NL2023438B1 - Pot plant, in particular orchid pot plant, and more in particular Phalaenopsis pot plant, comprising at least one flower or flower bud carried on a stem of the pot plant - Google Patents

Abstract

Pot plant, in particular orchid pot plant, and more in particular Phalaenopsis pot plant, comprising at least one flower or flower bud carried on a stem of the pot plant. The interior of the stem includes a stem core and a peripheral body portion which surrounds the stem core and supports the outer surface of the stem. The interior of the stem is provided with a hole. The hole is formed as a bore extending from an opening in the outer surface through a first portion located in a region of the body portion adjacent the opening to a further portion located in the stem core. The further portion of the bore traverses the stem core, and continues up to a blind end portion located in a region of the body portion that is opposite the opening. The bore includes a hollow tube part which crosses the stem core at the location of the further part of the bore and which forms a, in particular liquid-tight, bridge between the first part of the bore and the end part of the bore.

Description

P124007NL00 Title: Pot plant, in particular orchid pot plant, and more in particular Phalaenopsis pot plant, comprising at least one flower or flower bud carried on a stem of the pot plant. The invention relates to coloring pot plants, in particular orchid pot plants, and more in in particular Phalaenopsis potted plants, comprising at least one flower or flower bud carried on a stem of the pot plant, the interior of the stem comprising a stem core and a peripheral body part surrounding the stem core and supporting the outer surface of the stem.

Such a potted plant is known and is provided with a hole in its stem for introducing colorant into the hole through the wall of the stem through an opening, so that the colorant is absorbed through the wall surface of the hole and leaves from the top. the least one flower or flower bud colors. In the known potted plant, the hole is formed as a bore extending from an opening in the outer surface through a first portion located in an area of the body portion adjacent the opening to a further portion located in the stem core.

In an effective method, a conical or cylindrical hole is drilled, the opening of which is located in the wall of the stem and which extends into the stem core, which in orchids such as Phalaenopsis often comprises soft and / or porous core material. A drop of concentrated coloring liquid is introduced through the opening into the tip of the hole, after which the hole is made inaccessible by sealing the opening with wax. Alternatively, a larger volume of, for example, less concentrated colorant can be introduced into the hole by inserting one end of a hollow tube section into the hole and then filling the tube section with a supply of coloring liquid via the other end. After incorporation of the dye from the wall surface of the hole, the pipe part can be taken out, and the opening of the hole can be made inaccessible by sealing the opening with wax. Said methods are described in the context of making cylindrical holes in the patent publications NL2006581 and NL2003621 respectively, the hollow tube part being referred to by the term pipette in the latter publication.

It has been found that with certain dyes the material of the stem core of Phalaenopsis, which is relatively soft and fragile in relation to the surrounding and / or peripheral body part, can die off through contact with the dye, so that after some time a spread over a limited length from the hole along the longitudinal axis of the stem downwards and upwardly extending cavity in the stem may form. In practice, this may give rise to an unintended side-effect in which a maximum dimension of the hole in the guide parallel to the longitudinal axis of the stem has become larger than the maximum dimension of the opening in a direction parallel to a longitudinal axis of the stem. A hole with such a configuration in an orchid is put under protection in NL1040904 in the context of increasing the inner surface of the hole before a substance is introduced, so that a substance can be introduced and taken up relatively quickly and easily with relatively little weakening of the hole. the stem through the opening. Colorant can also leak out, for instance in cases where the material of the stem core is porous, or the stem core is at least partially hollow.

The invention contemplates an alternative, wherein it is prevented that in practice by introducing dye into the opening in the stem by the said side effect, the above-described hole configuration in the pot plant, in particular orchids, and more in particular Phalaenopsis, arises, and / or where less dye leaks out.

In particular, it is an object of the invention to provide a pot plant, in particular an orchid pot plant, and more in particular a Phalaenopsis pot plant, having at least one flower or flower bud supported on a stem of the pot plant, the interior of the stem being provided with a hole with an opening in an outer surface of the stem, and wherein in practice it can be avoided that a maximum dimension of the hole in the direction parallel to the longitudinal axis of the stem can become larger than the maximum dimension of the opening a direction parallel to a longitudinal axis of the stem, and wherein dye leakage can be prevented.

