The disclosure relates to a planter.

A watering system including a receptacle including a fluid flow generator and a fluid flow generator controller which releasably couples to a fluid reservoir containing a fluid which can be transferred by operation of the fluid flow generator from the fluid reservoir to a plurality of fluid flow meters which can be disposed in spaced apart relation to correspondingly deliver the fluid to a plurality of spaced apart locations. In particular embodiments, a plurality of potted plants can be disposed in spaced apart relation and one more of the plurality of fluid flow meters can be correspondingly located to deliver the fluid to each of the plurality of potted plants.

An automated modular plant growing system includes a rack structure with primary guiding tracks and secondary guiding tracks transverse to each other, and upper guiding tracks in parallel and above the primary guiding tracks. The automated modular plant growing system also includes a plurality of mobile modules detachably connected to the upper guiding tracks and to a nutrient solution supply system.

A submersible member can include an elongated body defining an outer body surface, the body defining a top end and a bottom end; a base electrode extending through the outer body surface; a first conductive member extending through the body from the top end to the base electrode, the first conductive member connected in electrical communication with the base electrode; an indicator electrode extending through the outer body surface, the indicator electrode positioned between the top end and the base electrode; and a second conductive member extending through the body from the top end to the indicator electrode, the second conductive member connected in electrical communication with the indicator electrode.

A water collector and drain for a scaffolding, having: the scaffolding having at least one horizontal beam and at least one vertical beam; a fabric basin coupled to the at least one horizontal beam, the fabric basin having an open end and a concaved end; a drain exit fluidly connected to the fabric basin at the concaved end; and a connection arrangement for attaching the fabric basis to the at least one horizontal beam such that the open end at least partially extends past the horizontal beam of the scaffolding.

A plant water pot that automatically provides regular water to a plant and indicates a reduced water level. The plant water pot includes an inner wall that terminates at a lower end of a platform defining a receptacle in communication with an upper opening of the container. An interior volume is defined between the inner wall and the outer wall, while the interior volume retains a fluid. Nozzles are disposed about the inner wall and the nozzles are in fluid communication with the interior volume. A pump is disposed within an interior volume and is operably connected to each of the nozzles. An inlet is disposed through the upper wall and the inlet provides access to the interior volume.

The present disclosure relates to a soil testing device, which includes at least one sensor assembly, after the sensor assembly is inserted into soil, the sensor assembly and the soil cooperatively form a battery cell; and an analog meter, electrically connected with the at least one sensor assembly, the at least one sensor assembly is configured to transmit a micro current of the battery cell reflecting a measure of soil characteristic to the analog meter, the analog meter is configured to display a value reflecting the soil characteristic.

A soil testing device includes a housing, a display unit, and at least one sensor assembly. The display unit is disposed on the housing. The at least one sensor assembly is rotatably connected to the housing, and the at least one sensor assembly is electrically connected to the display unit. The at least one sensor assembly is configured to insert into soil and output an electrical signal corresponding to a soil parameter, and the display unit is configured to display a value of the soil parameter corresponding to the electrical signal output by the at least one sensor assembly.

A plant cultivation object includes a body having an upright orientation and extending along a longitudinal axis, the body having external walls with plant cavities. Plant holders are receivable in the plant cavities. The plant holders have one or more outer walls and one or more inner walls spaced inwardly from the outer walls. The one or more inner walls delimit a hole. The plant holders are resiliently deformable. The plant cultivation object is rotatable about its own axis.

A rollable five-device-in-one flower container and umbrella stand comprises: a container having multiple walls and a bottom, water-regulating channels formed in the bottom, two wheel wells formed in the bottom, anti-rolling claws formed in the bottom for digging into the ground on a slope to prevent the five-device-in-one flower container and umbrella stand from sliding down the slope, an umbrella-pole receiver screwed on the bottom, U-shaped and J-shaped spring clamps hooked on the umbrella-pole receiver for creating a clamping force therebetween, two wheels partially hidden in the two wheel wells, a tubular double-wall water reservoir having spiral water-distributing tubes and spiral water-regulating foams for spirally and timely discharging the water, and spiral water-circulating slides spirally welded or molded to the walls for spirally creating multiple spiral tractions, multiple spiral layers, multiple spiral travel distances for soil and water to create multiple spiral root growths and multiple spiral nutrition absorptions.