WO2009065974A1 - Automatic suction-based plant handling system - Google Patents

Abstract

The invention relates to an automatic suction-based plant handling system containing a robot (4, 12) including a manipulator, the end of which is provided with a plant securing tool (7) connected to two flexible tubes (3, 2) by means of a valve (6). One of the tubes (3) connects the plant securing tool (7) to a suction pump (1), while the other tube (2) connects the plant securing tool (7) to an air compressor (13). The case (9) containing the plants (8) is positioned on a supporting base (10). A plant conveyor belt (11) is positioned within reach of the robot (4) manipulator.

Description

 Automatic system for handling plants by aspiration

Automatic plant management is used to reduce the workforce in various tasks in the agribusiness sector. This sector in recent years has been dragging a strong dependence on the workforce, often in very short periods of time, therefore it is very difficult to find people to perform these tasks and negatively incurring the economic results of the sector and often limiting for such activity.

Some solutions designed to help reduce these problems are transplant machines that move through the field guided by tractors or self-propelled and that manipulate the plants mechanically, generally placing them in trays with alveoli. There are also fixed solutions, designed to work in warehouses or centers of production or multiplication, such as systems for automatic movement of pots or growing containers with plants. The passage of plants from culture trays with alveoli to pots, or to other trays with larger alveoli, or to any type of cultivation container. The filling of trays to replace germination or multiplication failures and also to unify plants in the same tray according to their size. These solutions are based mainly on systems that depend on cultivation trays with some rigidity that guarantee an exact position of the plants to be able to manipulate them. Some disadvantages of these systems are the direct damage caused to the plants in their handling, the transmission of germination or multiplication failures in the cultivation trays to the field, the need to transport large quantities of trays to the field and the increased risks of transmission of pests and pathogens from the field to the multiplication areas, via trays. In turn, high transport costs are generated in the movements towards the field and return of the cultivation trays to the multiplication centers.

The invention provides a simple solution that considerably reduces labor without damaging plants and increases efficiency in the production chain. The present solution is about an automatic system for the management of plants based on aspiration, which is formed by a robot where a tool is attached to which the plants are fixed by generating an air current produced by a pump suction connected to said tool by means of a flexible pipe. This suction pump generates the necessary force so that the plants are fixed to the tool and can be manipulated by the robot.

This system has notable advantages in that it does not cause damage to the plants when handling them, such as chafing, cutting, crushing of roots and leaves, reducing the stress of the plants in the cultivation phases. Another improvement is that it does not base its operation on a cultivation tray, since the plants are placed loose and together in boxes, allowing to introduce a higher density of plants, consequently reducing transport and storage costs. This allows to unlink the multiplication and cultivation phase, from the mechanization of the different processes and operations of the production chain, allowing to have the adequate tray for the growth of the plants and not having the need for the plant to have a certain amount of roots. to be able to handle it and / or certain measures of root ball, and / or a certain height of the plant. All this allows the plant to be cultivated in optimal conditions, reducing the stress levels of the same and consequently increasing its productivity. Another advantage is that the trays or culture vessels do not need to be transported to the field, not being exposed to high levels of contamination and not transmitting this contamination to the multiplication areas, especially viruses and various quarantine diseases and transmitting agents. thereof. When changing the plants of the trays or containers of culture for boxes, can be eliminated at this time the multiplication failures, possible diseases, in short the plants that do not meet the desired level of quality and make a classification by sizes, impacting again on a direct increase in the productivity of all activity. In turn, this system presents the possibility of integrating as a complement to other semi-automatic, fixed or mobile solutions, self-propelled or guided by tractors, contributing to reduce labor needs. The invention will be described below by means of an example and with reference to the attached figure, in which an application of the invention is depicted in a drawing of. set.

Figure 1 consists of a structure 15 in which the other parts of the system are located, a safety barrier 14 that delimits the work area, preventing damage from possible collisions with different objects or people who can enter the work area of the robot manipulator 4. The box 9 with plants 8 is placed in a box holder 10, which has a necessary inclination, from 60 ° to 20 ° with the horizontal, so that the plants 8 do not fall when they are handled. The robot controller 12 programmed according to the requirements demanded by the automatic system, gives the movement orders to the robot manipulator 4. Fixed to the latter are the pipe support 5, which holds the air manipulator to the robot 4 compressed 2 and for air in depression 3. The plant fixing tool 7 designed specifically for high suction efficiency is also attached to the robot manipulator 4. At one end of this tool for fixing the plants 7 is the valve 6 that gives way to the air in depression generated by the suction pump 1, which maintains in the flexible pipe for air in depression 3 the force that guarantees the fixation of the plants 8 to the tool for the fixation of the plants 7, so that the manipulator of the robot 4 can move the plants 8, from the box 9 to the conveyor belt of plants 11, or vice versa, where it releases them by closing the valve 6 in the flexible pipe in depression 3 and opening in the flexible pipe for compressed air 2 giving way to the pressurized air, generated by the air compressor 13, causing the plants 8 to be released from the tool for fixing the plants 7 in a very short instant of time.

Claims

Claims 1. A new automatic system for the management of plants by aspiration, which is characterized by containing a robot (4, 12), which presents at the end of the robot manipulator (4), a tool for fixing plants (7 ), connected to two flexible pipes (3, 2), by means of the valve (6). The pipe (3) connects the tool for fixing the plants (7) to the suction pump (1) and the pipe (2) connects the tool for fixing the plants (7) to an air compressor (13 ). The box (9) containing the plants (8) is positioned on the box support (10). The plant conveyor belt (11) is positioned in the scope of the robot manipulator (4). 2. This automatic system for handling plants by aspiration according to claim 1, contains a tool for fixing the plants (7) characterized by containing a hermetic cavity inside, except in the area of fixing plants, where it presents a design of cuts and / or holes, across the width and in the lower half of the entire tool for fixing the plants (7), depending on the type of plant (8) and box (9) used. 3. According to claim 1, the automatic system for handling plants by aspiration, comprises a box (9), which is characterized in that it contains the plants (8) placed in lines, keeping symmetry with the walls of the box (9 ) and loose, without any structure that holds them inside the box (9). This box (9) is placed in the support (10) forming the base of the box (9) with the horizontal, an angle between 20 ° and 60 °. 4. The automatic system for handling plants by aspiration according to claim 1, is characterized by the possibility of its integration into other work systems in motion, whether self-propelled or guided by tractors and can also be integrated into other fixed work systems.