AU2021100177A4 - A plant cultivation rack and a plant factory greenhouse provided with the plant cultivation rack - Google Patents

Abstract

The invention relates to the technical field of plant cultivation, in particular to a plant cultivation rack and a plant factory greenhouse provided with the plant cultivation rack. The plant cultivation rack comprises a cultivation rack base, a cultivation rack main body and road wheels, wherein the cultivation rack main body comprises two left supporting columns, two right supporting columns, a left horizontal guide rail, a left sleeve, a left air cylinder, a right horizontal guide rail, a right sleeve, a right air cylinder and a planting board. The plant cultivation rack provided by the invention is convenient for the whole movement and transportation of the plant cultivation rack, it is convenient to adjust the flexible planting board, which can be adjusted at will according to illumination conditions and plant growth conditions, thereby improving the utilization efficiency of illumination. According to the plant factory greenhouse disclosed by the invention, the solar greenhouse and the plant factory are integrated, so it not only improves the land use efficiency, but also reduces the energy consumption, thus achieving the energy-saving effect of complementary heat and C02 between solar greenhouse and plant factory. -1/2 13 10 14 13 731 Figure12

Description

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A plant cultivation rack and a plant factory greenhouse provided with the plant

cultivation rack

TECHNICAL FIELD

The invention relates to the technical field of plant cultivation, in particular to a

plant cultivation rack and a plant factory greenhouse provided with the plant cultivation

rack.

BACKGROUND

Solar greenhouse is the abbreviation of energy-saving solar greenhouse, also

known as greenhouse, which is composed of gable walls on both sides, walls

maintained, supporting framework and covering material, being a unique type of

greenhouse in northern China. The plant factory is an efficient agricultural system that

realizes continuous annual production of crops by high-precision environmental control

in facilities. It is a labor-saving production that applies computers to automatically

monitor the environmental conditions such as temperature, humidity, light, C02

concentration and nutrient solution of plant growth, so that the plant growth in facilities

is not or rarely restricted by natural conditions. However, due to the low temperature

indoors in winter night, the quality and yield of vegetables and fruits in the existing

solar greenhouse are seriously affected. In order to avoid the shadow of the sun, enough

space should be set between two adjacent solar greenhouses, which leads to the low

land utilization rate of the solar greenhouse. However, although the existing plant

factories have high space utilization rate, they still have the problem of large energy

consumption. In addition, the existing structure of the plant cultivation rack in the plant factory also has some shortcomings. It is not easy to move, and the height of the upper and lower layers can not be adjusted at will. The same layer can not be adjusted left and right, which leads to inconvenience in use and affects the efficiency of light utilization.

SUMMARY

(a) The technical problems to be solved

The invention provides a plant cultivation rack and a plant factory greenhouse

provided with the plant cultivation rack, which solve the problems that the existing

plant cultivation rack is inconvenient to carry, move and adjust, and solve the problems

that the existing solar greenhouse has low indoor environment temperature in winter

and night, low land utilization rate and large energy consumption in the existing plant

factory.

(b) Technical scheme

In order to solve the above technical problems, the present invention provides a

plant cultivation rack which comprises the following components: a cultivation rack

base, a cultivation rack main body arranged on the cultivation rack base and a road

wheel arranged at the bottom of the cultivation rack base; Further, the cultivation rack

main body comprises two left supporting columns and two right supporting columns.

A plurality of left horizontal guide rails are respectively arranged between the two left

supporting columns from top to bottom. Left sleeves are arranged on the left horizontal

guide rails, and the left sleeves are sleeved on the left supporting columns that can slide

up and down along the left supporting columns, and a left air cylinder is arranged

between two adjacent left horizontal guide rails; A plurality of right horizontal guide

rails corresponding to the left horizontal guide rails from top to bottom are respectively arranged between the two right support columns, and right sleeves are arranged on the right horizontal guide rails that can slide up and down along the right support columns;

A plurality of planting boards are slidably connected between the two corresponding

left and right horizontal rails, which are arranged in sequence from front to back. The

left end of each planting board is provided with a left slider in sliding fit with the left

horizontal rail, and the right end of each planting board is provided with a right slider

in sliding fit with the right horizontal rail.

Preferably, the road wheels comprise two universal wheels arranged on the left

side of the cultivation rack base and two directional wheels arranged on the right side

of the cultivation rack base.

Furthermore, the universal wheel and the directional wheel are both provided with

locking devices.

