EP2173151A1

EP2173151A1 - Method and device for the economical and ecological control of pests in and on fruit and timber trees

Info

Publication number: EP2173151A1
Application number: EP08736612A
Authority: EP
Inventors: August Winsel
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-07-30
Filing date: 2008-04-28
Publication date: 2010-04-14
Also published as: DE102007054753A1; WO2009015916A1

Abstract

The present invention describes a gas-powered delivery device for flowable pesticides, in which gas development cells supply hydrogen in a timely amount, which is determined by the electric current. The delivery device in FIG. 1 comprises a cylindrical chamber 1, which is sealed by a lid 2 and comprises a gas cell holder 3 and a piston 4. The piston separates the cylindrical chamber into a first partial chamber for receiving the pesticide and a second partial chamber into which the gas development cells emit the propellant. The pesticide is directly added to the nutriment cycle of the tree.

Description

Method and device for the economic and ecological control of pests in and on fruit and timber trees.

The invention relates to a conveying device, a method for administering fluid media and the use of a conveying device.

The provision of a suitable device and a suitable method for administering flowable media to plants, in particular in the pest control of plants, is the object of the invention.

The invention solves this problem by the subject matter of claims 1 and 14 and provides the use of claim 16.

Advantageous embodiments of the invention are described in the dependent claims 1 to 13, 15 and 17 and 18.

The invention initially provides a delivery device for the use of flowable media in pest control of plants, especially on fruit and fruit trees and on vines, wherein the conveyor has a cylindrical space with a piston and a drive for moving the piston therein, wherein the piston is the cylinder divides into a first subspace for receiving the medium to be conveyed, and wherein the subspace opposite the piston opens into a lance-shaped plug-o- the screw connector containing a contiguous line system - optionally in fine branching - and with a tree adapter largely liquid-tight against the environment into the supply system of the tree in the area of the root and / or the trunk. Preferably, the conveyor device is gas-operated, which ensures a simple and cost-effective manner, even over long periods of safe, precise operation. But it is also conceivable that the conveying device is driven by an electric motor.

It is conceivable according to a variant that the tree adapter is formed integrally with a housing of the conveying device.

However, it is preferred that the tree adapter is formed as a separate, attachable to the housing of the conveyor device adapter, which makes it possible, for example, made of metal and the housing for receiving the medium to be administered from plastic.

A low spread of the poison is in the sense of environmental protection is to be expected if you can introduce the "spray" in optimal concentration from a stable storage bottle directly into the nutrient cycle of the plant and harness: The proposed method allows the economical application to optimal Also the annual repetition of the application with reuse of the single installation is easily possible with appropriate design of the automatic or hand-controlled procedure.Also the hobby gardener experiences the fact that in the time rhythm of the fruit bloom a suddenly occurring pest infest is observed so that within a few weeks the flowers and young leaves are eroded.The nature offers the "pests" a richly laid table in the form of an intense supply of nutrients. The required increased flow of nutrient solution can also be used to control the pests by applying the method of the invention. In plantations, the method allows installation of the devices in a variety of trees, all of which can be switched on and off synchronously. This will be an optimal and sustainable Produces an effect against the respective type of damage, which can be adapted to the expected pest attack.

You can make the components of the conveyor of glass, plastic or metal. In order to keep the losses in the conveyor system low, one can fall back on metals for the delivery cylinder especially when using hydrogen as a carrier gas. This has the advantage of robustness, which is desirable in rough forest and field use. Although this eliminates the possibility of inspection of the device and thus the visual inspection option for the proper operation of the delivery process. With this disadvantage, however, you get the opportunity to purchase the pesticide packaged in metal bottles, and screw them directly to the pre-assembled equipment.

For the administration of the medium, in particular, a gas-operated conveying device for flowable media is suitable, as described in DE-PS 35 32 335 (1985) and US Pat. No. 5,242,565 (1993) and also EP 1013 296 A1 of the inventor Prof. Win- is described in various variants and in the latter document as driving a syringe for the administration of drugs in the human and veterinary field. Alternatively, in a less preferred variant, a motor-driven conveying device can be used.

