CN214071067U - Independent automatic aerial fog cultivation planting box - Google Patents

Abstract

The technical proposal of the utility model discloses an independent automatic aerial fog cultivation planting box, which comprises a nutrient solution box; the planting tower is arranged at the top of the nutrient solution box and is used for planting green plants; the partition plate is used for connecting and isolating the nutrient solution box and the planting tower; and the automatic aerosol injection device is arranged in the nutrient solution box and the planting tower and is used for adding nutrient solution to the green plants. The tower structure bottom of the independent automatic aerial fog cultivation planting box of this embodiment is wide big, has big nutrient solution case, and the top is little, and the structure is stable, has solved because of the structure is very unstable, has blown down the possibility by the strong wind. The design height just allows harvest workers to harvest vegetables without standing on any stairs, and potential safety hazards of high-altitude operation are eliminated. Be provided with the timer, the operation of automatic start and shut-down nutrient solution pump has effectively solved the nutrient solution pump and has not stopped the operation and the high power consumption that leads to, the increase of operation cost and the final nutrient solution pump problem of destroying.

Description

Independent automatic aerial fog cultivation planting box

Technical Field

The utility model belongs to the technical field of the mobile planting equipment technique and specifically relates to an independent automatic aerial fog cultivation planting case is related to.

Background

As more and more people move to cities to find better employment opportunities, the dramatic increase in urban population also means a dramatic increase in food demand. Today, more than half of the world's population resides in cities. By the united nations 'estimate, the urban population will account for 68% of the world's general population by the year 2050. This will present a great challenge to the food supply in cities.

Urban agriculture, growing more food in smaller areas, can address some of the pressure facing rural areas. However, because the economic benefits that agriculture can bring are not great, many young people are reluctant to use farming as an occupational work, resulting in the average age of farmers becoming larger and larger. However, if we want to have food, more people must be engaged in agricultural production.

Traditional agriculture requires the use of a large amount of water and land resources, but these resources are limited. This catalyzes the development of soilless culture techniques to solve the problem of limited water and land resources.

Aeroponic cultivation is one of the most efficient planting techniques in modern agriculture. Because the roots of the vegetables planted by the technology are suspended in the air, and the nutrient solution is sprayed to the roots of the vegetables in a mist form through the spray nozzle, the roots of the vegetables can absorb the nutrient solution most effectively and sufficiently, so that the vegetables grow fast and big, and the aerial fog cultivation can be popularized rapidly.

Existing aeroponic techniques can be divided into two basic categories:

(1) nutrient solution is conveyed to the planting area from an independent and separated nutrient solution pool through a high-pressure pump, the residual nutrient solution of the planting body is returned to the independent nutrient solution pool, and the conveying and the returning of the nutrient solution are connected into a system through a pipeline.

(2) The aerial fog cultivation equipment of three-dimensional unit formula.

However, the existing three-dimensional cultivation technology mainly has the following defects:

1. the structure body of the three-dimensional equipment is unstable, and when vegetables grow full and meet strong wind, the possibility of being blown down is high.

2. The three-dimensional equipment is required to be harvested into vegetables at the height of 4-6 m, the vegetables are harvested by climbing an upper ladder, and the three-dimensional equipment is not good in stability compared with the above mentioned equipment, does not have a stable place to be held by workers and is a potential safety hazard.

3. Part of the three-dimensional equipment is of a cylindrical structure, the higher the stacking of the cylindrical three-dimensional equipment is, the longer the shadow of the higher cylindrical three-dimensional equipment is when the sun ascends and descends, so that the shadow covers the cylindrical three-dimensional equipment of the partition wall, and the vegetable growth of the covered upright column three-dimensional equipment is influenced. Therefore, the distance between the columnar solids needs to be increased when the columnar solids are stacked, and finally, the yield is influenced, so that the yield is low.

4. Nutrient solution pump does not have the function of automatic start and stop among the current stereoscopic equipment, and nutrient solution pump can incessantly operate and lead to high power consumption, increases the destruction of operation cost and final nutrient solution pump.

5. The existing three-dimensional equipment needs a nutrient solution pump and a nutrient solution storage pool, and the addition of nutrient solution (not only pure nutrient solution, but also pure nutrient solution, and vegetables are not good in length) to the equipment and the nutrient solution storage pool and how to add fertilizer to the nutrient solution are omitted.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem be current three-dimensional cultivation equipment structure unstable, the potential safety hazard is big, output is little, power consumption is big, do not add the nutrient solution.

