MD4340C1 - 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 a feed tank (2) for phytosanitary substances (3), a unidirectional bypass valve (6) and a unidirectional diffusion membrane (7), as well as a feed micropump (5) of pulsating membrane type, wherein the unidirectional diffusion membrane (7) is made of a textile material or a millipore-type microporous polymer, and the feed micropump (5) is made with the possibility of piezoelectric actuation. The device also comprises a control system (1) and a clamp ring (9) provided with locking rods (4) and a clamp plate with an adjustable flat spring for fixation to the stem of the plant (10).The result is to provide the dosing administration of phytosanitary substances into the vascular system of the plant and the penetration of active substances in all tissues of the plant.

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 for the prevention and treatment of diseases and pests, but also in order 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 applicable in order to paint wood in forestry operations etc. These products, in addition to the high manufacturing cost, also present a high toxicity for humans, plants and the environment, which is why it is necessary to develop controlled administration procedures, which allow the optimal use of the administered solution, with the elimination of losses of active substances and others.

The application of phytosanitary substances is done by several procedures: 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 into the heartwood [1,2,3 ,4,5] and sapwood [ 6,7,8,9].

The studies for the development of systems that ensure the administration of minimum quantities necessary to combat some diseases or pests under strict conditions, imposed by climatic, pedological and dendrological factors, have contributed to the development of application procedures by spraying with ultra-low volumes of solutions, of some systems of injection that introduces the substance into the xylem of the plant, which constitutes the upward circulation path of water with nutrients from the root to the leaf system for photosynthesis.

These technologies present disadvantages related to a high cost and the need to involve a specialized workforce.

Unlike these systems, the administration of phytosanitary substances through a diffusion membrane, according to the invention, is done through the phloem - (layer of cells of the fibrovascular bundle that conduct the assimilated substances freely) vessels immediately below the outer bark layer, which transports the carbohydrates downward into the plant . This circulation of elaborated sap has different directions of flow at different times. The glucose circuit and water recirculation between xylem and phloem achieve an efficient distribution of the substance; by introducing it into the elaborated sap (as opposed to introducing it by injection into the conducting vessels of the primary sap) the active substance is introduced and not a precursor of it, to be metabolized in the leaves.

It is known the device with spraying of active substances or insecticides directly on the periderm [10].

The disadvantage of this device consists in harsh interventions at the superficial level of the lumen, with deep damage to the periderm.

The closest device to the claimed invention relates to the application of phytosanitary solutions through a hole in the trunk of a tree (usually of relatively small size), which includes a reservoir tube for treatment solutions, an elastic bushing with self-sealing, a needle for injection in the tube, means for fixing the reservoir tube with plate to the shaft by means of a collar [11].

The disadvantage consists in the aggressive and invasive coupling with the tree, as well as in the fact that it does not allow the continuous and controlled diffusion of substances with phytosanitary active growth principles.

The problem that the invention solves consists in the use of an autonomous device that allows the continuous and controlled diffusion of substances with phytosanitary active principles, growth stimulants, inhibitors, etc.

The device for administering phytosanitary substances, according to the invention, removes the disadvantages specified above in that it includes a supply tank for phytosanitary substances, a one-way transfer valve and a one-way diffusion membrane, as well as a pulsating membrane type micro-pump, at the same time, the unidirectional diffusion membrane is made of a textile material or microporous polymer of the millipore type, and the feed micropump is made with the possibility of piezoelectric actuation. The device also includes a control system and a clamp-type collar equipped with clamping rods and an adjustable leaf spring pressure plate for fixing to the plant trunk.

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

With a view to a controlled and autonomous administration of phytosanitary products by diffusion in the conducting vessels phloem and indirectly in the xylem, a control system is used that drives the controlled diffusion of the phytosanitary solution from the feed tank through a unidirectional membrane and a feed micropump; the whole device is attached to the trunk of the plant, in an accessible area, where the outer layers of the periderm (bark) are removed beforehand, thus ensuring that the solution is taken up by the plant; the regulation of the concentration of the phytosanitary active principle is done automatically, the process being monitored remotely, from a command 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 location of installation/application of the device on the plant is done once every 4...5 years. The supply tank and, respectively, the surface of the diffusion membrane can have various type-dimensions, depending on the size and type of the plant, as well as 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).

The device uses the circulatory system of the plant at the level of the lumen as a mechanism for spreading phytosanitary substances, thus ensuring a good penetration of the active substances in all tissues, at the same time in the various treatments tiny amounts of phytosanitary substances are applied, the entire amount of active substances being introduced into 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 the dosed administration of phytosanitary substances in the circulatory system of the plant and the penetration of the active substances in all plant tissues.