The invention will be described in more detail below with reference to the drawings.

Show it:

Fig. 1 is a schematic representation of a gas powered conveyor and a tree adapter;

Figure 2 is a schematic representation of a tree with a conveyor and with an annular tree adapter. and

Fig. 3 is a sectional view through the arrangement of Fig. 2; and

4 shows a further schematic view of a conveying device and a tree adapter. Preferably, such delivery devices are used in which one or more gas evolution cells provide hydrogen in a time amount which is determined by the electric current flowing through the gas evolution cell.

1 has a cylindrical space 1 or a housing, which is preferably closed off by a cover 2 and which contains the gas cell holder 3 and a piston 4.

The piston 4 divides the cylindrical space 1 into a first subspace for receiving the medium to be delivered and into a second subspace into which the gas evolution cells release the propellant gas. Such a conveying device is known from DE 35 32 335 C2 and DE 3621 846 Al. From DE 41 21 351 C2 is also known to end the conveying process by means of a linear force transmission dement, which is connected to the piston and in its end position causes the opening of a valve or a switch.

The subspace 1 opens the piston 4 opposite in a lance-shaped plug or screw connector 8, which contains a coherent line system -optional in fine branching - and largely formed with a trained here as a separate part tree adapter 7 liquid-tight against the environment in the supply system of the tree in the area the root and / or the stem extends.

The lance is provided as a tubular connector between the conveyor and the supply system of the plant, in particular the tree, and has the following properties: it has on the front a largely non-drip screw or plug-in device 8 for connection to the biological object "tree" it has on the back of a screw or plug device 9 for drip-free connection of the conveyor for the flowable medium, plug-in or screw connector on the front and connector on the back are parts a continuous and dense channel of the tree containing the nutrient flow of the tree and the fluid medium.

Conveyor systems that are designed for long running times are slightly inaccurate in their conveying course, because the conveying gas diffuses through the wall into the environment. In the case of the present invention, the liquid to be pumped is highly toxic and must therefore be kept away from humans and livestock. It should not be dangerous to them even when negligent. In fruit and viticulture these pesticides are sprayed in differently adapted compositions on leaves and / or flowers. Bayer, Leverkusen and ®Metasystox R ®Folidol oil from Bayer, Leverkusen, Germany, are two exemplary pesticides that are usually used in high dilution at the best time of the year. With systemic effect the uptake by the plant via leaf and root system ensures that also the eggs, the larvae and caterpillars of the pests are destroyed. A slight spread of the poison is indicated in terms of environmental protection.

According to Fig. 2 and 3, the tree trunk 10 encloses a tubular conveyor ring 11, which supplies the tree with the pesticide via a plurality of connected and extending into the sapwood casing lances 12 as an adapter and to the at least one conveyor device according to the type of Fig. 1 or 4 is connected so that the medium to be administered from the conveyor through the conveyor ring 11 and the lances can be guided into the tree.

Another embodiment of a tree adapter 7 is shown in FIG. 4. To recognize are threads 13, 14 for connection of the building adapter to the tree (preferably with a self-tapping thread 13) and the housing 1 and a passage 15, which extends in the attached to the tree state to the tree. In the passage channel, for example, a flow-like insert 16 may be provided. Another usable gas evolution cell and / or battery of several such cells with novel properties has been proposed in DE 10 2007 018 890.2.

It is particularly advantageous for use in devices of the type claimed here. The interfaces between the tree and the lance and between the lance and the conveying device are not far removed from the atmospheric oxygen in the surrounding atmosphere. A seal hole of the hydrogen evolution cell sealed with a sticker is blown out during the conveyance function of the apparatus; Experience has shown that it no longer completely closes when gas production and thus the promotion of the pesticide are stopped. From this moment on, atmospheric oxygen can get into the cathode compartment of the cell and damage it until it is unusable.