For solving the technical problem, the utility model discloses technical scheme provides an independent automatic aerial fog cultivation planting case, a serial communication port, include:

a nutrient solution tank;

the planting tower is arranged at the top of the nutrient solution box and is used for planting green plants;

the partition plate is used for connecting and isolating the nutrient solution box and the planting tower; and

the independent automatic aerosol injection device is arranged in the nutrient solution box and the planting tower and is used for adding nutrient solution to green plants;

at least one through hole for recovering nutrient solution is arranged on the partition board in a penetrating way.

Optionally, the planting tower comprises a front pore plate, a rear pore plate, a left sealing plate, a right sealing plate and a top plate fixed on the top of the front pore plate, the rear pore plate, the left sealing plate and the right sealing plate; a plurality of planting holes are formed in the front pore plate, the rear pore plate and the top plate.

Optionally, a culture medium is disposed in the planting hole, and an axis of the planting hole is in a horizontal and vertical state.

Optionally, the rear orifice plate is fixed to the left sealing plate and the right sealing plate through connecting plates, the front orifice plate is fixed to the left sealing plate and the right sealing plate through connecting plates, the top plate is fixed to the front orifice plate and the rear orifice plate through connecting plates, and the partition plate is fixed to the front orifice plate and the rear orifice plate through connecting plates.

Optionally, the automatic aerosol spraying device comprises a nutrient solution pump installed in the nutrient solution tank, an outlet of the nutrient solution pump is connected with a delivery pipe, the delivery pipe penetrates through the partition plate, the delivery pipe is located in a surface extending branch pipe in the planting tower, and a spray head is installed on the branch pipe.

Optionally, the bottom of the nutrient solution tank is provided with rollers.

Optionally, a liquid level ball float valve is installed in the nutrient solution tank, and a liquid level display is installed on the side wall of the nutrient solution tank.

Optionally, a timer is connected to the nutrient pump.

Optionally, the nutrient solution tank is surface-mounted with a reversible door.

Optionally, the outer of the planting tower is detachably sleeved with an insect-proof cover.

The utility model discloses technical scheme's beneficial effect is:

the tower structure bottom of the independent automatic aerial fog cultivation planting box of this embodiment is wide big, has big nutrient solution case, and the top is little, and the structure is stable, has solved because of the structure is very unstable, has blown down the possibility by the strong wind. The design height just allows harvest workers to harvest vegetables without standing on any stairs, and potential safety hazards of high-altitude operation are eliminated. Be provided with the timer, the operation of automatic start and shut-down nutrient solution pump has effectively solved the nutrient solution pump and has not stopped the operation and the high power consumption that leads to, the increase of operation cost and the final nutrient solution pump problem of destroying.

Drawings

FIG. 1 is a perspective view of an independent automatic aerial fog cultivation planting box in an embodiment of the present invention;

FIG. 2 is a right side view of an independent automatic aerial fog cultivation planting box in an embodiment of the present invention;

FIG. 3 is a front view of an independent automatic aerial fog cultivation planting box in an embodiment of the present invention;

fig. 4 is the embodiment of the utility model provides an in the embodiment after a plurality of independent automatic aerial fog cultivation planting case install in succession the schematic diagram.

The specific implementation mode is as follows:

the present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise" 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 to simplify the description, but do not indicate or imply that the device or element 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.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.

Referring to fig. 1, 2 and 3, there is shown an embodiment of a self-contained automated aerial fog planting container, which is characterized by comprising a nutrient solution container 9; a planting tower 1 which is arranged at the top of the nutrient solution box 9 and is used for planting green plants; a clapboard 2 for connecting and isolating the nutrient solution box 9 and the planting tower 1; and the automatic aerosol injection device is arranged in the nutrient solution box 9 and the planting tower 1 and is used for adding nutrient solution to the green plants; at least one through hole for recovering nutrient solution is arranged on the partition board 2 in a penetrating manner, the nutrient solution flows back to the nutrient solution tank 9 through the through hole to realize the circulation of the nutrient solution, and in addition, two or more than three through holes arranged on the partition board 2 are all in the protection range of the embodiment.

