The present invention provides a pot seedling feeding system for a transplanter, including a conveyor unit, a detection sensor, a controller, a seedling separation unit, side plates, and support stands. The conveyor unit includes a step motor, a transmission shaft, a conveyor belt, a tensioning shaft, and bearings. The seedling separation unit includes a seedling separation rod, a reset spring, a guide post, and a support seat. The controller is used to control the step motor which drives the conveyor belt in order to move the pot seedling. When a seedling receiving barrel of the planter rises to a seedling receiving position, the planter is controlled by using a brake cable, the seedling separation rod is then ejected which in turn drives the step motor to carry a pot seedling to move forward. The pot seedling is then dropped in a seedling receiving cup of the planter. In order to improve the quality of pot seedling planting, the seedling separation rod corrects a feeding posture of the pot seedling at the moment when the pot seedling drops. The present invention is about a mechanical seedling feeding system adopting the conveyor unit and the seedling separation unit that move intermittently, where multiple pot seedlings can be placed at a time, so that the operation is simple and fast, labor is saved and the cost is reduced. Stress from missing seedlings and excessive fatigue from repetitive movement are also eliminated from the implementation of this device.

The present invention provides a pot seedling feeding system for a transplanter, including a conveyor unit, a detection sensor, a controller, a seedling separation unit, side plates, and support stands. The conveyor unit includes a step motor, a transmission shaft, a conveyor belt, a tensioning shaft, and bearings. The seedling separation unit includes a seedling separation rod, a reset spring, a guide post, and a support seat. The controller is used to control the step motor which drives the conveyor belt in order to move the pot seedling. When a seedling receiving barrel of the planter rises to a seedling receiving position, the planter is controlled by using a brake cable, the seedling separation rod is then ejected which in turn drives the step motor to carry a pot seedling to move forward. The pot seedling is then dropped in a seedling receiving cup of the planter. In order to improve the quality of pot seedling planting, the seedling separation rod corrects a feeding posture of the pot seedling at the moment when the pot seedling drops. The present invention is about a mechanical seedling feeding system adopting the conveyor unit and the seedling separation unit that move intermittently, where multiple pot seedlings can be placed at a time, so that the operation is simple and fast, labor is saved and the cost is reduced. Stress from missing seedlings and excessive fatigue from repetitive movement are also eliminated from the implementation of this device.

This patent regards the design of compact (unitary structures, implantable by themselves, residing non-deployed in small kits, able to be deployed by a single individual, and able to create identifiable meaningful sign by themselves) arrangements of live plants, plant-alike or plant-replacement materials, seedling or seeds by organized pattern seeding of plants or seeds or planting of seedlings of flowers and plants in the soil, or arrangements of plant-replacement or plant-alike material to render small scale plant pattern-designed arrangements in small areas around houses or businesses. To reach this purpose, plants, seeds or seedlings, plant-alike or plant-replacement materials will be planted, raised, arranged and/or cut in a single or multilayer fashioned compact object of good visual resolution translating into a meaningful message of pictorial, geometrical, linguistic, or various other meaningful nature.

The planter system using waste materials repurpose waste materials to construct a self-irrigating planter that promotes plant growth in a protective environment. The planter system includes a water reservoir constructed from scrap tire defining a hollow interior serving as water storage, the reservoir being buried in soil. A condensation funnel having a sloped condensation skirt extends into the center opening of the scrap tire to direct condensate into the water reservoir. A root ball cover made from scrap newspaper covers the root system of a plant, and the plant is buried in the center opening of the scrap tire. A soil protection cover is placed atop the root ball cover to protect the soil of the root ball, and a support tube extends therefrom to protect the stem of the plant from environmental conditions. A valve regulates delivery of water to the reservoir. Most components are made from scrap plastic.

The planter system using waste materials repurpose waste materials to construct a self-irrigating planter that promotes plant growth in a protective environment. The planter system includes a water reservoir constructed from scrap tire defining a hollow interior serving as water storage, the reservoir being buried in soil. A condensation funnel having a sloped condensation skirt extends into the center opening of the scrap tire to direct condensate into the water reservoir. A root ball cover made from scrap newspaper covers the root system of a plant, and the plant is buried in the center opening of the scrap tire. A soil protection cover is placed atop the root ball cover to protect the soil of the root ball, and a support tube extends therefrom to protect the stem of the plant from environmental conditions. A valve regulates delivery of water to the reservoir. Most components are made from scrap plastic.

A smart grow device includes a set of sensors with at least one camera; a set of care resources; and a controller able to at least partly control the set of care resources based on evaluation of data received from the set of sensors. An automated method of providing plant care includes: retrieving a set of sensor measurements; retrieving model plant data including a set of evaluation criteria; comparing the set of sensor measurements to the set of evaluation criteria in order to determine at least one plant status; and updating active plant data based on the at least one plant status and the set of sensor measurements. An automated plant care system includes: a set of sensors; a set of resources; multiple planters; and at least one controller able to at least partly control the set of resources based on evaluation of data received from the set of sensors.

A system and device used to substantially plug a mouth of a vessel to inhibit an article from cresting above the mouth and spilling outside the vessel and to retain a portion of the article within the vessel without damaging the article. The plug includes a first plug piece and a second plug device, which are positioned adjacent and contacting each other to form a plug body forming a plug channel. An indentation is disposed on the periphery of the plug body to correspond to and engage with a lip defining the mouth. The plug is supported by and rests within the mouth of a vessel such that a top portion of the plug rests extending above the mouth and a bottom portion of the plug rests extending below the mouth. When the indentation engages the lip, upper surfaces of the plug pieces may rest coplanar.

The present invention relates to an apparatus for breeding plants having at least two units arranged in the apparatus for the reception of a plant, wherein at least two units are arranged in a first row and at least one of these units is movable relative to at least one further unit of the first row so that their spacing from one another is changeable.

A roof-greening cassette, at least partially or predominantly having walls and/or bases made of (porous) material having pores, the porous material having the following properties: (a) a water absorption of 15 to 30 liters/m.sup.2 in the case of a material thickness of 30 mm, and (b) a water permeability normal to the plane of 8 to 16 liters/(m.sup.2 s), in the case of a water column of 200 mm and a material thickness of 30 mm.

An apparatus for treating plant diseases and infestations includes a closed receptacle configured to contain a plant and/or produce, and at least one ultraviolet light source mounted in the receptacle and configured to direct ultraviolet light at the plant. The receptacle is provided with latches and position sensors that prevent the ultraviolet source from being activated if the receptacle is open or is not securely supported on a surface.