BR202013014690U2 - PROVISION INTRODUCED IN VERTICAL HOUR - Google Patents

Abstract

               R E S U M THE “ARRANGEMENT IN VERTICAL HOUR”. This is a new arrangement in a vertical garden, developed for the gardening sector, which has the possibility of displacement and protection system against the proliferation of insect larvae and whose capillary irrigation system is self-regulating and independent, consisting of 3 planting units (1,2,3) with 8 micro tubes (10), cylindrically shaped central supports (4,5) with openings (7) at their upper end and base nozzle (8) (9) , casters (12) and irrigation wicks (11), transparent container (13) with mosquito cap (14) and cap (16), rubber hose (15). 1/1

Description

VERTICAL PLANT PROVISION ”This report deals with an arrangement in a vegetable garden, or vertical garden, consisting of 3 circular-shaped planting units. This arrangement, whose irrigation system is capillary, is intended for the gardening sector.

Nowadays, growing plants and food at home is a trend as it matches the healthy and sustainable lifestyle desired by many. However, the special care that good planting requires and the adaptation, or accommodation, of a flowerbed or garden in small spaces, such as an apartment, often end up as an obstacle for those seeking a better quality of life. Proper lighting, ventilation, room temperature, irrigation, and pots are the primary and most necessary special precautions for the development of good planting. Also considered important is that plants and food are free of pesticides and protected from insect larvae proliferation.

All prior art models present one or more of the above drawbacks. Most existing models are fixed, compromising planting by too much or too little sunlight, too much or too little ventilation, high or low ambient temperatures, etc .; the pots or beds are small or arranged in a way that makes it difficult for the user to handle and grow varied plants and foods; The irrigation system of all models requires external elements such as user assistance, power grid, etc.

As vertical bed models incorporating the state of the art we cite the documents: PI 1003120-0 A2 and PI 0401520-7k.

In the hydroponic PI 1003120-0 A2, as is the case with most known vertical beds, the form of irrigation works by a closed cycle where water circulates through the root system of the plants that removes the nutrients necessary for its development. It is a relatively technical system that requires knowledge from the user. Its operation usually depends on mains, and may in some cases be by battery. This system is not self-adjusting and independent.

In turn, PI 0401520-7k uses the vertical water percolation system, which increases the volume of water to be supplied according to the velocity that penetrates the earth. This irrigation system may saturate or flood the site, compromising the good development of the plantation.

Still other models use the surface irrigation system, which requires hoses connected to a water tank or an external water network that injects water into the top that goes down by gravity. The system does not self-regulate and may cause the amount of water supplied to be insufficient or excessive for the plant.

We also find document MU 8002484-0, developed by this applicant, in which irrigation is done by internal and external planting cells and by an external water circuit that provides automatic irrigation of the site, being the same suspended by current. or leaning on the floor.

Thus, through research conducted since the application of MU8002484-0, this holder has developed the “Arrangement introduced in vertical garden” that differs in a functional and practical way from all models that understand the state of the art. The new on-site layout features an innovative, easy to assemble and self-adjusting structure and irrigation system. The Utility Model “Arrangement introduced in a vertical garden” is made of plastic material, being more durable and lighter. The structure of the claimed model is made up of units that are snapped together to form the body of the object.

Thus, the Utility Model “Arrangement Introduced in a Vertical Vegetable Garden” is composed of 3 planting units (1,2,3) independent of each other and of circular shape that favors the handling of the planting of plants and varied foods. The planting units (1,2) are coupled to central supports (4,5), which are also water supply reservoirs. The planting units (1,2) are coupled to the central supports (4,5) through prominences (6), which fit into the openings (7) of a specific shape, providing a uniform locking between the planting units (1, 2) and the central supports (4,5), thus avoiding movement of the parts when subjected to stress.

The prominences (6), in addition to allowing the fitting between the planting units (1,2) and the central supports (4,5), serve as drainage for the excess water flow from the planting units, since they are perforated at its base.

In each of the central supports there is a concave nozzle (8) to provide the user with water to the planting units (1,2). The planting unit (3) is fitted into the base (9) which supports the body forming the vertical garden and water supply reservoir for the unit (3). Both the base (9) and the central supports (4,5) can hold up to 2.5 liters of water. It is important to highlight that each planting unit (1,2,3) has an independent water supply reservoir.

