KR20160090023A - Vertical hook vegetation device - Google Patents

Abstract

The present invention relates to a vertical holding vegetation apparatus and, more specifically, relates to a vertical holding vegetation apparatus, which can cultivate and culture large quantities of plants in a narrow area. The vertical holding vegetation apparatus comprises: a first horizontal supporting rod; a winding rotation body for winding or unwinding an ascending and descending wire; a second horizontal supporting rod; a vertical holding member provided with a first surface unit and a second surface unit; at least one supporting member; at least one vegetation bag for cultivating or culturing the plants; and a vertical cultivating means fixated and coupled to at least one artificial light source unit.

Description

Vertical hook vegetation device.

The present invention relates to a vertical hook vegetation apparatus, and more particularly, to a vertical hook vegetation apparatus, which is vertically erected and can ascend and descend in an upper and lower direction, and a support member formed on a first surface portion, And a plurality of artificial light sources for irradiating an artificial light source are coupled to a second surface portion on the outer side of the other surface to constitute vertical cultivation means, The present invention relates to a vertical hook vegetation apparatus for promoting the growth of plants by arranging the surface portion and the second surface portion of another vertical cultivation means so as to be vertically and continuously arranged in a space facing each other with a constant gap therebetween.

Generally, one of the two branches of the biological system, there is usually no moving force, the system is relatively simple, there is no nervous sensation, and there are cell walls and cell membranes including celluloses. Except for bacterial plants and fungi, it usually has chlorophyll, which replenishes its nutrients by photosynthesis and has a reproductive organs such as flowers and a pussy pocket. Seed plants, ferns, feral plants, fungi, algae, and bacterial plants.

On the other hand, among the food ingredients, leaf vegetables, fruit vegetables, and root vegetables are considered to be very important factors for our food ingredients. Especially, as the dietary culture for health is gradually expanding, interest in eco-friendly leafy vegetables, fruit vegetables, and root vegetables is gradually increasing.

However, it has been recognized that the stereotypes of cultivating leafy vegetables, fruit vegetables, root vegetables, and the like in flat or greenhouses are raised as common sense in our everyday life. Nowadays, , There is a limit to cultivate a large amount of plants in a narrow area when cultivating a plant in an indoor plant farm, and it is difficult to secure competitiveness by improving agricultural productivity of the farmer.

In addition, microalgae (microalgae), which are attracting attention as biofuels, are collectively referred to as photosynthetic single-celled organisms with photosynthetic pigments. In general, microalgae such as chlorella, Iota crysis, In addition to being used as feedstuffs in the process of producing artificial seeds of the same aquatic organisms, it can also be used for the development of health foods, sewage disposal, CO2 removal, and biofuels due to various useful factors contained in microalgae itself. Microalgae are being cultivated in large quantities around the world in order to utilize and study microalgae.

However, in order to cultivate microalgae in a large scale with the conventional culture method, it is necessary to secure a space according to a culture facility. In this process, an enormous facility cost and site acquisition cost are incurred. Therefore, Not only is it a cause of a rise, but also in the field of development of health food, sewage disposal, CO2 removal, bio-fuel utilization and research, it is difficult to secure a space according to a culture facility.

Due to the recent development of the advanced semiconductor industry, our lifestyle has become convenient and diversified material richness, and it has been widely used in all fields of society. Recently, the LED light emitting device, It is located deep in the first half.

In particular, the conditions required for growth of plants are temperature, humidity, and the amount of CO2 in the atmosphere, and as the amount of temperature, humidity, lightness, and CO2 is increased or decreased, the growth, Depending on how the conditions affect the plants uniformly, there are many differences in the growth and cultivation of the plants.

In order to provide a light source for supplying illumination to plants, an incandescent lamp, a fluorescent lamp, a halogen bulb, a high-pressure sodium bulb, or the like has been conventionally used.

However, light sources such as incandescent lamps, fluorescent lamps, halogen bulbs, and high-pressure sodium bulbs contain not only light of wavelengths effective for photosynthesis (light synthesis) of plants but also lights of other wavelengths that are not effective, Can not be irradiated.

In recent years, LED light emitting devices that can replace these light sources and generate the effects of photosynthesis and foliar action of plant growth, which are not equipped with conventional technologies, and can generate economical effects due to energy saving and environmental protection It is in the limelight.