In this embodiment, the planting tower 1 includes a front hole plate 3, a rear hole plate 31, a left sealing plate 23, a right sealing plate 12, and a top plate 19 fixed on the top of the front hole plate 3, the rear hole plate 31, the left sealing plate 23, the right sealing plate 12; the front orifice plate 3, the rear orifice plate 31 and the top plate 19 are provided with a plurality of planting holes 4.

In this embodiment, the culture medium 5 is disposed in the planting hole 4, and the axis of the planting hole 4 is in a horizontal and vertical state.

In this embodiment, it is fixed through connecting plate 22 between back orifice plate 31 and left shrouding 23, the right shrouding 12, preceding orifice plate 3 and left shrouding 23, it is fixed through connecting plate 22 between the right shrouding 12, it is fixed through connecting plate 22 between roof 19 and left shrouding 23, the right shrouding 12, it is fixed through connecting plate 20 between roof 19 and preceding orifice plate 3, the back orifice plate 31, it is fixed through connecting plate 20 between baffle 2 and preceding orifice plate 3, the back orifice plate 31, it is fixed through connecting plate 21 between baffle 2 and the nutrient solution case 9.

In this embodiment, the independent automatic aerosol spraying device comprises a nutrient solution pump 10 installed in a nutrient solution tank 9, an outlet of the nutrient solution pump 10 is connected with a delivery pipe 8, the delivery pipe 8 penetrates through the partition board 2, the delivery pipe 8 is located in a surface extension branch pipe 6 in the planting tower 1, and a spray head 7 is installed on the branch pipe 6. Wherein the delivery pipe 8 is communicated with the branch pipe 6, and the nutrient solution is delivered to the branch pipe 6 from the delivery pipe 8 and finally sprayed out from the spray head 7.

In the embodiment, rollers 16 are installed at the bottom of the nutrient solution tank 9, a liquid level ball float valve 11 and a liquid level display 15 are installed on the side wall of the nutrient solution tank 9, the nutrient solution pump 10 is connected with a timer 14, a reversible door 13 is installed on the surface of the nutrient solution tank 9, a drain plug 17 is installed below the side wall of the nutrient solution tank 9 in a penetrating mode, and an insect-proof cover 18 is detachably sleeved outside the planting tower 1.

Referring to fig. 4, a plurality of independent automatic aerial fog cultivation planting boxes of the embodiment can be continuously installed to form an automatic nutrient solution supply system, and the planting boxes can be clamped, magnetically connected, bonded, connected by fasteners or connected in any connection mode.

The features and functions of the present invention will be further understood from the following description.

In this embodiment, the planting body of the planting tower 1 is composed of two inclined hole plates (i.e. the front hole plate 3 and the rear hole plate 31) and a top plate 19. The inclined hole plate is provided with planting holes 4 which are spaced from each other at a vertical spacing larger than a horizontal spacing, the top plate 19 is provided with planting holes 4 which are spaced from each other at a vertical spacing as well as a horizontal spacing, and each planting hole 4 is provided with a seedling growth medium 5 which is placed in a standard size with strong water absorption, such as rock wool, and allows the seedling to absorb nutrient solution for growth.

At least two rows of branch pipes 6 (shown in fig. 2) for conveying nutrient solution are arranged in the closed space formed by the top plate 19, the inclined hole plates (namely the front hole plate 3 and the rear hole plate 31), the closing plates (namely the left closing plate 23 and the right closing plate 12) and the partition plate 2, and the branch pipes 6 are provided with aerosol nozzles 7 which are spaced from each other by preferably at least 250 mm, so as to provide atomized nutrient solution for the seedlings planted in the planting holes 4. A nutrient solution conveying pipe 8 derived from a nutrient solution pump 10 is arranged in the nutrient solution box 9.

