20240023501. CONTROLLED ENVIRONMENT AGRICULTURE SYSTEM INCLUDING MULTIPLE GROW SPACE CONDITION ZONES simplified abstract (MJNN LLC)

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CONTROLLED ENVIRONMENT AGRICULTURE SYSTEM INCLUDING MULTIPLE GROW SPACE CONDITION ZONES

Organization Name

MJNN LLC

Inventor(s)

Andrew Keith James of San Francisco CA (US)

Michael Ryan Baldwin of Laramie WY (US)

Alan Colbrie Schoen of Los Gatos CA (US)

Nathaniel R. Storey of Laramie WY (US)

Gage Goodspeed Coffin of Los Altos Hills CA (US)

Michael Peter Flynn of Palo Alto CA (US)

Paul Bryan Kreiner of Menlo Park CA (US)

CONTROLLED ENVIRONMENT AGRICULTURE SYSTEM INCLUDING MULTIPLE GROW SPACE CONDITION ZONES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240023501 titled 'CONTROLLED ENVIRONMENT AGRICULTURE SYSTEM INCLUDING MULTIPLE GROW SPACE CONDITION ZONES

Simplified Explanation

The patent application describes a controlled environment agriculture system that consists of multiple grow zones where plants and environmental equipment are cycled during the growth phase of farm production. The system includes environmentally-controlled growing chambers and interfaces for transferring grow containers between the chambers. Each growth chamber has environmental control systems and sensors to regulate various environmental conditions.

  • The system includes multiple grow zones for cycling plants and environmental equipment during farm production.
  • It consists of environmentally-controlled growing chambers and interfaces for transferring grow containers.
  • Each growth chamber has environmental control systems and sensors to regulate environmental conditions like temperature, airflow, humidity, and carbon dioxide content.

Potential Applications:

  • Indoor farming: The system can be used for indoor farming to provide optimal growing conditions for plants.
  • Research and experimentation: It can be used in research facilities or educational institutions for studying plant growth and testing different environmental conditions.
  • Urban agriculture: The system can be implemented in urban areas where space is limited, allowing for efficient and controlled farming.

Problems Solved:

  • Inconsistent environmental conditions: The system solves the problem of maintaining consistent and optimal environmental conditions for plant growth.
  • Limited space for farming: It addresses the issue of limited space by providing a controlled environment for farming in compact areas.
  • Environmental control automation: The system automates the regulation of environmental conditions, reducing the need for manual monitoring and adjustments.

Benefits:

  • Increased crop yield: The controlled environment ensures optimal conditions for plant growth, leading to higher crop yields.
  • Year-round farming: The system allows for year-round farming regardless of external weather conditions.
  • Resource efficiency: By precisely regulating environmental conditions, the system optimizes resource usage, such as water and energy.
  • Reduced reliance on pesticides: The controlled environment reduces the need for pesticides and other chemicals, promoting sustainable farming practices.


Original Abstract Submitted

a controlled environment agriculture system including multiple environmental grow zones through which plants and/or lighting or other equipment that influence environmental equipment are cycled during the growth phase of farm production. in one implementation, the system includes multiple grow zones through which plants are cycled during the growth phase of farm production. the system may include a first environmentally-controlled growing chamber, a second environmentally-controlled growing chamber, and one or more interfaces to allow a conveyance mechanism to transfer grow containers between the chambers. each growth chamber may include environmental control systems, and associated sensors, for regulating at least one environmental condition, such as air temperature, airflow speed, relative air humidity, and ambient carbon dioxide gas content.