For example, Korean Patent Laid-Open Publication No. 2000-0006611 discloses a lighting device including a LED light emitting device for growing a plant, and it can be illuminated according to the characteristics of a plant or light of an optimal wavelength band and brightness And the like.

It is an object of the present invention to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method for cultivating and cultivating plants by cultivating plants in a small space, in which a large amount of leaf vegetables or fruit vegetables or root vegetables or microalgae, The first surface portion of the vertical cultivation means planted or cultivated in the vegetation cell bundle and the second surface portion of the vertical cultivation means combined with another artificial light source portion are opposed to each other at regular intervals so as to be cultivated or cultured, And to provide a vertical hook vegetation apparatus that can be installed and disposed in succession.

Another aspect of the present invention is to provide a method of using a natural light source and an artificial light source to efficiently utilize an artificial light source at a sunset time or a cloudy or rainy day, Provides a vertical hanger vegetation system designed to improve plant growth, cultivation and manageability by increasing photosynthetic progress and plant growth during cultivation and cultivation of leaf vegetables or fruit vegetables or microalgae (microalgae) through cultivation .

This means that the length of the vertical cultivation means is set as long as possible within the range allowed by the cultivation facility so that the cultivation and cultivation of a large amount of plants in a narrow area cultivation facility and the vertical cultivation means And it can be raised and lowered in the vertical direction, thereby increasing the labor cost and the work efficiency, thereby providing agriculture with high added value.

Technical features of the present invention to attain the above object are as follows: A first aspect of the present invention is a floor structure comprising: a first horizontal support placed on a ceiling of an arbitrarily designated space or on an upper part of a building structure;

A winding rotating body coupled to the first horizontal support and winding or unwinding the rising and falling wire;

A second horizontal support member coupled to one end of the ascending / descending wire;

A mat member of a flexible material coupled to the second horizontal support and having a first surface portion and a second surface portion; And

At least one support member coupled to the first surface portion;

At least one vegetation bag for growing or cultivating a plant by being attached to, dismounted from, or inserted into the support members and filled with cultivation means; And

Further comprising: at least one artificial light source part, which is fixedly coupled to the second surface part, for illuminating the light source toward the vegetation cell bundle; And

Characterized in that the first surface portion of the vertical cultivation means and the second surface portion of another vertical cultivation means are arranged successively in space facing each other with a certain distance therebetween.

And the winding rotating body is driven by a motor.

And the winding rotating body is manually driven.

The support members may include a bag shape having a certain space therein, or a hook and a loop, and may be fixed in a velcro shape or a pair of fixed hardware shapes which may be easily fixed or easily detached. One of which is selectively constituted.

And the first surface portion and the second surface portion are made transparent.

Wherein the first surface portion and the second surface portion are constituted by a reflective layer reflecting sunlight or artificial light source portion.

The material of the vegetation bag is made up of paper or woven fabrics or synthetic resin sheets.

The vegetation can be supplied with water, a nutrient solution or a culture liquid to the cultivation means filled in the vegetation cell, and a discharge portion for discharging water, nutrient solution or culture liquid is formed in the lower portion of the vegetation cell.

And a discharge pipe portion having a predetermined length is formed in the discharge portion.

And the discharge tube portion is formed with a valve device for regulating the discharge of water or nutrient solution or culture solution.

The vegetation bag is made by planting leafy vegetables, fruit vegetables or root vegetables.

The vegetation bag is made up of microalgae (microalgae).

The artificial light source unit includes a PCB substrate on which at least one LED is arranged.

And the vertical hook vegetation device is installed in at least one independent carrier device.

The carrier device comprises a moving device at the bottom for movement in space.

Wherein the vertical hanger vegetation device further comprises a sensor module for controlling the cultivation environment,

Wherein the sensor module provides the control means for analyzing the sensing data to the cultivation environment data generated at the arbitrary location and controls the cultivation environment by using the control data provided by the analysis result of the sensing data, Module.

The sensor module may be configured to control at least one of temperature, humidity, illuminance and CO2 amount data.

Based on the analysis results of the sensor module,

Cooling / heating means for cooling or heating the vertical hook vegetation device;

An irrigation means for supplying water or a nutrient solution or a culture medium to the vertical hook vegetation apparatus; And

And a ventilation means for ventilating the air of the vertical hook vegetation apparatus.

