 10 rotates to pump the outside air into the concave cavity 101 through the pipe hole of the side cover 102, and then the air in the concave cavity 101 is pumped out to the atomizing cavity shell 9; the fan 10 makes the air form airflow, and the airflow brings the atomized water vapor in the atomization cavity shell 9 into the central cavity 5 when flowing; the atomized water vapor in the central cavity 5 is sprayed out from the planting hole 4 through the water leakage hole 302.

In order to prevent the water in the water tank 1 from flowing out of the recessed cavity 101 through the fan 10, a liquid level sensor 15 is provided in the water tank 1; let the water in the water tank 1 be below the position of the fan 10. When the water in the water tank 1 reaches a certain height, the water is pumped into the planting pot 3 at the uppermost layer of the planting frame 1 through the pump 14.

In this embodiment, a germicidal lamp 16 is also provided in the water tank 1.

Optionally, as shown in fig. 7 to 8, the indoor bionic humidification planting frame and the ultrasonic atomization mechanism 6 further include an atomization sheet B12.

Specifically, on the side wall of the guide pipe 13, there is a long depressed groove 1301 depressed toward the center, and the atomization sheet B12 is provided in the long depressed groove 1301.

In this embodiment, the number of the long concave grooves 1301 and the corresponding atomizing plates B12 on the guide tube 13 is plural.

When in work: when water leaks from the water leakage holes 302, a part of the water hangs on the surface of the guide pipe 13, and then the water flows through the long recessed groove 1301 and is atomized by the atomizing sheet B12 at the long recessed groove 1301. When the fan 10 generates the air flow in the central cavity 5, the atomized water vapor atomized by the atomizing plate B12 is driven to flow upwards.

The above examples only represent preferred embodiments, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (8)

1. An indoor bionic humidifying planting frame is provided,

comprises a planting frame (2) formed by stacking a plurality of planting pots (3) and arranging the planting pots on a water tank (1),

the planting pot (3) is a thin-wall part, the side wall of the planting pot is provided with a plurality of planting holes (4) communicated with the inside of the pot, the center of the planting pot is provided with a column platform (301), the column platform (301) is provided with water leakage holes (302),

when the planting pots (3) are stacked, the pylons (301) are overlapped to form a central cavity (5), the wall of the central cavity (5) is provided with a plurality of water leakage holes (302),

the method is characterized in that:

an ultrasonic atomization mechanism (6) is arranged in the water tank (1);

the ultrasonic atomization mechanism (6) generates atomized water vapor, and the atomized water vapor flows upwards through the central cavity (5) and is dissipated from the planting hole (4) through the water leakage hole (302).

2. The indoor bionic humidification planting rack of claim 1, wherein: in the planting frame (2), the bottommost planting pot (3) is supported on the bottom surface of the water tank (1) through a supporting pipe (7);

the supporting tube (7) is communicated with the central cavity (5);

the ultrasonic atomization mechanism (6) is connected with the supporting pipe (7), and atomized water vapor flows into the central cavity (5) through the supporting pipe (7).

3. The indoor bionic humidification planting rack of claim 2, wherein: the ultrasonic atomization mechanism (6) comprises an atomization sheet A (8);

a plurality of small holes (701) are formed in the supporting tube (7);

after being atomized by the atomizing sheet A (8), the water enters the supporting tube (7) through the small holes (701) and finally enters the central cavity (5).

4. The indoor bionic humidification planting rack of claim 3, wherein: the ultrasonic atomization mechanism (6) also comprises an atomization cavity shell (9);

the side wall of the atomization cavity shell (9) is provided with an atomization sheet A (8), the bottom of the atomization cavity shell is provided with a water inlet (901) which is communicated with the support tube (7);

water in the water tank (1) enters the atomizing cavity shell (9) through the water inlet (901) and contacts the atomizing sheet A (8).

5. The indoor bionic humidification planting rack of claim 3, wherein: the ultrasonic atomization mechanism (6) also comprises a fan (10);

the fan (10) is arranged on the side wall of the atomizing cavity shell (9), and atomized water vapor is blown into the central cavity (5) by airflow generated during rotation of the fan and flows in the central cavity (5).

6. The indoor bionic humidification planting frame of claim 4, wherein: the side wall of the water tank (1) is sunken to the center to form a sunken cavity (101);

the atomizing cavity shell (9) is fixed at the position of the concave cavity (101);

the fan (10) is arranged on the wall of the concave cavity (101), and the atomizing sheet A (8) is arranged on the wall of the concave cavity (101);

an ultrasonic humidifying controller (11) for controlling the atomizing sheet A (8) is fixed in the concave cavity (101);

the concave cavity (101) is covered by a side cover (102).

7. The indoor bionic humidification planting frame as claimed in any one of claims 3 to 6, wherein: the ultrasonic atomization mechanism (6) also comprises an atomization sheet B (12);

a guide pipe (13) is placed in the central cavity (5), and the guide pipe (13) guides water in the water tank (1) to the planting pot (3) on the uppermost layer of the planting frame (2);

the side wall of the guide pipe (13) is provided with a long sunken groove (1301) sunken towards the center, and an atomizing sheet B (12) is arranged in the long sunken groove (1301).

8. The indoor bionic humidification planting rack of claim 7, wherein: the guide pipe (13) is provided with a plurality of long concave grooves (1301) and corresponding atomizing plates B (12).

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