In each planting unit (1,2,3) there are 8 micro tubes (10) through which the irrigation wicks (11) pass, which are strands with great power of water absorption, and drains the water from the respective unit.

At the base (9) are the castors (12) that allow the displacement and rotation of the vertical garden so that the planting can be in a more appropriate place, favoring a better development of the plant or food grown.

On the outer side of the base (9) is the transparent container (13) with anti-mosquito lid (14). The transparent container (13) serves to supply water to the planting unit (3) and to indicate the water level that is accumulated. The transparent container (13) is connected to the base (9) by the rubber hose (15). Still at the base of the transparent container (13) is a plug (16) which has the function of blocking the water drain.

As we advanced in the initial lines, the claimed model presents an unprecedented irrigation system. This system works by capillarity through irrigation wicks (11), which are inside each planting unit (1,2.3). Water, manually placed in the water supply reservoirs (4,5,9), is automatically transferred to the plant, keeping it irrigated according to its needs.

In summary, the irrigation system of this Utility Model occurs when the water, placed in the water supply reservoirs (4,5,9) of the planting units (1,2,3), rises through the irrigation wicks (11). ), defying gravity, until it finds micro tubes (10), reaching “terra'Vsubstrato” in the planting unit above. In this way, the roots of the plants absorb moisture contained in the soil, creating a negative tension, causing the water from the water supply reservoirs to rise through the irrigation wicks (11) to the soil / substrate of the planting unit. The more the plant loses moisture to the environment, the more water rises through the irrigation wicks (11). The soil can also lose water by evaporation. In this case a negative soil tension is also created and moisture rises through the irrigation wicks, always keeping the soil with water in its micropores, which is considered an ideal moisture. In soil macropores oxygen is retained to the plants. Therefore, in this irrigation system the plant always has available moisture and absorbs what it needs.

Another differential of the vertical bed arrangement described here is its versatility. The displacement or rotation made possible by the placement of casters (12) in the base (9) allows the user to take advantage of local climatic conditions. For example, in a very windy place you can move the flower bed to a protected location. The same happens when there is a lot of rain or a lot of sun, you can move the flowerbed protecting it from these inconveniences if necessary. The structure and format of the Utility Model “Arrangement introduced in a vertical garden” was developed to solve the problem that many users encountered when handling the site and also for the best use of space and water storage.

This invention will be more intelligible with the help of the following figures: Fig. 1 - perspective view of the vertical garden.

Fig. 2 - top perspective view of the vertical garden.

Fig. 3 - exploded view of the vertical vegetable garden assembly.

Fig. 4 - Bottom perspective view of the central support or water supply reservoir of the planting units (1,2).

Fig. 5 - perspective top view of the central support or water supply reservoir of the planting units (1,2).

Fig. 6 - Front view of a planting unit.

Fig. 7 - top view of a planting unit.

Fig. 8 - Bottom perspective view of a planting unit.

Fig. 9 - Bottom perspective view of one of the planting units with irrigation wicks (11).

Fig. 10 - perspective view of the base (9).

As can be seen, the new “VERTICAL PLANT PROVISION” presents an inventive concept that differentiates it from the current state of the art. Its functional features have advantages for the gardening industry, which gives it patent rights.

Claims (1)

1 - “PROVISION INTRODUCED IN VERTICAL ORDER”, being an arrangement in a vegetable garden or vertical garden, characterized by 3 planting units (1,2,3); It is circular in shape and has 8 micro tubes (10) in its central portion, with the planting units (1, 2) coupled to central supports (4,5); cylindrically shaped central supports (4,5) having openings (7) at their upper end and nozzle (8); prominences (6) located on the underside of the planting units and which fit into the openings (7) of the central supports (4,5); openings (7) located at the upper end of the central support (4,5); nozzle (8) located at the upper end of the center support; micro tubes (10) located in the inner circumference of the planting units, and through which the irrigation wicks (11) pass; base (9) located at the bottom of the vertical garden, where the planting unit (3) is fitted; casters (12) located at the bottom of the base (9); transparent container (13) located on the outside and bottom of the base (9), with mosquito lid (14) and cap (16); rubber hose (15) located at the lower end of the transparent container (13) in connection with the base (9).