NL2008189C2 - METHOD FOR COLORING THE FLOWER OF A PLANT - Google Patents

Description

Method for coloring the flower of a plant

The present invention relates to a method for coloring the flower of a plant.

5

It is known in the art to color a flower of a plant by injecting colorants into the stem of a plant. EP 2 308 282 describes a method for coloring a flower by inserting a dye pipette into the stem of a plant, after which the dye reaches and colors the flower of the plant by natural absorption. It is also known from the state of the art according to this publication to dissolve dyes in water and to have them naturally absorbed by the roots of the plant, as well as to color flowers by applying paint directly to the flower.

However, the method mentioned in the aforementioned publication still has disadvantages, including, for example, that the insertion of a pipette into the stem of a plant permanently and visibly damages this stem.

It is therefore an object of the present invention to solve the above-mentioned problem, or to offer a useful alternative to the prior art.

The above object is achieved by means of a method for coloring a flower of a plant, comprising providing a supply opening in the plant, providing a connection between the opening and a dye reservoir; and supplying a dye to the plant via the connection from the dye reservoir to the plant, wherein the supply opening is made in the root, tuber and / or root neck or the heart of the plant.

In this way the dye is applied in a manner that does not cause damage to the visible parts of the plant. In addition, the root, tuber and / or root neck or the heart of the plant are less vulnerable, reducing the risk of the plant dying as a result of the treatment.

2

For example, by making use of an injection needle for arranging the supply opening, it can be limited to a minimum size. This also has the disadvantage that arranging the opening and placing feed means for the colorant in the opening comprises separate operations. Thus greater efficiency and effectiveness are achieved. The needle may have a diameter between 0.5 mm and 2.0 mm and may or may not form part of a syringe, for example a syringe which also comprises the dye reservoir.

Such a syringe can be used for supplying the dye to the plant under an increased pressure with respect to the environment, but it is also possible to dispense with a forced supply under pressure, wherein the dye is supplied to the plant under ambient pressure. Not only does this eliminate the need for the use of a compressor or other pressure generating means, but it also does not excessively burden the plant, so that the risk of damage is once again reduced.

The method may also include creating an underpressure in a portion of the plant's stem above the feed opening to force the dye through the stem.

20

The underpressure is preferably applied as high as possible, whereafter liquid absorbed in the root and / or root neck can be transported (more) quickly towards the flower of the plant. In this way the time required for coloring the flower can be shortened and more flowers can be colored in the same time.

In a further embodiment, the method comprises providing an underpressure opening in the stem by means of an injection needle which is in communication with a space under underpressure. This needle is thereby of such dimensions that it does not permanently and visibly damage the stem of the plant, but is capable of applying sufficient underpressure. A proven diameter is between 0.5 mm and 2.0 mm and a proven pressure is between 0 and 0.5 bar.

3

In an embodiment of the present invention, the colorant comprises a powder or a paste. The powder can be applied through an opening in the root neck and / or the root, after which it is spread through the plant and the flower will color. The use of a colorant in powder form entails the advantage that the amount of moisture supplied to the plant does not change, and that a normal watering and / or wetting pattern of the plant can be maintained. The supply of a powder or paste can be done by injecting under pressure, but also by providing an opening in the plant, and applying the coloring agent therein, in order to subsequently seal the opening in the plant.

10

In one embodiment of the invention, the dye is placed in a reservoir. By means of a connection, for example a hose, between the root, tuber and / or root neck or the heart of the plant and the reservoir, the liquid can reach the root, tuber and / or root neck or the heart of the plant after which it is naturally is transported through the plant. In this way a large volume of the dye can be absorbed by the plant over time and the refilling can be done simply by filling the reservoir. It is thereby possible to apply a pressure to force the colorant to penetrate the plant.

Optionally, any openings provided, for example for placing a hose between root neck and dye reservoir, are sealed after coloring. This can be done, for example, by placing a plug in the opening made, or closing the opening with a natural glue or candle wax. In this way the opening provided in the plant is closed again, so that dye does not leak away unnecessarily from the plant. It should be noted that the use of one or more injection needles for supplying the dye and / or applying the underpressure in practice eliminates the necessity of applying a seal.

