Plant growing heavy weight bearing support assembly

Abstract

A plant growing apparatus of a hydroponic and / or aeroponic plant growing system includes a support assembly and a pair of height control mechanisms. The support assembly includes a bottom platform, supported and mobilized by corner caster wheel devices, and top and intermediate platforms, vertically spaced apart from one another and the bottom platform by upright corner posts rigidly affixed at the corners of the bottom platform. The intermediate platform may be manually raised or lowered along the posts. The height control mechanisms are concurrently operable to raise or lower the top platform along the posts. In addition to the plant growing apparatus, the plant growing system also includes light modules supported by the top platform, plant grow cells supported by the intermediate platform below the light modules, and a water reservoir and pump on the bottom platform and connected in communication with the plant grow cells and height control mechanisms.

Description

CROSS REFERENCE TO RELATED APPLICATION[0001]This U.S. Non-provisional patent application is a Continuation of co-pending parent of U.S. Non-provisional patent application Ser. No. 14 / 814,788, filed on Jul. 31, 2015, which, in turn, claims the benefit of co-pending U.S. Provisional patent application No. 62 / 193,767, filed on Jul. 17, 2015. Each application identified above is hereby incorporated-by-reference in its entirety.FIELD OF THE INVENTION[0002]The present invention relates generally to indoor farming, and more particularly, is concerned with a high load-bearing modular support assembly for enabling and facilitating flexible, scalable and dynamic, hydroponic and / or aeroponic indoor vertical farming.BACKGROUND OF THE INVENTION[0003]There is an increasingly popular view that the Earth's population growth will outstrip resources essential to food production within the next 30 years and, furthermore, that upwards of 80 percent of this additional population will primarily reside wi...

AI Technical Summary

Benefits of technology

[0008]The present invention is directed to an innovation that overcomes the aforementioned, as-of-yet unsolved, deficiencies and problems, via the provision of a high weight-bearing plant growing support assembly, apparatus and system enabling and facilitating a flexible and scalable dynamic indoor vertical farming system, which will foster revitalization of abandoned and / or inactive commercial and residential buildings.

Problems solved by technology

Usable farmland and fresh water supplies are being depleted at an ever-increasing pace.

But, this has come at a cost, with innovation-driven farm practices responsible for many of the most pressing issues surrounding food safety and production sustainability.

Today, a vast majority of foods are produced that are over-processed, loaded with harmful chemicals, and virtually devoid of nutritional value and taste.

Indoor farming within city boundaries—and, more particularly, indoor vertical farming—is not new.

However, its growth has been stymied and it has failed to gain the traction necessary for mainstream appeal and acceptance.

Despite the growing desire for organic foods and the popularity of hydroponic growth of food plants, most manifestations of indoor vertical farming have been relatively small, spotty individual efforts, such as, for example, greenhouses on rooftops or perhaps spread across a few acres of ground, or crude setups in relatively small warehouses.

These limited efforts are at least partly due to underdeveloped strategies resulting from narrowly-focused thinking.

However, a major obstacle remains when it comes to the challenge of economically beneficial conversion of such excessive indoor spaces for creating indoor vertical farming.

That is, until now, there has been a lack of adequate equipment having the necessary characteristics, such as high load-bearing capability (enabling growth of heavier vegetables, potatoes, etc.), highly-efficient use of space, and a flexible design lending itself to scalability, which would greatly facilitate implementation of plant growing modules that could be easily transported from location to location along a support surface (e.g. an underlying floor), combinable to form optimized plant growing systems, and easily disassembled and reconfigured, or transformed, for maximizing efficient implementation across myriad varying application-specific pre-existing indoor space configurations.

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