NO161952B - PLANT TREATMENT DEVICE. - Google Patents

Abstract

A plant treatment device for introducing a treatment agent into a plant. The plant treatment device comprises a non-pressurized reservoir (11) which is intended to contain a plant treatment agent and is arranged to be able to be attached to a plant stem (S) and / or leaf. The plant treatment device further comprises at least one probe (14) capable of penetrating the plant stalk and / or. the outer bark of the leaf. The probe (14) has a fluid path for conducting treatment agent from the reservoir (11) to the plant over a period of time. The fluid path is preferably a rigid, porous capillary member extending between the reservoir and the free end of the probe. The reservoir (11) is connected to a mounting device (12) capable of supporting the reservoir on the plant stem (S).

Description

The invention relates to a plant treatment device.

When treating plants to promote or

inhibit growth to prevent attacks by pests and/or diseases

judgment and to treat plants suffering from pest and/or disease attacks, it is common to add a treatment agent to the plant by means of a shower or a systemic agent that is added to the soil surrounding the plant or to the plant's foliage. In addition, when fertilizing plants, the usual means of treatment are to add a fertilizer to the soil around the plant or to add a liquid by means of a shower on the plant's foliage. A difficulty caused by such treatment methods is that much of the material is added to the soil and atmosphere and thus ends up in the ecosystem and affects organisms other than plants<n,>Qg the result is that the material can have a long-term effect on the overall environment. In addition, administration of the treatment agent can be dangerous for use by other people.

It is an aim of the present invention to provide an effective device for treating plants by applying pesticides and/or fungicides and/or fertilizers or by similar treatment, with a reduced probability that the treatment agents will get into the surrounding ecosystem.

The invention thus relates to a plant treatment device comprising a non-pressurized reservoir intended to contain a plant treatment agent and arranged to be attached to a plant stem and/or leaf, and at least one probe capable of penetrating the outer bark of the plant stem and/or leaf , and the plant treatment device is characterized in that the probe has a fluid path which is made of a rigid, porous material to allow fluid flow through the fluid path by capillary action, which fluid path extends between the reservoir and the free end of the probe.

According to a preferred feature of

invention, the reservoir contains a porous filler that absorbs the plant treatment agent.

According to a preferred embodiment, the reservoir is connected to a mounting device which is able to support the reservoir on the plant stem, the reservoir having the said probe on the surface which must be adjacent to the stem and a device being provided between the reservoir and the mounting device so that it is obtained an inward force on the probe relative to the plant stem to drive it into the plant stem.

The mounting device is preferably common to a number of reservoirs and preferably comprises a band which, during use, at least partially surrounds the stem.

The invention will be more fully understood in light of the following description of several specific embodiments. The description is made with reference to the accompanying drawings, of which: Figure 1 is a cross-sectional plan view of a first embodiment, Figure 2 is a side elevation of the first embodiment, Figure 3 is a plan view of another embodiment, and

Figure 4 is a side elevation of the second embodiment.

The hereinafter described embodiments are all aimed at a treatment device for supplying treatment agents to a plant in a safe, efficient and regulated manner.

The first embodiment comprises a set of elongated tubular reservoirs 11 which are mounted on a flexible clamping band 12 which is intended to be wrapped around the plant stem or stem S with the ends of the clamping band releasably fastened together by means of a clamping device 13 which can be adjusted for to put the clamping band in tension around the stem. Figures 1 and 2 show four reservoirs mounted on the clamping band, but more or fewer reservoirs can be used as desired.

Each reservoir 11 is supported by the clamping band in such a way that it lies essentially parallel to the plant stem S and extends upwards from the clamping band. The end of the reservoir 11 which is attached to the clamping band supports a probe which extends radially inwards when the clamping band 12 is wrapped around the plant stem S. When the tightening of the clamping band 12 is increased by operating the clamping device 13, the probes 14 are driven into the plant stem and penetrates the outer cortex and enters the systemic tissue. The interior of the reservoirs can contain a porous filter, and the treatment agent is carried to the plant stem by capillary action via the probe.