The first horizontal support may further comprise horizontal moving means movable along the rail in space.

According to the vertical hook vegetation apparatus of the present invention, the vertical hook member of the vertical hook vegetation apparatus for planting or cultivating leafy vegetables, fruit vegetables, root vegetables or microalgae (microalgae) is made of a flexible material, It is easy to move, store and install, and a plurality of vertical cultivation means and a plurality of other vertical cultivation means can be arranged continuously in a space facing each other at regular intervals, so that many plants can be cultivated or cultivated in a narrow area It is economical.

Further, the vegetation cell cultivated or cultivated by the plant can be easily attached to or detached from the support member of the vertical cultivation means, and the upright descending wire of the take-up rotating body for raising and lowering the vertical cultivation means up and down can be used Convenience and economy are added, and the vertical hook vegetation device is independently installed in at least one carrier device. When the plant is harvested according to the growing environment of the plant, convenience and labor force It is possible to reduce the production cost by drastically reducing the labor cost and the working time, and it is possible to make the length of the vertical cultivation means as long as possible, thereby producing a large amount of plants in a narrow space.

1 is a front view of a vertical hook vegetation apparatus of the present invention.
2 is an enlarged perspective view of the portion "A " of Fig. 1 of the present invention.
3 is a front view of the vertical hook vegetation apparatus of the present invention installed on a carrier apparatus.
4 is a perspective view showing a main part of the vertical cultivation means of the present invention.
5 is a perspective view of the vegetation cell of the present invention.
6 is a front view of the artificial light source unit of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

First, the embodiments described below are embodiments suitable for understanding the technical features of the vertical hook vegetation apparatus of the present invention. However, the technical features of the present invention are not limited by the embodiments to which the present invention is applied or explained in the following embodiments, and various modifications are possible within the technical scope of the present invention.

Fig. 1 is a front view of the vertical hook vegetation apparatus of the present invention, Fig. 2 is an enlarged perspective view of the " A "portion of Fig. 1 of the present invention, FIG. 4 is a perspective view showing a main part of the vertical cultivation means of the present invention, FIG. 5 is a perspective view of a vegetation cell of the present invention, and FIG. 6 is a front view of an artificial light source unit of the present invention.

The vertical hook vegetation apparatus 100 according to the present invention includes a first horizontal support base 110, a winding rotation body 130 coupled to the first horizontal support base 110 to wind up and unwind the upward and downward wire 120, A second horizontal support 131 coupled to one end of the wire 120 and a first surface portion 150 formed of a flexible material coupled to the second horizontal support 131, A vertical hook member 133 having a first surface portion 151 and a second surface portion 151 and at least one support member coupled to the first surface portion 150. The support member 153 is detachably attached to the support member 153, At least one vegetation cell 155 for cultivating or cultivating the plant by filling the planting means 154 with the planting means 154,

Further comprising: at least one artificial light source part, which is fixedly coupled to the second surface part, for illuminating the light source toward the vegetation cell bundle; And the first surface portion of the vertical cultivation means and the second surface portion of another vertical cultivation means are arranged successively in space facing each other with a certain distance therebetween,

The first horizontal support rods 110 are placed on top of a ceiling portion or an upper part of an arbitrary specified space and are seated.

That is, the first horizontal support rods 110 may be horizontally disposed on an upper iron structure installed in a cultivating space such as a greenhouse or a greenhouse, and horizontally arranged on the upper part of the carrier device 360, Batch can be seated.

The material of the first horizontal support member 110 may be a metallic material or a plastic material having a strong bending strength, and may be formed in a rod shape or a tube shape.

Further, the first horizontal support base 110 is assembled with a winding rotating body 130 that winds up or unwinds the lifting wire 120 on both sides or at specific positions in the longitudinal direction, It can be composed of a synthetic resin material.

In addition, the winding rotating body 130 may be configured in a drum shape or a wheel shape, and the winding rotating body 130 may be operated by an electric motor 200 driven by a person, Operation is also possible.

The second horizontal support 131 is connected to one end of the lifting wire 120 connected to the winding rotation body 130, and there is no limitation on the connection method or the connection member.

The material of the second horizontal support base 131 may be a metallic material or a synthetic resin material having a high bending strength and may have a rod shape or a tube shape.