To this end, the invention provides a pot plant, in particular an orchid pot plant, and more in particular a Phalaenopsis pot plant, comprising at least one flower or flower bud supported on a stem of the pot plant, the interior of the stem comprising a stem core, and a peripheral body portion surrounding the stem core and supporting the outer surface of the stem, and the interior of the stem having a hole, the hole being formed as a bore extending from an opening in the outer surface through a first portion which is located in an area of the body portion adjacent to the opening up to a further portion located in the stem core, the further portion of the bore traversing the stem core and extending to a blind end portion located in a region of the stem core body part which is protruding from the opening, and which receives in the bore a hollow tube part 1s which at the location of the further part of the bore which crosses the stem core forms a bridge between the first part of the bore and the end part of the bore.

By providing such a bridging of the stem core, it is possible to prevent dye introduced via the opening from leaking to the stem core. The bridging is preferably liquid-tight. In this context, a liquid-tight bridging should be understood to mean that at the location of the bridging, colorant in solid or liquid form cannot significantly pass through the wall of the hollow tube part to the stem core, and preferably not at all hollow tube part can pass to the stem core.

By providing the hollow tube part with an open end which opens into the end part of the bore, it can be achieved that dye introduced via the opening can be accurately introduced into the material of the body part of the stem.

When the hollow tube part extends from a start preferably located near the opening in the outer surface of the stem to the open end, it can be achieved that dye is only absorbed into the stem near the part of the body part opposite the opening.

When a start of the hollow tube portion is located outside the stem, and the hollow tube portion extends through the opening in the outer surface of the stem, it can be achieved that the tube portion is easily accessible for introducing dye.

When the hollow tube part comprises a supply of coloring agent, preferably coloring liquid, a dose of coloring agent can be supplied to the plant relatively easily over a longer period of time.

When the hollow tube part is initially provided with an entrance for introducing colorant, preferably coloring liquid, into the hollow tube part, the hollow tube part is easily accessible for the introduction of colorant. By providing the hollow can part with a seal at the beginning, preferably a permanent seal, it is possible to prevent the introduced dye from leaking out. Dye is elegantly introduced through the entrance, and the entrance is then closed off by sealing. Permanent sealing can prevent the hole in the stem from being made accessible again.

The hollow tube part can for instance be made of a plastic material, such as a straw. Because of the liquid-tightness, the hollow tube part can be elegantly made of plastic material, preferably thermoplastic plastic material. Naturally, the hollow tube part can also be made of natural material, such as for instance wood, for instance bamboo or straw.

The hollow tube portion can be inserted through the opening in the outer surface of the stem into the bore so that the end is located in the blind end portion of the bore. The hollow tube part is preferably received with a clamping fit in the bore, for example cylindrical or conical tube part which is received oversize in a cylindrical bore.

Via a free end of the hollow tube part protruding from the stem still beyond the opening of the bore, colorant can then be introduced at the beginning of the hollow tube part, for instance a volume of coloring liquid which is dripped in via a nozzle. The entrance of the hollow tube part is elegantly formed by an open end of the tube part. After possibly cutting off a portion extending beyond the opening of the stem near the opening of the stem, the hollow tube part can be sealed, for instance by filling the entrance with glue, for instance hot-melt glue, or melting it shut. Thus, leaves of the at least one flower or flower bud may be colored with a colorant which is received from the tube portion into the interior of the stem 1s via a wall surface of the bore.

The hollow tube part can be permanently received in the bore, and in particular be present in the pot plant as a consumer product.

In order to facilitate the absorption of dye by the body part, the hollow tube part can optionally be made liquid-permeable near the part in the first part and the end part of the bore during use.

When the body part comprises an epidermis extending inwardly, in particular radially inwardly from the outer surface, which is cut only near the opening in the outer surface by the first part of the bore, and which is kept clear of the end part of the bore, it can be achieved that there is minimal damage to the epidermis of the stem. The body portion of the stem preferably comprises a bundle of transport vessels extending along the longitudinal axis of the stem. The bore can then cut through the bundle of transport vessels at the location of both the first part and the end part. In addition, when the hollow tube part extends liquid-tight from the beginning to the open end, that dye can be achieved only via the wall surface of the end part of the bore, and more in particular only via cross-sectional transport vessels in the region of the body part which is overhanging. is received at the opening in the outer surface.