Further, the front and rear ends of the left horizontal guide rail are respectively

provided with left limit blocks, and the front and rear ends of the right horizontal guide

rail are respectively provided with right limit blocks.

The top end of the left support column is provided with a left block, and the top

end of the right support column is provided with a right block.

Further, a water supply device is arranged on the main body of the cultivation rack.

The main body of the cultivation rack is also provided with an illumination device.

Further, the plant factory greenhouse comprises a sunlight greenhouse and a plant

factory connected with the sunlight greenhouse, wherein the plant factory is provided

with the plant cultivation rack according to any one of claim 1- claim 7.

Further, the plant factory is provided with a hot air filtering device, and the outlet of the hot air filtering device is connected with the solar greenhouse.

Additionally, the solar greenhouse is provided with a cold air filtering device and

a dehumidification device, wherein the outlet of the cold air filtering device is

connected with the inlet of the dehumidification device, and the outlet of the

dehumidification device is connected with the plant factory.

(c) Beneficial effect

The above technical scheme of the present invention has the following advantages:

According to the plant cultivation rack provided by the invention, the road wheels

are arranged at the bottom of the cultivation rack base, so that the whole movement and

transportation of the plant cultivation rack are convenient; A plurality of planting boards

are slidably connected between the corresponding left horizontal guide rails and the

right horizontal guide rails, so that the back and forth movement adjustment of the

planting boards in the horizontal direction is realized; And the left air cylinder is

arranged between the left horizontal guide rails while the right air cylinder is arranged

between the right horizontal guide rails, so that the up and down movement adjustment

of the planting boards is realized, and the adjustment mode is flexible and convenient,

and the rack can be adjusted at any time according to illumination conditions, thereby

improving the utilization of illumination.

The plant factory greenhouse provided by the invention combines the solar

greenhouse with the plant factory, which not only improves the land use efficiency, but

also reduces the energy consumption, so that the hot air in the plant factory at night is

filtered and introduced into the solar greenhouse, so as to achieve the goal of

temperature increasing and dehumidification of the solar greenhouse. The cold air in

the solar greenhouse is filtered and dehumidified and introduced into the plant factory, so as to achieve the goal of temperature increasing and dehumidification of the plant factory. At the same time, the C02 released by plant respiration at night in the solar greenhouse is introduced into the plant factory as the raw material of photosynthesis, so as to achieve the energy-saving effect of complementary heat and C02 between the solar greenhouse and the plant factory.

BRIEF DESCRIPTION OF THE FIGURES

Fig. 1 is the structural diagram of the plant cultivation rack in Embodiment 1 of

the present invention;

Fig. 2 is the layout diagram of the planting board in the plant cultivation rack in

the Embodiment 1 of the invention.

Fig. 3 is the structural diagram of the plant factory greenhouse in the Embodiment

2 of the present invention;

Fig. 4 is the sectional view of a plant factory greenhouse in Embodiment 2 of the

present invention.

Components in the figures:

1: Cultivation rack base; 2: Left support column; 3: Right support column; 4: Left

horizontal guide rail; 5: Left sleeve; 6: Left air cylinder; 7: Right horizontal guide rail;

8: Right sleeve; 9: Right air cylinder; 10: Planting board; 11: Universal wheel; 12:

Directional wheel; 13: Left limit block; 14: Right limit block; 15: Left block; 16: Right

block; 17: Solar greenhouse; 18: Plant factory; 19: Plant cultivation rack.

DESCRIPTION OF THE INVENTION

In order to make the purpose, technical scheme and advantages of the

embodiments of the present invention clearer, the technical scheme of the embodiments

of the present invention will be described clearly and completely with reference to the

drawings in the embodiments of the present invention. Obviously, the described

embodiments are part of the embodiments of the present invention, not all of them.

Based on the embodiments of the present invention, all other embodiments obtained by

ordinary technicians in the field without creative labor belong to the scope of protection

of the present invention.

Embodiment 1

As shown in Fig.1 and Fig. 2, the embodiment of the invention provides a plant

cultivation rack, which includes a cultivation rack base 1, a cultivation rack main body

arranged on the cultivation rack base 1, and road wheels arranged at the bottom of the

cultivation rack base 1.

The main body of the cultivation rack comprises two left support columns 2 and

two right support columns 3, and a plurality of left horizontal guide rails 4 are

respectively arranged between the two left supporting columns 2 from top to bottom,

the left horizontal guide rails 4 are provided with left sleeves 5 which are arranged on

the left support columns 2 that can slide up and down along the left support columns 2.