A vertical hook member 133 is coupled and fixed to the second horizontal support base 131. The vertical hook member 133 is in the form of a mat made of a flexible material and includes a first surface portion 150, And a second surface portion 151,

A separate reinforcing member may be further provided between the first surface portion 150 and the second surface portion 151. This structure may increase the overall tensile force of the vertical hook member 133. [

That is, the vertical hooking member 133 can minimize the excessive burden of weight when the fabric is made of a fabric material or a synthetic resin sheet material woven with flexibility and light materials, There will be.

One or more supporting members 153 are coupled to the first surface portion 150 of the vertical hook member 133.

That is, the support members 153 are formed in a bag shape having a certain space in the inside thereof, or in a velcro shape which is composed of a hook and a loop and can be firmly fixed or easily detached Or in the form of a pair of fixed hardware. Here, a bag type having a certain space will be described as an example.

In addition, one or more vegetation support 155 can be attached to, detached from, or removed from the support member 153.

The vegetation cell bundle 155 is filled with a cultivation means 154 for cultivating or cultivating a plant. The cultivation means 154 may be any suitable material for growing plants such as soil, vegetation soil, A glass wool, a rockwool, a sponge or simply water or a nutrient solution or a culture solution may be accommodated therein.

Also, the material of the vegetation bag 155 may be selectively formed from paper, woven fabrics, or synthetic resin sheets, and may be applied without limitation to the material and shape thereof. For example, As shown in FIG.

In addition, the vegetation cell bundle 155 is formed with an injection part 300 having an open upper part or a partially opened part, and the water or a nutrient solution or a culture solution is supplied to the cultivation part 154 filled in the vegetation cell 155 And a discharge part 330 for discharging water or a nutrient solution or a culture liquid is formed in the lower part of the vegetation cell 155.

A discharge tube portion 340 having a predetermined length is formed in the discharge portion 330 of the vegetation cell 155 and the lower end of the discharge tube portion 340 of the vegetation cell 155 located at the upper portion is connected to another vegetation The water or the nutrient solution or the culture liquid injected into the injection part 300 of the upper vegetation 155 can be sent down by gravity by being connected to the injection part 300 of the turret 155, Or a valve device 350 for regulating the discharge of nutrient solution or culture liquid may be formed.

This is economical because it can save the amount of water or nutrient solution or culture used.

Also, the vegetation can be cultivated with leaf vegetables, fruit vegetables or root vegetables, and microalgae (microalgae) are cultivated in the vegetation cell. Vegetables, leaf vegetables, fruit vegetables, root vegetables, microalgae and microalgae, By culturing, the material of the cultivation means 154 used here is appropriately selected and applied.

That is, the above-described leaf vegetables, fruit vegetables, and root vegetables are used as food materials, and the microalgae (microalgae) are processed into biofuels or health foods through purification process according to their types.

The artificial light source 175 may be applied to the vegetation cell 155 irrespective of the type of the light source if it can irradiate the light source necessary for vegetation. That is, for example, a light source such as a fluorescent lamp, an LED, a halogen lamp, etc. may be variously applied.

The artificial light source unit 175 may include a PCB (Printed Circuit Board) having a plurality of LEDs 210 arranged therein.

The light-emitting diode (LED) 210 can more efficiently control the wavelengths and light quantities required for the plant than other light sources, so that the photosynthesis activity of the plant can be enhanced. That is, the artificial light source unit 175 is formed by attaching a plurality of LEDs 210 to a PCB substrate.

In this case, the LED 210 included in the artificial light source unit 175 may include a white LED, a blue LED, and a red LED.

Generally, a light source of a plant cultivation apparatus provides light necessary for photosynthesis and growth of plants, and plants have different preferred wavelengths of light depending on their kinds and growth conditions. In particular, the spectrum of light Absorbs blue and red of green, and reflects green.