The invention also relates to a method for treating a pot plant, in particular an orchid pot plant, more in particular a Phalaenopsis pot plant, preferably and for obtaining a pot plant as set forth above, wherein the pot plant has at least one on a stem. comprises a flower or flower bud carried from the potted plant, and wherein the interior of the stem comprises a stem core, and a peripheral body portion surrounding the stem core and bearing the outer surface of the stem, the method comprising the steps of: bore in the stem extending from an opening in the outer surface of the stem through a first portion located in a region of the body portion adjacent to the opening, traversing the stem core through a further portion and extending to a blind end portion which is located in a region of the body part that is overhanging the opening, and - at the location of the further part of the bore that the stem core d The cross between the first part and the end part is to receive a hollow pipe part in the bore to form a bridge. The bridge is preferably liquid-tight.

The hollow tube part can be inserted into the bore through the opening in the outer surface of the stem, so that one end thereof comes to lie in the blind end part of the bore.

For example, dye can be introduced into the hollow tube part via an entrance colorant located at a free end of the hollow tube part. The hollow pipe part is elegantly received in the bore with a clamping fit.

The entrance can then be sealed, preferably permanently sealed. Leaves of the at least one flower or flower bud can be colored in that colorant is taken up from the tube part into the interior of the stem via a wall surface of the bore at the location of the body part. The hollow tube part can remain permanently accommodated in the bore and be present in the pot plant as a consumer product.

In the following description, reference will be made, by way of example, to the coloring with coloring liquid of a Phalaenopsis as an orchid pot plant. It will be clear that the term Phalaenopsis can be substituted by other types of pot plants such as Anthurium or Kalanchoe, and other types of orchid pot plants such as, for example, Cattelya, Cymbidium, Dendrobium, Epidendrum, Oncidium, Miltonia or Vanda. Suitable commercially available dyes for coloring leaves of flowers and buds of potted plants are, for example, methylene blue and incoline, or, for example, Flower blue TN 757742 from www.gdekoning.nl.

The invention will be further elucidated on the basis of an exemplary embodiment which is shown in a drawing. In the drawing: FIG. 1 a side view of a Phalaenopsis pot plant, FIG. 2 shows a detail of a front view of the stem of the pot plant of FIG. 1 at a hole in the stem, and FIG. 3 is a cross-section of the stem of the pot plant of FIG. 1 at the location of the hole of fig. 2 along the line III-III.

The drawings are only schematic representations of a preferred embodiment of the invention given by way of non-limiting exemplary embodiment. In the figures, identical or corresponding parts are indicated with the same reference numerals.

FIG. 1 shows a pot plant 1 of the genus Phalaenopsis with flowers 3 and flower buds 4 carried on a stem 2 of the pot plant 1. In FIG. 2 and FIG. 3 it can be seen that the interior of the stem 2 comprises a stem core 5, and a peripheral body portion 6 surrounding the stem core 5. The peripheral body part 6 carries the outer surface 7 of the stem, and comprises a epidermis 8 extending from the outer surface 7 inwardly, in particular radially inward, which regulates the moisture content in the stem 2. The stem core 5 in this example is comprised of a material which is relatively porous with respect to the material of the peripheral body part 6. The material of the stem core 5 is a fragile material with an open interspace cell structure, while the material of the peripheral body part 6 has a more dense cell structure and is more wooden. Furthermore, in FIG. 3 can be seen that the body part 6 of the stem 2 comprises a bundle of transport vessels 9 extending along the longitudinal axis L of the stem 2. The interior of the stem is provided with a hole 10. The hole is formed as a bore B extending from an opening 11 in the buten surface 8 through a first portion 11 located in a region 13 of the body portion adjacent the opening. , via a further portion 14 which traverses the stem core 5 and which merges into a blind end portion 15 located in a region 16 of the body portion which is opposite the opening

11. The bore B in the stem thus extends from one side 13 of the body part 6 while crossing the stem core 5 into the opposite side 16 of the body part 6. The bore B cuts through both at the location of the first part 12 and the end part 15 the bundle of transport vessels 9. The epidermis 8 is cut through only at the opening 11 in the outer surface 7. A hollow tube part 17 is included in the bore B which traverses the stem core 5 at the location of the further part 14 of the bore and forms a liquid-tight bridging from the first part 12 of the bore to the blind end part 15 of the bore. In this exemplary embodiment, the hollow tube part 17 is designed as a hollow cylindrical thermoplastic plastic straw with a diameter which is slightly oversize with respect to that of the bore B, which is also cylindrical in this example.