In yet another embodiment, the method according to the invention comprises limiting the flow of dye through the plant, for example by placing a narrowing or venturi above the supply opening for the dye. In this way, a too fast supply of colorants, which may cause the flower to die, is prevented. The narrowing can be formed, for example, by providing a plug or intentionally applied damage in an opening provided for this purpose in the stem of the plant.

4

The invention is further elucidated with reference to the following non-limitative figures.

Figure 1 shows an exemplary embodiment with a color reservoir; Figure 2 shows an exemplary embodiment with root injection; Figure 3 shows an exemplary embodiment with injection and vacuum.

Figure 1 shows a plant with flower (1), connected via a stem (2) to root neck (4) and roots (5). The plant also includes leaves (3). A hose (6) is placed between the root neck (4) and a dye reservoir (8) filled with dye (7) via an opening in the root neck (4). Via the hose (6) the plant receives colorant (7) via the root neck (4), whereafter the colorant (7) arrives at flower (1) by natural transport, where it will eventually color the flower. In the example shown, no pressure is applied to the dye. Vacuum hoses (10) are connected to the stem (2) via thin needles (9) that are inserted into the stem (2).

Figure 2 shows a plant with a flower (1) as in figure 1, wherein the roots (5) of the plant can be provided with dye by means of an injection means, for example formed by syringe (11) filled with dye (7). Contained colorant (7) again ends up in natural transport at flower (1), where it will eventually color the flower. The dye can be a liquid that is gradually applied by pressing the syringe, but it is also possible to add dye in powder or paste form to the plant. In that case it is possible, for example, to place the colorant in an opening and to seal it, after which the colorant is gradually absorbed by the plant. The drawn (manually operable) syringe can logically also be formed by an automated delivery system.

Figure 3 shows a plant with flower (1) as described earlier, in which there is available in addition to the injection means and a vacuum device. Vacuum hoses (10) are connected to the stem (2) via thin needles (9) that are inserted into the stem (2). The needles (9) are of such a size that there is no permanent and / or visible damage to the stem (2). By creating a vacuum in the stem (2) by means of a vacuum, introduced colorant (7) is brought to the flower (1) at an accelerated pace.

It has further been found that a better uptake of the dye and a firmer plant can be obtained by keeping the plant relatively dry (i.e. not or hardly watering) before and at least partially during the application of the dye, and provide a normal or even increased dose of water or other food at the end of the dye administration or thereafter. In this way, the failure to break up (inflate) cells is achieved and it is prevented that stress (hormones) occur in plants.

Claims (11)

A method for coloring a flower of a plant, comprising: • providing a supply opening in the plant; 5. providing a connection between the opening and a dye reservoir; and • supplying a dye to the plant via the connection from the dye reservoir to the plant; characterized in that the provision of the supply opening takes place in the root, tuber and / or root neck. 2. Method as claimed in claim 1, comprising of arranging the supply opening by means of an injection needle, which injection needle forms at least a part of the connection. Method according to claim 1 or 2, comprising supplying the dye to the plant under ambient pressure. A method according to any one of the preceding claims, comprising creating an underpressure in a part of the stem of the plant above the feed opening to force the dye through the stem. 5. Method as claimed in claim 4, comprising of providing an underpressure opening in the stem by means of an injection needle which is in communication with a space under underpressure. Method according to one of the preceding claims, comprising of sealing at least one of the openings after application of the colorant. 30 Method according to claim 6, comprising sealing the opening by means of at least one means from the group of: • a plug; • glue, such as natural glue; • far, such as candle wax. 8. Method as claimed in any of the foregoing claims, comprising of presenting the colorant in powder or paste form. A method according to any one of the preceding claims, comprising applying a restriction or venturi to the plant stem. Device for carrying out the method according to one of the preceding claims, comprising: • a dye reservoir; • A first injection needle connected to the dye reservoir; • A vacuum pump; 15. A second injection needle connected to the vacuum pump. 11. Plant produced according to a method according to one of the preceding claims 1-9