Accordingly, in the vertical hook vegetation apparatus 100 according to the present invention, the LED 210 emitting blue and red light is used in order to appropriately supply the color light including a large amount of wavelength required by the plant to maximize the characteristics of the plant light ≪ / RTI >

The first surface portion 150 and the second surface portion 151 may be transparent or may be formed of a reflective layer 190 that reflects the sunlight or the artificial light source portion 175. This is because if the surface layer of the first surface portion 150 and the second surface portion 151 is transparent, the sunlight or the artificial light source portion 175 to be projected is appropriately transmitted to the other surface portion 150 and the second surface portion 151, And the reflection layer 190 that reflects the sunlight or the artificial light source unit 175 may be constructed so that the light sources can be continuously and repeatedly applied to the plants in various directions and angles The reflection layer 190 may reflect the light source for a long time by diffuse reflection and refraction to help vegetation growing on the vegetation cell 155. Preferably, the reflection layer 190 reflects the sunlight or the artificial light source 175 effectively Any material or structure can be applied without restrictions.

The first surface portion 150 of the plurality of vertical cultivation means 160 and the second surface portions 151 of the plurality of vertical cultivation means 160 are arranged to face each other at regular intervals, And can be deployed to play a role in promoting plant growth.

At this time, the distance between the first surface portion 150 of the plurality of vertical cultivation means 160 and the second surface portion 151 of the plurality of vertical cultivation means 160 may be determined according to the characteristics of the plant.

Also, the vertical hook vegetation apparatus 100 is installed in at least one independent carrier apparatus 360, and the carrier apparatus 360 includes a moving apparatus 700 at a lower portion so as to be able to move in space.

When the vegetation is planted by installing the vertical hook vegetation apparatus 100 on the carrier apparatus 360, the vegetation can be vegetated by using the sunlight and the artificial light source unit 175 when the artificial light source unit 175 is used, When planting, cultivating or harvesting plants by increasing photosynthesis time to help plant growth, it is possible to save labor space and harvest time, thereby minimizing labor expenses, thereby achieving economic benefits.

The vertical hanger vegetation apparatus 100 further includes a sensor module 500 for controlling the cultivation environment. The sensor module 500 analyzes the cultivation environment data generated at the arbitrary place, And a sensor module (500) for controlling the cultivation environment by using control data provided by an analysis result of the sensing data, and the sensor module (500) (Not shown) for cooling or heating the vertical hook vegetation apparatus 100, based on the control of at least one of the humidity, the illuminance, and the CO2 amount data, (Not shown) for supplying water, a nutrient solution, or a culture liquid to the vertical hook vegetation apparatus 100, The ventilating means (not shown) for Pointing is further included.

That is, the sensor module 500 includes a temperature sensor, a humidity sensor, an illuminance sensor, and a CO2 sensor. By using such various sensors, an optimized environment of a plant cultivated or cultivated at any place can be created. For example, the sensor module 500 transmits the sensing data acquired through each sensor to the gateway, and the gateway provides the data to the control device, thereby optimizing the environment in the house or plant factory under the control of the control device . In the course of this process, the control device instructs the manager to provide information to optimize the internal environment of the plant factory or the like to the operation device according to the result of the analysis of the sensing data, or the sensor module 500 may transmit the data to the gateway, (Water or nutrient solution or culture liquid), a heater, a humidity valve, an artificial light source on / off duty (not shown) installed in the vertical hook vegetation apparatus 100 in accordance with a control command of the controller, And so on, thereby creating an optimized environment.

That is, depending on the type of plant, environmental conditions optimum for plant growth, that is, temperature, humidity, illuminance and CO2 abundance may be different. Therefore, the cultivation environment of the vertical hook vegetation apparatus 100 can be efficiently controlled based on the information sensed by the temperature sensor, the humidity sensor, the illuminance sensor, and the CO2 sensor.

Controlling the sensor module 500 using the above-mentioned wired and wireless communication network can be understood as a technology environment in which data is transmitted to the Internet in real time by attaching a sensor to an object (Internet of Things)

In addition, the first horizontal support rods 110 further include horizontal movement means 400 that can be moved along the rails in space.

In other words, the first horizontal support 110 can move in the space in the space, and the horizontal moving means 400 used herein can be applied without limitation to a driving motor or a force application method. For example, Shaped or rail-shaped.

The horizontal moving means 400 may be coupled to both sides of the first horizontal support 110 or to various positions.

By using the vertical hook vegetation apparatus 100 according to the present invention, it is possible to cultivate or cultivate plants safely and continuously for 365 days without affecting the insect pests and the surrounding environment, It will be effective.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be understood by those skilled in the art that it is easy to know.