The nutrient solution box comprises a top plate 19, inclined hole plates (namely a front hole plate 3 and a rear hole plate 31), sealing plates (namely a left sealing plate 23 and a right sealing plate 12) and a partition plate 2 are located on a nutrient solution box 9, a nutrient solution pump 10 is arranged in the nutrient solution box 9, an outlet of the nutrient solution pump 10 is connected to a nutrient solution conveying pipe 8, the nutrient solution conveying pipe penetrates through the partition plate 2 and is connected to a nutrient solution branch pipe 6 arranged on the top plate 19, the inclined hole plates (namely the front hole plate 3 and the rear hole plate 31), and at least two rows of closed spaces formed inside the sealing plates (namely the left sealing plate 23 and the right sealing plate 12) and the partition plate 2 are provided with spray heads 7 at intervals of at least 250 mm. The nutrient solution tank 9 is provided with a liquid level float valve 11. The nutrient solution tank 9 is provided with a door 13, and the nutrient solution pump 10 can be cleaned and maintained by opening the door 13, and nutrient solution can be added into the nutrient solution tank 9. The circuit of the nutrient solution pump 10 is connected to a timer 14 for setting the automatic start and stop of the nutrient solution pump 10, thereby effectively solving the problems of high power consumption, increased operation cost and prolonged operation life of the pump caused by the continuous operation of the nutrient solution pump 10.

A liquid level display 15 is arranged on the front outside the nutrient solution tank 9. When the liquid level of the nutrient solution tank 9 is lowered to a low level, the liquid level display 15 displays the low liquid level to remind a user of adding the nutrient solution. When the independent automatic aerial fog cultivation planting box is used independently, the adding method comprises the steps of firstly pouring the organic fertilizer into an external watering container according to the proportion of a specification, then adding water, opening a door 13 after mixing, pouring the mixed nutrient solution into a nutrient solution box 9 until a liquid level display 15 is full. The bottom of nutrient solution case 9 has set up four and has dismantled to rotation type wheel 16 with braking function lets independent automatic aerial fog cultivation plant the case can be light remove any place that needs to place, then locks the stopper, fixes independent automatic aerial fog cultivation and plants the case, prevents that equipment from removing. A drain plug 17 is provided below the nutrient solution tank 9 for draining the nutrient solution in the nutrient solution tank 9 when necessary.

The independent automatic aerial fog cultivation planting box of this embodiment is equipped with the protection against insects cover 18 that can lightly install, dismantle. The insect-proof cover 18 can prevent rain and insects, and the insect-proof cover 18 covers the whole independent automatic aerial fog cultivation planting box from the top of the independent automatic aerial fog cultivation planting box to the bottom. The top of the cover is made of waterproof material to prevent rain, and the four side surfaces are made of fine nets to supply air circulation and prevent insects. The user can choose whether to install the insect prevention cover 18 according to the actual requirement.

Independent automatic aerial fog cultivation planting case optional light installation, dismantles emitting diode (not shown, emitting diode is prior art, and the no longer repeated description). When the independent automatic aerial fog cultivation planting box needs to be placed indoors, the configured light emitting diodes can be installed at the installation positions set by the equipment, required light is provided for vegetables in the hole plate, and the growth of the vegetables is facilitated. When the light emitting diode is installed, the insect-proof cover 18 is not needed or can not be installed at the same time.

As further explained below:

the tower structure bottom of the independent automatic aerial fog cultivation planting box of this embodiment is wide big, has big nutrient solution case, and the top is little, and the structure is stable, has solved because of the structure is very unstable, has blown down the possibility by the strong wind.

The design height of the independent automatic aerial fog cultivation planting box of the embodiment just allows the harvest workers to harvest vegetables without standing any stairs, and potential safety hazards of high-altitude operation are eliminated.

The tower type design and the height of the independent automatic aerial fog cultivation planting box are scientific and reasonable; as long as a 0.6-meter walkway is reserved between each row of equipment, the surfaces of two ends of each row of independent automatic aerial fog cultivation planting boxes, on which vegetables are not planted, are arranged in the east-west direction, and each row of planting bodies can be in contact with the irradiation of sunlight all day.

The yield of the three-surface planting body of the independent automatic aerial fog cultivation planting box is more than that of each cultivation vessel of the impact aerial fog three-dimensional cultivation equipment which can only cultivate 4 vegetables, even at an unstable height of 4-6 meters, the yield of the 80 vegetables is limited to be many times higher at most, and the method is completely economically feasible.

The case is planted to independent automatic aerial fog cultivation of this embodiment is provided with the timer, and the high power consumption that leads to has effectively been solved the incessant operation of nutrient solution pump with the operation of closing the nutrient solution pump, the increase of operation cost and the problem of final nutrient solution pump destruction.

