MD4286C1 - Device for administration of phytosanitary substances in woody plants - Google Patents

Abstract

The invention relates to the field of horticulture and forestry, namely to a device for administration of phytosanitary substances in woody plants.The device, according to the invention, comprises an absorption chamber (6), a demountable transfer-dosing chamber (3), comprising a one-way membrane (5) and a feed micropump (4), and a supply tank (2) for phytosanitary substances, the device further comprises a control system (1) and a plastic strap-type collar (11), provided with a clamping plate with adjustable flat spring (12) for fixation on the stem of the plant (9).The result is to provide a controlled absorption of phytosanitary substances by pseudoroots.

Description

The invention refers to the field of horticulture and forestry, namely to a device for administering phytosanitary substances in woody plants.

The administration of phytosanitary substances is done for multiple purposes, mainly to prevent and treat diseases and pests, as well as to stimulate the growth and development of fruit formations or to inhibit the development of some morpho-structural parts, and the administration of dyes is done in order to paint the wood in forestry operations, etc. These products, in addition to the high manufacturing cost, present a high toxicity for humans, plants and the environment, which is why it is necessary to use controlled administration procedures, which allow the optimal administration of the solution, with the elimination of active substance losses and others.

In this sense, a current problem related to the exploitation of plantations is the proliferation of diseases and pests, which have an increasing weight. Their prevention requires the application of expensive treatments, which constitute up to 30...35% of the production costs. Pesticides used in the fight against diseases and pests, in addition to their favorable effect, lead to the pollution of the environment and the harvest, but also to the emergence of the phenomenon of resistance of pathogens and pests to pesticides, increasing their degree of aggressiveness. Also, these treatments require high expenses related to their administration (specialized equipment, substances, labor), at the same time accentuating soil subsidence. In recent years, there are studies on the integrated and rational combating of vine diseases and pests by increasing the weight of biological and biotechnical sanitary phytoprotection in order to eliminate highly toxic and polluting pesticides [1].

The application of phytosanitary substances is done by several methods: by spraying with different machines with foliar administration (most treatments), by administration on the ground and, less often, by injection into the soil or directly into the plant, respectively in the heartwood and sapwood or application on the periderm .

Currently, there are studies for the development of systems that ensure the administration of minimum quantities necessary to combat some diseases or pests, under the strict conditions imposed by climate, pedological and dendrological factors, which aim to develop application procedures by spraying with ultra-low volumes of solutions, using electrostatically charged drops [2, 3, 4].

A system is known that allows a high degree of directing the solutions to the leaf and mitigating the danger of contamination when spraying [5].

A solution recovery tunnel is known that does not touch the foliar apparatus, when spraying is used [6].

These technologies have disadvantages related to the high cost price and require the involvement of a specialized workforce.

The closest to the claimed invention is a system for administering phytosanitary substances by injection through the free end of the root of a tree sapling, located in a delivery chamber [7].

This system is limited by the detectable presence in the surface area of the soil of a root in young trees, where the limit zone of the root system can be identified.

The device for administering phytosanitary substances through pseudo-roots removes the disadvantages specified above, in that controlled and autonomous administration of phytosanitary products is carried out, directly by transfer into the circulatory system of the plant.

The problem that the invention solves consists in the use of an autonomous device applied to the trunk of the plant, which allows the controlled absorption of substances with phytosanitary active principles, growth stimulants, inhibitors, etc.

The device for administering phytosanitary substances in woody plants includes an absorption chamber, a demountable transfer-dosing chamber, which contains a unidirectional membrane and a feeding micropump, as well as a supply tank for phytosanitary substances, at the same time the device also includes a system control and a clamp-type plastic collar equipped with an adjustable leaf spring pressure plate for attachment to the plant trunk.

The absorption chamber of the device is made of opaque plastic material or with a reflective surface with a volume depending on the type of plant and the microclimate conditions and is provided with a recess for the introduction of the pseudo-roots of the plant.

The supply tank is made of compartmentalized plastic mass resistant to UV rays, white or with a reflective surface, it has a parallelepipedal shape and is provided with a support for fixing the control system.

The unidirectional membrane is made of a microporous millipore type polymer material, insoluble and inert when in contact with phytosanitary substances.