A left air cylinder 6 is arranged between two adjacent left horizontal guide rails 4. A

plurality of right horizontal guide rails 7 corresponding to the left horizontal guide rails

4 are respectively arranged between the two right support columns 3 from top to bottom.

The right horizontal guide rails 7 are provided with right sleeves 8 which are sleeved

on the right support columns 3 that can slide up and down along the right support columns 3. A right air cylinder 9 is arranged between two adjacent right horizontal guide rails 7. The two corresponding left air cylinders 6 and right air cylinders 9 act synchronously, thereby controlling the corresponding left horizontal guide rail 4 and right horizontal guide rail 7 to move up and down simultaneously.

A plurality of planting boards 10 are slidably connected between the

corresponding two left and right horizontal rails 4 and 7, which are arranged in sequence

from front to back. The left end of the planting boards 10 is provided with a left slider

slidably matched with the left horizontal rail 4, and the right end of the planting boards

is provided with a right slider slidably matched with the right horizontal rail 7.

The main body of the cultivation rack is also provided with a water supply device,

which can provide water for plants on the planting plate 10.

Also, the main body of the cultivation rack is also provided with an illumination

device, which can provide a light source for the plants on the planting plate 10.

The road wheels include two universal wheels 11 arranged on the left side of the

cultivation rack base 1 and two directional wheels 12 arranged on the right side of the

cultivation rack base 1. Both the universal wheel 11 and the directional wheel 12 are

provided with locking devices.

The front and rear ends of the left horizontal guide rail 4 are respectively provided

with left limit blocks 13, and the front and rear ends of the right horizontal guide rail 7

are respectively provided with right limit blocks 14.

The top end of the left support column 2 is provided with a left block 15, and the

top end of the right support column 3 is provided with a right block 16.

Both the left horizontal rail 4 and the right horizontal rail 7 are provided with slots with a T-shaped cross-section, and the left and right sliders set on the planting plate 10 are shaped to fit into the T-shaped slots.

When in use, the plant cultivation rack described in this embodiment is convenient

to move and transport the whole plant cultivation rack by the road wheels arranged at

the bottom of the cultivation rack base 1, then the rack is locked by the locking device

after moving to the designated position. The left and right sliders on the planting board

slide on the left and right horizontal rails 4 and 7 respectively to realize the fore-and

aft horizontal adjustment of the planting board 10, and the left and right horizontal rails

4 and 7 are controlled to move up and down by the actions of the left and right air

cylinders 6 and 9, thus driving the planting board 10 to move up and down. This realizes

the up-and-down height adjustment of the planting board 10. The adjustment method is

flexible and convenient, and the rack can be adjusted at will according to illumination

conditions and plant growth conditions, thus improving the utilization efficiency of

illumination.

Embodiment 2

As shown in Fig. 3-4, the embodiment of the invention also provides a plant

factory greenhouse, including a solar greenhouse 17 and a plant factory 18 connected

with the solar greenhouse 17, wherein the plant factory 18 is provided with a plant

cultivation frame 19, and the plant cultivation frame 19 adopts the plant cultivation

frame in the Embodiment 1.

The plant factory 18 is equipped with a hot air filtering device, the inlet of which

is communicated with the plant factory 18 by a hot air input pipeline, and the outlet of

which is communicated with the solar greenhouse 17 by a hot air output pipeline.

The solar greenhouse 17 is equipped with a cold air filtering device and a dehumidifying device, wherein the inlet of the cold air filtering device communicates with the solar greenhouse 17 by a cold air input pipeline, and the outlet of the dehumidifying device communicates with the plant factory 18 by a cold air output pipeline. A cold air fan is also provided in the cold air input pipeline, which is used to introduce the cold air in the solar greenhouse 17 into the cold air filtering device. After filtering, the cold air is delivered to the dehumidifying device for dehumidification, and the dehumidified cold air is output to the plant factory 18.

The plant factory greenhouse described in this embodiment, combining the solar

greenhouse 17 with the plant factory 18, enables the utilization of the vacant land

between the two adjacent heliostats at the front and rear to establish the plant factory

18, thus increasing the efficiency of land use.