The nutrient solution case of case is planted to independent automatic aeroponic cultivation of this embodiment is provided with a liquid level display to and the door of a switch, and the liquid level of the nutrient solution case when equipment drops to the low level, and liquid level display shows low liquid level, reminds the user to need to add the nutrient solution. When the independent automatic three-dimensional aerial fog cultivation equipment is used independently, the adding method comprises the steps of firstly pouring organic fertilizer into an external watering container according to the proportion of a specification, then adding water, after mixing, opening a door capable of being opened and closed, pouring mixed nutrient solution into a nutrient solution box until a liquid level display is full.

The independent automatic aerial fog cultivation planting box of this embodiment is from taking the nutrient solution pump, is the totally independent equipment. The nutrient solution boxes of the independent automatic aerial fog cultivation planting boxes are connected together through pipelines, the liquid levels of all the nutrient solution boxes can be kept at the same liquid level, and then a liquid level ball float valve pipeline connected with one nutrient solution box is connected to a nutrient solution supply tank through a pipeline to form a nutrient solution supply system. The nutrient solution box of each independent automatic aerial fog cultivation planting box is provided with a liquid level ball float valve. When the nutrient solution liquid level drops to the low liquid level of settlement, because the liquid level of the nutrient solution case of all independent automatic aerial fog cultivation planting casees all is at same liquid level, a liquid level ball-cock assembly that has been connected opens, lets the nutrient solution from the nutrient solution supply tank, flows through gravity, flows the nutrient solution case of the independent automatic aerial fog cultivation planting case of relevance automatically, rises to the settlement liquid level to the liquid level, and liquid level ball-cock assembly closes, stops the input of nutrient solution. The nutrient solution in the nutrient solution supply tank is input from a blending tank with the function of automatically blending the proportion of the organic fertilizer through a pipeline. The design really realizes the function of automatically supplying the nutrient solution of the independent automatic aeroponic system.

The embodiment main points are to provide an independent automatic aerial fog cultivation planting case that is applicable to outdoor and indoor can regard as independent device or dual application of system again, and all component parts of equipment all are with the module standard component of mould production, conveniently assemble the device fast in indoor such as warehouse, house etc. earlier, send plant factory to through the pipeline again, and is quick, accurate connect the nutrient solution water tank of all devices into the system. In addition, because the components are produced by moulds, the price is low, the field installation time and the installation cost are simultaneously reduced to the minimum degree, and the popularization of agricultural industrialized technology can be really realized.

All components are module standard parts produced by a mould, so that all seams can be sealed, and the situation that the planting body grows green algae and damages the planting body and vegetables when the planting body wastes waste caused by the leakage of nutrient solution and encounters sunlight is avoided.

The structure of the independent automatic aerial fog cultivation planting box of this embodiment is by planting the tower, and shrouding and baffle are constituteed to sit on a nutrient solution case, have the nutrient solution pump in the nutrient solution case, the exit linkage of pump is to a conveyer pipe, and the conveyer pipe passes the baffle, is connected to the setting and plants the tower, and at least two rows of nutrient solution branch pipes that have the aerial fog shower nozzle of interval at least 250 millimeters in the airtight space that shrouding and baffle formed. Nutrient solution case and nutrient solution pump are all in independent automatic aerial fog cultivation plants the incasement, have solved because the nutrient solution pump leaves the flow of high-pressure pump earlier of needs that the nutrient solution pond distance brought too far away, and pressure etc. calculate and guarantee that the nutrient solution volume can satisfy the demand in whole vegetation district and whole installation complicacy, various problems consuming time and that the expense is high.

The independent automatic aerial fog cultivation planting box of this embodiment is from taking nutrient solution case and nutrient solution pump, spouts the direct gravity of remaining nutrient solution of vegetable root from the shower nozzle and down flows back to the nutrient solution case, has solved because the nutrient solution pond is kept away from the plant and has been led to the backflow pipeline because the distance is long and need install the problem that sterilizing equipment and buffering ditch groove and buffer wall's demand brought.

The design of the independent automatic aerial fog cultivation planting box of this embodiment lets the direct gravity of remaining nutrient solution that spouts the vegetable root from the shower nozzle down flow back to the nutrient solution case of self, need not to dig the backward flow groove on ground and let remaining nutrient solution flow back to the nutrient solution pond, is applicable to the farmland that has the place, and ground such as reinforced concrete or pitch is planted, is favorable to promoting urban agriculture to solve the problem that global lack of arable land and urban population sharply increase.