At the same time, by applying the invention, a series of advantages are obtained, as follows:

- 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 the cost of operation;

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

- elimination of most of the aggression achieved when injecting the substance into the plant;

- eliminating the intoxication of the service operator with harmful substances.

The claimed device contains a control system 1, a supply tank 2, for phytosanitary substances 3, a pulsating membrane type supply micropump 5, a unidirectional transfer valve 6, a unidirectional diffusion membrane 7 made of a textile material or of microporous polymer of the millipore type, a clamp-type collar 9, equipped with clamping rods 4 and with a pressure plate with an adjustable lamellar spring for fixing to the plant trunk 10.

Next, an example of the invention is given, explained with the help of figures 1, 2, 3 and 4 which represent:

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

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

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

- fig. 4, preparation and installation of the device.

The device for one-way diffusion membrane administration of phytosanitary substances in woody plants, which is applied to the trunk of the plant, in an accessible, previously prepared area (fig. 1), consists of the following structural-functional elements, shown in fig. 2 and 3:

- control system 1, consisting of battery, antenna, control element, receiving the signal from a local center or a human operator respectively with automatic control, appreciates the indicators of humidity, temperature and the initial conditions of infection, it can also be accessed through parallel systems (internet, mobile phone); the control system can also receive a signal through the support wire of the vines or fruit trees, in the case of intensive orchards (a less indicated variant, because breaks may occur due to mechanical causes);

- the supply tank 2 with active substances 3, compartmentalized for several types of compatible substances, delivered through a single diffusion membrane or through several membrane sectors; the tank is made of white, UV-resistant plastic mass or with a reflective surface to last for the entire lifetime of the device (3...4 years); it is parallelepipedal in shape, provided with a clamping support for the control system 1 and with slots for the clamp-type system, for its attachment with clamping rods 4;

- micropump 5, in the form of a piezoelectrically actuated pulsating membrane, which ensures the transfer of active substances from the supply tank 2;

- the unidirectional transfer valve 6, which allows the circulation of the substance from the tank to the plant, is controlled from the normally closed position to the open position once the pump is actuated;

- the unidirectional diffusion membrane 7 allows the unidirectional passage of the concentrated active substance from the supply tank 2 through the unidirectional transfer valve 6, it is insoluble and inert in contact with phytosanitary treatment substances, inedible for insects, made of textile materials (patch type) or microporous polymers of millipore type;

- sealing mastic 8 (border or cheder type), which is deposited on the edge of the part that includes the diffusion membrane so as to seal the area where the peel is removed and which is chemically inert to phytosanitary substances and is not edible for insects;

- the clamping collar 9 of the clamp type with plastic rods has a pressure plate with a self-adjusting lamellar spring, depending on the size of the plant and to compensate for the growth.

The clamping area on the plant trunk 10 is previously prepared for fixing the device.

The phytosanitary solution 3 is in concentrated form, the feed tank 2, which is fed periodically, has a low freezing point and good stability for a long time of operation. The device is mounted in an accessible area, preferably in the north direction to be protected from the sun's rays.

The preparation and installation of the device is done in two stages, specified in fig. 4, as follows:

- removal of the outer layer (cutting the bark and cleaning the epidermis) up to the conducting bundles of the stem - xylem and phloem (fig. 4a), which is done with the help of a drill 11, equipped with a bark scraping device 12 and travel limiter 13;

- the actual mounting of the device (fig. 4b).

The limiter has the role of preventing the scraping of the layers under the shell, which contain the sap circulation vessels. For this, the thickness of the trunk is estimated with the help of a comparator and the position of the limiter is automatically adjusted through a system of levers. A calibrated comparator-limiter system is required for each type of plant.

It is possible to apply some sensors to the device, which ensure the real-time determination of the parameters of temperature and 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. US 4698935 A 1987.10.13

2. US 2002046486 A1 2002.04.25

3. US 6988333 A1 2005.03.10

4. US 7114289 B2 2006.10.03

5. US 7178286 B1 2007.02.20

6. US 5031357 A 1991.07.16

7. US 5239773 A 1993.08.31

8. US 6032411 A 2000.03.07

9. WO 2012114197 A2 2012.08.30

10. US 2009069183 A1 2009.03.12

11. US 4896454 A 1990.01.30

Claims (2)

1. Device for administering phytosanitary substances in woody plants, which includes a supply tank for phytosanitary substances, a one-way transfer valve and a one-way diffusion membrane, as well as a pulsating membrane type micro-pump, also the one-way diffusion membrane it is made of a textile material or of microporous polymer of the millipore type, and the feeding micropump is made with the possibility of piezoelectric actuation; the device also includes a control system and a clamp-type collar equipped with clamping rods and an adjustable leaf spring pressure plate for fixing to the plant trunk. 2. Device, according to claim 1, in which the control system is executed with the possibility of receiving signals from a control center.