To prevent this, the pore system of absorbent, porous paper, cardboard, plastic, or metal disk is soaked with paraffin oil of suitable viscosity and placed on the cathode so that it fills the space between the cathode and the housing cover, while the breathing hole from the inside closes. During closing and Börtelvorgang the cell, this component can also pass the pressure forces. We found to our surprise that the outer PTFE film of the cathode does not lose its hydrophobic character due to the intimate proximity of the paraffin oil flaps. Thus, the following properties are retained: a) The paraffin oil filling is spatially fixed in the pore system of the valve disk. It blocks the flow of atmospheric oxygen in the pore system of the disc to the electrochemically active components of the cathode and prevents the resulting reducing, power-generating processes that are undesirable. b) The paraffin oil filling is displaceable in the pore system of the valve disc. Thus, hydrogen bubbles with their increased gas pressure from the electrochemical see deposition on the grid and catalyst of the cathode shift the paraffin oil within the pores and form contiguous transport routes for the removal of the gas. c) Decreasing hydrogen production distributes the paraffin oil back to all pores of the valve disc, which again perceives the function of the oxygen barrier. d) Within the insulating pore system of the valve disc electro-dialytic embossed migratory processes are not possible, which often lead to the surfaces of metallic diaphragms with their nanometer-thick films to destruction. As an example, mention may be made of the electrolyte migration along the negative conductor, which can be observed in many systems.

The valve disc reduces the self-discharge current of the hydrogen evolution cell resulting from residual oxygen diffusion down to values of μA. This low self-discharge is harmless in the annual framework of the desired life and storage period for the repeated use of the device.

Another advantage offered by the cell with the valve disc according to the invention over previous constructions is expressed by the use of batteries of similar cells. So you can stack two or more cells on top of each other and lead the flow through the electrically conductive housing parts "lid" and "bottom" from cell to cell. In the reducing water material atmosphere, the current paths remain conductive. In some cases, the desired play of changing gas production rates is meaningfully compensated by the automatic action in the valve disc.

The thermal properties of the material and its stability Paraffϊnöls allow application even at temperatures above 80 ⁰ C (boiling point of> 360 ⁰ C). The materiality does not play a significant role compared to the hydraulic properties on which the function of the valve disc is based, and regulate the opening and closing of the cell to exit the hydrogen formed. The valve disc filled with paraffin oil is ideally not deformable. The permanently effective closing forces press against the adjacent cathode on the entire surface and against the separation on the second side, which limits the cup with zinc filling and electrolyte. Changes in the external pressure penetrate into the pore system via the respiratory hole and the paraffin oil filling only to the extent that the paraffin oil can be displaced therein: the formation of a foreign gas phase is thus impossible. If, however, hydrogen is generated in the cathode by a short circuit, the gas shifts the paraffin oil in the pore system of the valve disk or via the breathing hole to the outside or - given case - into a storage room equipped for this purpose and thus generates the gas channel between the cathode space and the breathing hole Outflow of the hydrogen formed is required. Its transportability adapts to the working conditions automatically, but can also be designed by constructive measures. Thus, the valve disc may include a concentric conduit profile that shortens the path of the gas out of the cell from the breathing hole. When the evolution of hydrogen ceases, these paths are closed again, as nutrient solution and air that are displaced from the outside consume the residual hydrogen.

As a further advantage, the simple commissioning of the cell can be cited, which is also applicable to the battery pack. It follows the procedure outlined above and recommends the use of a brief short circuit to reduce the oxides present in the cathode area: they are reduced by simultaneous zinc oxidation without hydrogen evolution. This effect can be read off from the resulting cell voltage, which permanently sets to values around 0.53 V. In this state, the cell is prepared for immediate hydrogen production by connecting the anode and cathode by means of a suitable resistor. Ideally, the breathing hole is closed in this state by the sticker as a "freshness symbol" from the outside, however, this measure is unnecessary for cost reasons.

Claims

claims

1. Conveying device for the application of fiiessfähiger media in the pest control of plants, especially on fruit and fruit trees and on vines, a. the conveyor having a cylindrical space (1) with a piston (4) and a drive for moving the piston (4) therein, the piston dividing the cylinder into a first compartment (1) for receiving the medium to be conveyed, b. wherein the sub-space (1) opposite the piston (4) opens into a lance-shaped plug or screw connector (8) containing a contiguous line system - optionally in fine branching - and with a tree adapter (7) largely liquid-tight against the environment in the supply system of the tree in the area of the root and / or the trunk extends.