100: a vertical hook vegetation apparatus 110: a first horizontal support 120:
130: Winding rotor 131: Second horizontal support member 133: Vertical hook member
150: first surface portion 151: second surface portion 153: support member 154: growing means
155: vegetation bag 160: vertical cultivation means 175: artificial light source 190: reflective layer
200: motor 210: LED 300: injection unit 330:
340: exhaust pipe part 350: valve device 360: carrier device 400: horizontal moving means
500: Sensor module 700: Mobile device

Claims (19)

A first horizontal support positioned and mounted on top of the ceiling of the arbitrarily designated space or above the building structure;
A winding rotating body coupled to the first horizontal support and winding or unwinding the rising and falling wire;
A second horizontal support member coupled to one end of the ascending / descending wire;
A mat member of a flexible material coupled to the second horizontal support and having a first surface portion and a second surface portion; And
At least one support member coupled to the first surface portion;
At least one vegetation bag for growing or cultivating a plant by being attached to, dismounted from, or inserted into the support members and filled with cultivation means; And
Further comprising: at least one artificial light source part, which is fixedly coupled to the second surface part, for illuminating the light source toward the vegetation cell bundle; And
Characterized in that the first surface portion of the vertical cultivation means and the second surface portion of another vertical cultivation means are arranged successively in space facing each other with a certain distance therebetween. The method according to claim 1,
And the winding rotating body is driven by a motor. The method according to claim 1,
Wherein the wind-up rotary body is manually driven. The method according to claim 1,
The support members may include a bag shape having a certain space therein, or a hook and a loop, and may be fixed in a velcro shape or a pair of fixed hardware shapes which may be easily fixed or easily detached. Wherein the one or more vertical hooks are selectively configured. The method according to claim 1 or 4, wherein
Wherein the first surface portion and the second surface portion are transparent. The method according to claim 1 or 4,
Wherein the first surface portion and the second surface portion constitute a reflecting layer for reflecting the sunlight or the artificial light source portion. The method according to claim 1,
Wherein the material of the vegetation bag is selectively made of paper, woven fabrics, or synthetic resin sheets. 8. The method of claim 1 or 7,
And a water or nutrient solution or a culture liquid can be supplied to the cultivation means filled in the vegetation cell, and a discharge portion for discharging water, nutrient solution or culture liquid is formed in the lower part of the vegetation cell. A vertical hook vegetation device. 9. The method of claim 8,
And a discharge pipe portion having a predetermined length is formed in the discharge portion. 10. The method of claim 9,
Wherein the discharge tube portion is formed with a valve device for regulating discharge of water, nutrient solution or culture liquid. 9. The method according to claim 1 or 2 or 3 or 8,
Wherein the vegetable cell bundle is planted with leaf vegetables or fruit vegetables or root vegetables. 9. The method according to claim 1 or 2 or 3 or 8,
Characterized in that microalgae (microalgae) are cultivated in the vegetation cell. 13. The method according to any one of claims 1 to 12,
Wherein the artificial light source unit comprises a PCB substrate on which at least one LED is arranged. The method according to claim 1 or 2 or 3,
Wherein the vertical hook vegetation device is installed in at least one independent carrier device. 15. The method of claim 14,
Wherein the carrier device includes a moving device at a lower portion so as to be able to move in a space. 13. The method according to claim 1 or 2 or 3 or 11 or 12,
Wherein the vertical hanger vegetation device further comprises a sensor module for controlling the cultivation environment,
Wherein the sensor module provides the control means for analyzing the sensing data to the cultivation environment data generated at the arbitrary location and controls the cultivation environment by using the control data provided by the analysis result of the sensing data, Wherein the vertical hook vegetation device comprises a module. 17. The method of claim 16,
Wherein the sensor module controls one or more of temperature, humidity, illuminance, and CO2 amount data. 18. The method of claim 17,
Based on the analysis results of the sensor module,
Cooling / heating means for cooling or heating the vertical hook vegetation device;
An irrigation means for supplying water or a nutrient solution or a culture medium to the vertical hook vegetation apparatus; And
Further comprising a ventilation means for ventilating the air of the vertical hanger vegetation device. 17. The method of claim 1 or 16,
Further comprising a horizontal moving means capable of moving along the rail in space in the first horizontal support.

Images