A growspace automation system and method. The system includes a grow space with localization structures and a mobile robot. The mobile robot comprises sensors, a mobility mechanism, and a plurality of mobility modules. The mobile robot is configured to automate growspace processes, such as transport, watering, sensing, or cleaning.

A plumbing system and water transport method. The system includes a global water source, a one way water transport mechanism, a growing tray, and a local buffer. The local buffer separates the global water source and the growing tray to prevent cross-contamination of water. The local buffer also continuously provides water to the growing tray on demand without the need for filtering or dumping of used or excess water. This results in low flow, efficient water transport.

A hydroponic grow system and grow method. The system includes growing plants in grow modules that are individually moveable. The plants grow in trays where roots never touch the water supply.

A grow system. The system includes growing plants in grow modules that are individually moveable. The plants grow in trays where roots never touch the water supply. The plumbing to the grow modules is a low flow, one way flow continual drip system that is hands free. A mobile robot can navigate around a growspace, bring any grow module from one location to another, and perform growspace operations. The growspace is a control space with data source zones and a control space manager. The control space manager can collect data and control different variables across different data source zones in order to determine optimal policies and conditions for data source growth and generation.

An insect suppression device, and further relates to a self-moving device, a charging station, and an automatic working system that are mounted with the insect suppression device are provided. The self-moving device moves in a working area, performs a working task, and includes: a body and a movement module that is mounted on the body and drives the self-moving device to move. The self-moving device includes: an insect suppression device, mounted to the body, and a control module, controlling the movement module to move and controlling the insect suppression device to work. The beneficial effects of the present invention are as follows: The self-moving device can move autonomously in the working area and perform an insect suppression task, and has a wide coverage area, flexible work, and high efficiency, so that automatic control can be implemented, thereby freeing a user from the harassment of insects.

A communication method for a water pump includes detecting whether the water pump receives connection data transmitted by a first control system after the water pump is powered on. The communication method also includes determining a target communication mode of the water pump based on the connection data, in response to a detection that the water pump receives the connection data and that a communication mode of the first control system is the same as a current communication mode of the water pump. The communication method further includes communicating with a second control system indicated by the connection data based on the target communication mode.

Disclosed herein is an insect control system that involves injection of hot liquid (e.g. water or other ecologically suitable liquid) into a mound or nest of target insects. The system includes a tank, a heating component, a hose, a pump and an injector component. The system may further include an actuator to control release of hot liquid through the injector component as well as components to keep the operator safe from hot liquid. Typically, the tank will hold a volume of liquid and the system heats the liquid to about 150 F. or more.

A sowing apparatus controlling method includes obtaining a target opening size of a discharge port and a target rotational speed of a turntable, obtaining a safe rotational speed of the turntable according to the target opening, and controlling a next-instance rotational speed of the turntable and a next-instance opening size of the discharge port according to the target rotational speed and the safe rotational speed.

A grow system. The system includes growing plants in grow modules that are individually moveable. The plants grow in trays where roots never touch the water supply. The plumbing to the grow modules is a low flow, one way flow continual drip system that is hands free. A mobile robot can navigate around a growspace, bring any grow module from one location to another, and perform growspace operations. The growspace is a control space with data source zones and a control space manager. The control space manager can collect data and control different variables across different data source zones in order to determine optimal policies and conditions for data source growth and generation.

The present invention relates to a method for distributing particulate material in a target area. The method comprises the steps of (i) providing in a reservoir particulate material comprising particles to be distributed in a target area, which reservoir is provided with exits, (ii) providing a gas displacer, (iii) generating with the gas displacer a forced gas flow in the blow direction, and iv) directing the particles from the exits in the forced gas flow. The invention further relates to a device for performing the method according to the invention. Further aspects of the invention relate to the use of the device for distributing particulate material, a gas flow modification device, the use of such modification device for modifying the gas flow in a device for distributing particulate material and a kit of parts comprising (a) the gas flow modification device and (b) a device for distributing particulate material.