The micro feed pump is made with the possibility of piezoelectric actuation.

The device is equipped with sensors for determining atmospheric temperature and humidity.

The device control system is implemented with the possibility of receiving signals from a control center.

The device is fixed on the plant, close to the ground, where the previously stimulated pseudo-roots are found and developed in the absorption chamber, which ensure the uptake of the solution by the plant; the supply of the absorption chamber with the basic solvent (pure water) is done through a continuous or periodic supply system, separate from the supply of the phytosanitary solution, whose concentration is regulated by the supply micropump when passing through the membrane in the supply tank; the regulation of the phytosanitary substance concentration is done automatically, remotely, from a control center.

The device is mounted manually, on each individual stem, when fruiting cutting is carried out during the period of vegetative rest. The change of the supply tank is done annually, and the change of the installation location on the plant is done once every 3...4 years. The supply tank and the transfer-dosing chamber, respectively, the surface of the transfer membrane can have different type-dimensions, depending on the size and type of the plant and depending on the climatic regime. The control and monitoring of the diffusion of phytosanitary substances in the circulatory system of the plant is done remotely, by remote control from a local control center, either automatically or through parallel systems (internet, mobile phone).

This device uses the circulatory system of the plant as a mechanism for spreading phytosanitary substances, thus ensuring a good penetration of the active substances in all tissues. The device for administering phytosanitary substances through pseudo-roots uses tiny amounts of phytosanitary substances for the administered treatments, compared to the devices, respectively the methods currently used, the entire amount of treatment substance being introduced into the plant, thus eliminating environmental and soil pollution. In the case of using the claimed administration device, the amount of treatment substance that reaches the harvested product is implicitly smaller, being entirely metabolized.

The result consists in ensuring a controlled absorption of phytosanitary substances by the pseudo-roots.

The result is due to the absorption of phytosanitary substances by artificially stimulated young roots, previously developed in an absorption chamber, which ensures the intermittent uptake of active substances from the supply reservoir through a unidirectional transfer membrane with a remote-controlled micropump.

By applying the invention, a number of advantages are obtained, namely:

̶ elimination of phytosanitary substance losses;

̶ elimination of soil and water pollution;

̶ achieving considerable savings by eliminating the use of complex machines, respectively by merging some operations and by reducing operating expenses;

̶ allows automatic or remote real-time control and regulation of operating parameters, depending on the microclimate;

̶ eliminating the aggression exerted on the stem of woody plants;

̶ eliminating the intoxication of the service operator with harmful substances.

In the following, the invention is explained through an embodiment and the drawings in fig. 1-4, which represent:

̶ fig. 1, the application position on the plant trunk of the device;

̶ fig. 2, longitudinal section with the structural-functional components of the device;

̶ fig. 3, cross section of the device in the socket area;

̶ fig. 4, the stages of preparation for the installation of the administration device by absorption by pseudo-roots of phytosanitary substances in woody plants.

The device for administration by absorption of phytosanitary substances in woody plants by pseudo-roots is applied on the trunk of the plant, close to the ground, in an accessible area (fig. 1) and consists of the following structural-functional elements, shown in figures 2 and 3 , in which:

1- control system, consisting of battery, antenna, the control element receiving a signal from a local center or a human operator respectively with automatic control by assessing the indicators of humidity, temperature and initial infection conditions, but which can also be accessed through parallel systems (internet, mobile phone);

2 - supply tank with active substances, compartmentalized for several types of compatible substances, delivered through a single diffusion membrane or through several membrane sectors; the tank is made of UV-resistant plastic mass, white or with a reflective surface so that it can be used for the entire duration of the device's operation of 3...4 years; it is parallelepipedal in shape, provided with a support for fixing the control system 1;

3 - transfer-dosing room;

4 - piezoelectrically actuated micro feed pump with a role in driving, transferring and dosing the treatment solution;

5 - transfer membrane that allows the unidirectional passage of the concentrated active substance; it is insoluble and inert in contact with phytosanitary treatment substances, made of "millipore" type microporous polymeric materials;

6 - absorption chamber that is made of opaque plastic material or with a reflective surface, with the volume depending on the type, the size of the plant and the microclimate conditions, with the possibility of recharging the two fluids, pure water and the phytosanitary solution;

7 - phytosanitary solution;

8 - the pseudo-roots, which are stimulated and developed previously;

9 - the trunk of the woody plant;

10 - the bonding area close to the ground;

11 - wide plastic clamp type necklace;

12 - pressure plate with lamellar spring, adjustable to allow adaptation to the dimensions of the trunk as it grows;

13 - drilling machine;

14 - abrasive brush;

15 - substance applicator.