In use, the light period of the plant factory 18 is manually controlled at night, the

illumination device is turned on, and the hot air in the plant factory 18 at night is filtered

and introduced into the solar greenhouse 17, so as to achieve the purpose of warming

and dehumidifying the solar greenhouse 17, and the problem can be solved that the

solar greenhouse 17 needs to be warmed at night. At the same time, the cold air in the

solar greenhouse 17 is filtered and dehumidified and then introduced into the plant

factory 18, so as to achieve the purpose of cooling the plant factory 18, thus solving the

problem that the plant factory 18 needs to cool down. In addition, C02 released by

plants breathing at night in the solar greenhouse 17 can be introduced into the plant

factory 18 as the raw material for photosynthesis, thus achieving the energy-saving

effect of heat complementation and C02 complementation between the solar

greenhouse 17 and the plant factory 18.

To sum up, the plant cultivation frame described in the embodiment of the present invention is easy to move and carry the plant cultivation rack as a whole, and the planting plate is flexible and convenient to be adjusted at will according to the light situation and plant growth condition, which improves the efficiency of light utilization and is more conducive to plant growth.

The plant factory greenhouse described in the embodiment of the present invention

combines the daylight greenhouse with the plant factory, which not only improves the

efficiency of land use, but also reduces energy consumption and achieves the energy

saving effect of complementary heat and C02 between the daylight greenhouse and the

plant factory.

Finally, it should be noted that the above embodiments are only used to illustrate

the technical scheme of the present invention, but not to limit it. Although the present

invention has been described in detail with reference to the foregoing embodiments,

those of ordinary skill in the art should understand that the technical solutions described

in the foregoing embodiments can still be modified, or some of the technical features

can be equivalently replaced; However, these modifications or substitutions do not

make the essence of the corresponding technical solutions deviate from the spirit and

scope of the technical solutions of each embodiment of the present invention.

Claims (10)

THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS:

1. The plant cultivation rack is characterized that it comprises the following

components: a cultivation rack base, a cultivation rack main body arranged on the

cultivation rack base and a road wheel arranged at the bottom of the cultivation rack base;

Further, the cultivation rack main body comprises two left supporting columns and two

right supporting columns. A plurality of left horizontal guide rails are respectively arranged

between the two left supporting columns from top to bottom. Left sleeves are arranged on

the left horizontal guide rails, and the left sleeves are sleeved on the left supporting columns

that can slide up and down along the left supporting columns, and a left air cylinder is

arranged between two adjacent left horizontal guide rails; A plurality of right horizontal

guide rails corresponding to the left horizontal guide rails from top to bottom are

respectively arranged between the two right support columns, and right sleeves are

arranged on the right horizontal guide rails that can slide up and down along the right

support columns; A plurality of planting boards are slidably connected between the two

corresponding left and right horizontal rails, which are arranged in sequence from front to

back. The left end of each planting board is provided with a left slider in sliding fit with

the left horizontal rail, and the right end of each planting board is provided with a right

slider in sliding fit with the right horizontal rail.

2. The plant cultivation rack according to claim 1 is characterized in that the road

wheels comprise two universal wheels arranged on the left side of the cultivation rack base

and two directional wheels arranged on the right side of the cultivation rack base.

3. The plant cultivation rack according to claim 2 is characterized in that the universal wheel and the directional wheel are both provided with locking devices.

4. The plant cultivation rack according to claim 1 is characterized in that the front and

rear ends of the left horizontal guide rail are respectively provided with left limit blocks,

and the front and rear ends of the right horizontal guide rail are respectively provided with

right limit blocks.

5. The plant cultivation rack according to claim 1 is characterized in that the top end

of the left support column is provided with a left block, and the top end of the right support

column is provided with a right block.

6. The plant cultivation rack according to claim 1 is characterized in that a water

supply device is arranged on the main body of the cultivation rack.

7. The plant cultivation rack according to claim 1 that the main body of the cultivation

rack is also provided with an illumination device.

8. The plant factory greenhouse is characterized by comprising a sunlight greenhouse

and a plant factory connected with the sunlight greenhouse, wherein the plant factory is

provided with the plant cultivation rack according to any one of claim 1- claim 7.

9. The plant factory greenhouse to claim 8 is characterized in that the plant factory is

provided with a hot air filtering device, and the outlet of the hot air filtering device is

connected with the solar greenhouse.

10. The plant factory greenhouse to claim 8 is characterized in that the solar

greenhouse is provided with a cold air filtering device and a dehumidification device,

wherein the outlet of the cold air filtering device is connected with the inlet of the dehumidification device, and the outlet of the dehumidification device is connected with the plant factory.

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