2. Conveying device according to claim 1, characterized in that the drive of the conveying device is formed gas-operated.

3. Conveying device according to claim 1, characterized in that the drive of the conveying device is formed by an electric motor.

4. Conveying device according to one of the preceding claims, characterized in that the tree adapter is formed integrally with a housing of the conveying device.

5. Conveying device according to one of the preceding claims, characterized in that the tree adapter is designed as a separate, attachable to the housing of the conveyor adapter.

6. Conveyor device according to claim 2, 4 or 5, characterized in that a gas evolution system generates a propellant electrochemically in a predeterminable amount of time from one or more gas evolution cells and that the second subspace contains the gas evolution system (3) and the propellant gas.

7. Conveying device according to one of the preceding claims, characterized in that a. the lance has a tubular connector between the conveying device and the supply system of the plant, in particular of the tree, having the following properties: i. it has on the front a largely drip-free screw or plug-in device (8) for connection to the biological object "tree" ii) it has on the back of a screw or plug device (9) for drip-free connection of the conveying device for the flowable medium iii. Plug-in or screw connectors on the front and connector on the back are parts of a continuous and environmentally sealed channel designed to direct the fluid medium into the nutrient flow of the tree.

8. Conveying device for the use of flowable media in the pest control of plants, especially on fruit and fruit trees and on vines, a. wherein the conveying device comprises a cylindrical space (1) with a piston (4) and an electromotive drive for moving the piston (4) therein, the piston dividing the cylinder into a first sub-space (1) for receiving the medium to be conveyed. b. wherein the subspace (1) opposite the piston (4) opens into a lancet-shaped plug-in or screw connector (8) containing a continuous line system -optional in fine branching - and with a tree adapter (7) largely liquid-tight against the environment in the supply system of the tree extends in the region of the root and / or the trunk, characterized in that c. the lance, as a tubular connector between the conveying device and the supply system of the plant, in particular of the tree, has the following properties: i. it has on the front a largely drip-free screw or plug-in device (8) for connection to the biological object "tree" ii) it has on the back of a screw or plug device (9) for drip-free connection of the conveying device for the flowable medium iii. Plug-in or screw connectors on the front and connector on the back are part of a continuous and dense to the environment of the tree channel containing the nutrient flow of the tree and the flowable medium.

9. Conveying device according to one of the preceding claims, characterized in that the lance contains a longitudinal and transverse conductive pore system that interrupts the nutrient flow of the tree at any stage of pest-fighting promotion.

10. Conveying device according to one of the preceding claims, characterized in that the conveyor system is driven by a hydrogen evolution cell and the hydrogen evolution is started in time and switched off at a later time in a timely manner, the switch-on caused by the short circuit of the cell with a predetermined resistance and the shutdown by the cancellation of the short circuit.

11. Conveying device according to one of the preceding claims, characterized in that the lance opens as an interface for a cylindrical portion of the log or branch with its enclosed by the cambium area of sapwood

A conveyor device according to any one of the preceding claims, characterized in that a tube pierces the trunk or branch and is replaced by means of sealing washers or sealing sleeves, e.g. made of rubber, seals against the outside atmosphere and forms an interface with the sapwood ring twice.

13. Conveying device according to one of the preceding claims, characterized in that the tree trunk surrounds a tubular conveyor ring, which supplies the tree with the pest control means via several connected and extending into the sapwood shell lances.

14. A method for administering flowable media, in particular in pest control, to plants, in particular on fruit and fruit trees and on vines, characterized in that the medium is administered with a delivery device according to one of the preceding claims.

15. A method for administering flowable media, in particular in the pest control of plants, in particular on fruit and fruit trees and on vines, characterized in that the medium is injected directly into the plant.

16. Use of a conveying device, in particular according to one of the preceding claims, for the administration of flowable media to plants, in particular in pest control.

17. Use according to claim 16, characterized in that a gas-powered conveying device is used.

18. Use according to claim 16, characterized in that an electromotive conveying device is used.