The phytosanitary solution 7 in the device is gravity-fed in concentrated form from the feed tank 2 and has a low freezing point and long-term stability. The device is mounted at a short distance from the ground 10 and preferably in the north direction to be protected from the sun's rays.

The pseudo-roots are obtained in three stages, specified in fig. 4, as follows:

- removal of the outer layer (epidermis and bark), up to the leading bundles of the stem, xylem and phloem (fig. 4a);

- mounting an applicator of rooting substance impregnated in spongy material, for example mineral wool (fig. 4b);

- installation of the absorption chamber in which the already formed root is inserted (fig. 4c).

This device is applied to the trunk of the tree, in an accessible area, involving the three stages presented above. Thus, the installation is done immediately after the appearance of the pseudo-root primordia (fig. 4c), which are inserted into the absorption chamber 6 through a socket with a jack-type system for attachment to the fixing collar 11; in the lower part of the tank is mounted the body that includes the transfer membrane 5 and the transfer-dosing chamber 3, which are removable from the supply tank 2, thus ensuring flexibility in terms of changing or separate supply of substances phytosanitary consumables.

The device has the possibility of implementing in its construction some sensors that ensure the real-time determination of the parameters of temperature, atmospheric humidity in the plantation, which are the determining factors of the outbreak of infections.

Such devices equipped with sensors are applied to sample plants, from statistical populations of over 100 plants, in order to provide an efficient, fast and productive feed-back, based on which the control unit can accurately and in real time assess the moment of carrying out the operation, even preventively. This function cannot be found in any classic procedure for administering phytosanitary substances.

1. Peter Schwappach. FRIS - the perspective system for advice on phytosanitary protection of vines in Franconia. Seminar for viticulture and winemaking, Blaj, 2005

2. Ilker H. Celen, Mehmet R. Durgut, Gürkan G. Avci, Erdal Kilic. Effect of air assistance on deposition distribution on spraying by tunnel-type electrostatic sprayer. African Journal of Agricultural Research Vol.4 (12), Academic Journals, 2009, p.1392-1397

3. US 4565318 A 1986.01.21

4. US 4779805 A 1988.10.25

5. Enrique Molto. Reduction of the use of pesticides in treelike orchards. Dose optimization in mechanized applications to citrus, fruit trees and vineyards. European Project OPTIDOSA. AGL 2007-66093-C04-03/AGR, 2010

6. Pergher G., Petris R. A novel, air-assisted tunnel sprayer for vineyards. International Conference: "Innovation Technology to Empower Safety, Health and Welfare in Agriculture and Agro-food Systems", Italy, 2008

7. US 4698935 A 1987.10.13

Claims (7)

1. Device for administering phytosanitary substances in woody plants, which includes an absorption chamber, a dismountable transfer-dosing chamber, which contains a unidirectional membrane and a feeding micropump, as well as a supply tank for phytosanitary substances, also the device it also includes a control system and a clamp-type plastic collar equipped with an adjustable leaf spring pressure plate for fixing to the plant trunk. 2. Device, according to claim 1, in which the absorption chamber is made of opaque plastic material or with a reflective surface with a volume depending on the type of plant and the microclimate conditions and is provided with a recess for the introduction of the pseudo-roots of the plant. 3. Device, according to claim 1, in which the supply tank is made compartmentalized from plastic mass resistant to UV rays, white or with a reflective surface, has a parallelepipedal shape and is provided with a support for fixing the control system. 4. Device, according to claim 1, in which the unidirectional membrane is made of a microporous polymer material of the millipore type, insoluble and inert in contact with phytosanitary substances. 5. Device, according to claim 1, in which the micro feed pump is executed with the possibility of piezoelectric actuation. 6. Device, according to claim 1, which is equipped with sensors for determining atmospheric temperature and humidity. 7. Device, according to claim 1, in which the control system is executed with the possibility of receiving signals from a control center.