The independent automatic aerial fog cultivation planting box of this embodiment can regard as independent unit to use alone, also can be through the pipeline, couples together all nutrient solution casees, forms big or little system according to the concrete requirement to automatic operation is applicable to the small-size user of planting etc. of large-scale agricultural factory and the small peasant household in the city, family and restaurant.

The case is planted to independent automatic aerial fog cultivation of this embodiment passes through the pipeline, connects into the system after, and reconnection to nutrient solution supply tank and intelligent control computer, humidity and temperature according to at that time that can be automatic, the function time and the switch of decision nutrient solution pump, the science, automatic operation has solved originally because the incessant function of a high-pressure pump alone leads to high power consumption and the problem of final high-pressure pump destruction.

The independent automatic aerial fog cultivation planting box of this embodiment, every is from taking the nutrient solution pump, has solved originally only singly to lean on a high-pressure pump to supply nutrient solution for whole planting mill, in case the high-pressure pump in case the influence of giving vegetable production when breaking down, destroys the risk even.

The independent automatic aerial fog cultivation planting case of this embodiment passes through the pipeline, connects many independent automatic aerial fog cultivation planting case and becomes the system after, reconnects to nutrient solution supply tank and intelligent control computer, can be according to humidity and temperature at that time, and the science is automatic supplies with the nutrient solution volume of optimization for the vegetable root, has solved the harm that the supply of nutrient solution is not stopped vegetables and is caused vegetables.

The holes of the implants in the independent automatic aerial fog cultivation planting box of the embodiment are opened according to the most appropriate angle after calculation according to the specific inclination of the implants. The holes are right upward after calculation, accord with the natural growth rule of the vegetables, and are beneficial to the growth of the vegetables.

The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.

Claims (10)

1. The utility model provides an independent automatic aerial fog cultivation plants case which characterized in that includes:

a nutrient solution tank;

the planting tower is arranged at the top of the nutrient solution box and is used for planting green plants;

the partition plate is used for connecting and isolating the nutrient solution box and the planting tower; and

the automatic aerosol injection device is arranged in the nutrient solution box and the planting tower and is used for adding nutrient solution to green plants;

at least one through hole for recovering nutrient solution is arranged on the partition board in a penetrating way.

2. The autonomous, automated, aerial fog cultivation planter box of claim 1, wherein the planter tower comprises a front aperture plate, a rear aperture plate, a left closure plate, a right closure plate, and a top plate secured to the top of the front aperture plate, the rear aperture plate, the left closure plate, and the right closure plate, in surrounding connection with one another; a plurality of planting holes are formed in the front pore plate, the rear pore plate and the top plate.

3. The self-contained automated aerial fog cultivation planting box of claim 2, wherein the planting holes are filled with culture medium, and the axes of the planting holes are in a horizontal and vertical state.

4. The automatic independent aerial fog cultivation planting box of claim 2, wherein the rear orifice plate is fixed to the left sealing plate and the right sealing plate through connecting plates, the front orifice plate is fixed to the left sealing plate and the right sealing plate through the connecting plates, the top plate is fixed to the front orifice plate and the rear orifice plate through the connecting plates, and the partition plate is fixed to the front orifice plate and the rear orifice plate through the connecting plates.

5. The self-contained, automated aerial fog cultivation planter box of claim 1 wherein the automated aerial fog spraying apparatus comprises a nutrient solution pump mounted in the nutrient solution tank, an outlet of the nutrient solution pump is connected to a delivery tube, the delivery tube extends through the partition, the delivery tube is located in a surface extending manifold in the planter tower, and the manifold is mounted with a spray head.

6. The self-contained, automated aerial fog cultivation planting box of claim 5, wherein the nutrient solution tank is roller mounted at the bottom.

7. The self-contained, automated aerial fog cultivation planting box of claim 5, wherein the nutrient solution tank is fitted with a liquid level float valve and a liquid level display.

8. The self-contained, automated aerial fog cultivation planting box of claim 5, wherein the nutrient solution pump is connected with a timer.

9. The self-contained, automated aerial fog planting tank of claim 5, wherein the nutrient solution tank is surface mounted with a reversible door.

10. The automatic aerial fog cultivation planting box of claim 1, wherein the outer of the planting tower is detachably sleeved with an insect-proof cover.

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