A method for conveying and dropping seedlings based on a device for conveying and positioning a seedling tray of an automatic transplanter, wherein the device for conveying and positioning the seedling tray of the automatic transplanter includes a platform for conveying the seedling tray, a first sensor, a second sensor, a plurality of push rods, and a control system. The platform is configured for conveying the seedling tray to be below seedling picking claws. The push rods are evenly distributed on the platform. The seedling tray is placed between adjacent two of the push rods. The first sensor is mounted close to the seedling picking claws and configured for identifying the seedling tray. The second sensor is mounted on a rack of the platform for conveying the seedling tray and configured for identifying the push rods. The control system controls the platform for conveying the seedling tray.

A method and a device for propagating plants, by way of which the risk of contamination can be minimized and the costs of the production of plants can be reduced. This is achieved in that the plants to be propagated are automatically grasped by a first gripper and separated, the individual plants, hanging on the first gripper, are systematically cut into multiple clones and the individual clones are automatically transported away by a second gripper for further processing.

A planting cup and a planting device are provided. The planting cup is a hollow cup body. The planting cup has a side portion and a bottom portion each formed with a plurality of through holes. A top portion of the planting cup is formed with a first wing extending laterally outwardly. The side portion is formed with a second wing extending laterally outwardly. The first wing is spaced from the second wing by a distance. When the planting cup is disposed on a planting tray to form the planting device, the second wing leans against the planting tray. The first wing is adapted for grasping by a mechanical device or by manpower, such that the planting cup can be removed conveniently.

A seedbed supporting member and a panel supporting member are configured such that, in a state where a seedbed held in a first seedbed holding member and a through hole portion of a first panel overlap with each other, a seedbed held in a second seedbed holding member and a through hole portion of a second panel, which correspond to this seedbed and this through hole portion, respectively, overlap with each other. An arrangement spacing in a first direction between the through hole portion of the first panel and the through hole portion of the second panel corresponding to each other is equal to an arrangement spacing in the first direction between a first transplantation arm and a second transplantation arm.

The present invention provides a plant transplanting device that achieves rapid and stable transplantation with a simple structure and at low cost, prevents damage to the plants, and can be automated easily. A plant transplanting device 100 that transplants a seedbed B from a plant holder 110 to a growing pallet 120 includes a holder holding mechanism 130 for holding the plant holder 110, a pallet holding mechanism 140 for holding the growing pallet 120 above a holder holding position in which the holder holding mechanism 130 holds the plant holder 110, and a push-up mechanism 150 for pushing the seedbed B held in the holder seedbed-holding hole 111 upward so as to insert the seedbed B into the pallet seedbed-holding hole 121.

[Problem]

Provided is a continuous assemblage of pots for continuous transplanting capable of handling a seedling crop that requires a wide interval between plants, facilitated in manufacture, and reduced in manufacturing cost, and a method for manufacturing the assemblage.

[Solution]

A link piece 3 is formed by folding back both sides in a width direction of a strip-shaped sheet onto an identical face by one-sixth of a width of the sheet, using a water-soluble adhesive 21 to attach folded back inner faces, folding back the sheet onto an opposite side of the folding back by a width same as the folded back width, and using the water-soluble adhesive 21 to attach folded back inner faces. A continuous piece 13 is formed by arranging the link pieces 3 in a stagger pattern in a direction in which first folded-back portions 3a are opposed, and attaching both side end portions in the width direction of the first folded-back portion 3a in one link piece 3 to the first folded-back portion 3a of the opposed other link piece 3 using a non-water-soluble adhesive 23. An individual pot 11 is formed between the first folded-back portions 3a of the mutually opposed link pieces 3. In a transplantation of the individual pot 11, by expanding the link piece 3, the length between the individual pots 11 is increased, thus allowing handling a seedling crop that requires a wide interval between plants.

A tractor suspension type automatic transplanting machine for plug tray seedlings includes land wheels, a machine frame, a three-point linkage, a seedling pickup mechanism, a plug tray conveying device, a plug tray recovery device, seedling separating and planting devices driven by land wheels, and a watering device. Through front and rear drive cylinders, the seedling pickup mechanism is driven to move front and back to pick up seedlings above plug trays and release seedlings above a seedling guide device. Juxtaposed left and right seedling pickup modules in the seedling pickup mechanism are driven by left and right drive cylinders, to move left and right and pick up seedlings after combing, and to release seedlings after separating towards left and right. Plug trays fall onto a plug tray conveyor belt of the plug tray recovery device and slides into a plug-tray-recovery stacking box.

An apparatus having an automatically adjustable pot seedling feed rate and a method therefor are provided. In some embodiments, the apparatus comprises a pot seedling scooper, a conveyance unit, a detection sensor, a controller, a seedling sorting unit, side panels, and brackets. The conveyance unit comprises a servomotor, a transmission shaft, a conveyor belt, a tension shaft, and a bearing. The seedling sorting unit comprises a seedling sorting rod, a reset spring, a guide post and a support seat.

Provided are a plant management system and a plant management method, which do not entail a substantial workload, cost, construction period, or installation space; enable a system to be easily constructed, altered and expanded; have a small maintenance load; enable processing systems to be distributed and arranged in geographically separate locations and in locations where connecting the processing systems is not easy; and are capable of preventing the occurrence of large-scale problems. A plant management system 100 has: a plurality of processing systems 140, 150; and memory tags 112, 122, wherein processing systems 140, 150 include reader-writers 142, 152, 153 and processing devices 141, 151, and, by writing plant management data into the memory tag 112 by means of the reader-writer 142 and then reading the plant management data by the reader-writer 152 of the processing system 150, the plant management data is transferred between the processing systems 140, 150.

The transplant device is provided with; a first holding unit that holds a flat board-like culture medium in which a plurality of plants is planted in a row direction and column direction; a second holding unit that holds a flat board-like cultivation panel in which a plurality of holes for holding plants are arranged in the row direction and the column direction; a moving unit for moving the holding unit; a control unit that instructs the moving unit to move the holding unit; and a transplant unit that performs transplanting. In the transplant device, the control unit decides a transplant procedure from the culture medium to the holes of the cultivation panel based on a predetermined transplant algorithm so that a plant in the culture medium and a hole of the cultivation panel corresponding to the transplant procedure are aligned in a vertical direction when the transplanting is performed