Each probe 14 may be made of a tube filled with a porous material with a capillarity similar to that of plant tissue which provides a capillary flow path between the interior of the reservoir 11 and the tip of the probe. Alternatively, the probe 14 may be made of a rigid, porous capillary tip, similar to the tip of a felt tip pen, which will not be damaged when it penetrates the plant tissue and which will not form a cavity in the space it occupies. It will appear that in order to counteract the plant tissue's protective reactions, it is desirable that the probe, when it enters the plant stem, does not form any cavity in the stem and that the flow path in the probe has similar capillary flow properties as the plant's woody tissue.

In addition, when the probe enters the plant stem S, it is filled with treatment agent to facilitate the flow of the treatment agent to the plant immediately after penetration, which avoids loss of fluid pressure in the stem and the ingress of air or gas.

The use of the clamping band 12 and the clamping device 13 to cause the probes 14 to penetrate into the plant stem ensures a regulated penetration into the plant tissue, which is believed to reduce wounding in the plant tissue to a minimum and reduce the normal protective reactions of the tissue which would block the flow of the treatment agent between the probe's tip and the plant tissue.

The second embodiment shown in Figures 3 and 4 is of a similar nature to the first embodiment, and the same reference numbers are used for corresponding components. The second embodiment comprises a rigid but resilient clamping band 12 which has the form of an incomplete ring. The clamping band 12 is sufficiently springy so that it can be arranged around a wide range of sizes for a plant stem S. The clamping band is designed with several spaced apart threaded openings around the circumference, each threadedly able to support a reservoir 11 with a threaded part lia and a bulging part 11b which is arranged at the outer end and has sufficient volume to take up the desired amount of treatment agent. The interior of the reservoir may contain a porous filling material. The inner end of the reservoir 11 supports a probe 14 of similar shape to that according to the first embodiment. When the reservoir 11 is rotated on the clamping band 12 in the correct direction, the probe is driven into the plant stem in a regulated manner.

A variant of the second embodiment can be that

locking device is provided for releasable to

fasten the 12 free ends of the clamping band together with this device, as the clamping band can be made of flexible material.

A further variant of the second embodiment can be that each probe can be moved radially in relation to the clamping band under the influence of means other than a screw thread. Each probe can, for example, be slidably supported on the clamping band.

Both the first and the second embodiment provide a device for adding treatment agents to plants

a safe, efficient and regulated way with a reduced possibility of damage to the environment compared to existing methods.

It will be understood that the reservoir 11 may have any desired shape and that it may have any desired capacity depending upon the nature of its application. Moreover, if desired, the reservoir can be filled with a fiber-like material to hold the treatment agent.

Claims (6)

1. Plant treatment device comprising a non-pressurized reservoir (11) intended to contain a plant treatment agent and arranged to be attached to a plant stem and/or leaf, and at least one probe (14) capable of penetrating the plant stem and/or or the outer bark of the leaf, characterized in that the probe (14) has a fluid path which consists of a rigid, porous material to allow fluid flow through the fluid path by capillary action, which fluid path extends between the reservoir (11) and the free end of the probe (14). 2. Plant treatment device according to claim 1, characterized in that the reservoir (11) contains a porous filler which takes up the plant treatment agent. 3. Plant treatment device according to claim 1 or 2, characterized in that the reservoir (11) is connected to a mounting device (12) which is able to support the reservoir on the plant stem, the reservoir (11) having the aforementioned probe (14) on the surface which be adjacent to the stem, and as a device (13) is provided to provide an inwardly directed force on the probe in relation to the plant stem to drive it into the plant stem. 4. Plant treatment device according to claim 3, characterized in that the mounting device (12) comprises a flexible clamping band and that the device (13) comprises a tightening device which is connected to the clamping band, the reservoir (11) being attached to the clamping band. 5. Plant treatment device according to claim 3, characterized in that the mounting device comprises a rigid, semi-annular clamping band (12) and that the reservoir (11) is threadedly received on the clamping band to be radially movable in relation to the clamping band when the reservoir is rotated on the clamping band. 6. Plant treatment device according to claims 3-5, characterized in that the mounting device (12) is common to several reservoirs (11).