Additionally or alternatively, the bore B can be, for example, at least partially or completely conical, frusto-conical, rectangular and / or prism-shaped.

The tube part 17 comprises an open end 18 which debouches in the end part 15 of the bore B, which in this exemplary embodiment forms a receiving space for coloring liquid.

The hollow tube part 17 extends from a start 19 located near the opening 11 in the outer surface 7 of the stem 2 continuously liquid-tight to the open end 18. The start 19 of the hollow tube part 17 is located outside the stem and extends through the opening 11 in the outer surface 7 out to the interior of the stem 2.

The hollow tube part contains a supply of coloring liquid, which has been introduced via an entrance 20 formed by the tube opening at the beginning 19 of the hollow tube part 17.

This is done by inserting a hollow needle into the hollow tube portion 17 through the tube opening (not shown), and leaving drops of coloring liquid therein to form a supply of coloring liquid 22.

Subsequently, the hollow tube part is provided with a seal 21 by melting the entrance of the hollow tube part closed by heating and upsetting the beginning 19 of the hollow tube part 17.

The hollow tube part 19 is permanently received in the bore B and is present in the Phalaenopsis pot plant 1 as a consumer product.

The leaves of the flowers 3 and flower buds 4 of the Phalaenopsis pot plant 1 are colored in that color liquid from the stock 22 in the hollow tube part 17 has been received from the hollow tube part 17 into the interior of the stem 2 via a wall surface of the bore B, and via the transport vessels 9 to the leaves of the flowers 3 and flower buds 4. The coloring liquid is only absorbed via the wall surface of the end part 15 of the bore B, in particular only via cross-sectional transport vessels 9 in the region of the body part 6 which is protruding. at the opening 11 in the outer surface 7. Because a liquid-tight bridging of the stem core is provided by means of the hollow tube part 17, it is avoided that dye introduced via the opening 2 leaks away to the stem core 5. The material of the stem core is thus not attacked by the coloring liquid, and the undesirable side effect of forming a cavity in the stem core 8 is avoided.

The maximum dimension D of the hole in the direction parallel to the longitudinal axis of the stem L is and therefore remains equal to the dimension H of the opening 2 in the outer surface 7 in a direction parallel to a longitudinal axis L of the stem, and does not increase .

The invention is not limited to the exemplary embodiment given here.

Many variations will be apparent to those skilled in the art, and are understood to be within the scope of the invention as set forth in the following claims.

Claims (21)

CONCLUSIONS Pot plant, in particular orchid pot plant, and more in particular Phalaenopsis pot plant, comprising at least one flower or flower bud carried on a stem of the pot plant, the interior of the stem comprising a stem core, and a peripheral body part comprising the stem core. surrounds and which carries the outer surface of the stem, and wherein the interior of the stem 1s is provided with a hole, the hole being formed as a bore extending from an opening in the outer surface through a first portion that fits into the opening adjoining region of the body portion is located up to a further portion located in the stem core, characterized in that the further portion of the bore traverses the stem core and continues up to a blind end portion located in a region of the body portion being in front of the opening, and that a hollow tube part 1s is included in the bore, which, in particular, flows at the location of the further part of the bore which traverses the stem core. or tight, bridging between the first portion of the bore and the end portion of the bore. Pot plant as claimed in claim 1, wherein the hollow tube part comprises an open end that debouches in the end part of the bore. Pot plant as claimed in claim 2, wherein the hollow tube part extends from a start preferably located near the opening in the outer surface of the stem to the open end. A pot plant according to any one of the preceding claims, wherein a start of the hollow tube part is located outside the stem, and wherein the hollow tube part extends through the opening in the outer surface of the stem. Potted plant according to any one of the preceding claims, wherein the hollow tube part comprises a supply of coloring agent, preferably coloring liquid. A pot plant according to any one of the preceding claims, wherein the hollow tube part is provided at the beginning with an entrance for introducing colorant, preferably coloring liquid, into the hollow tube part. Pot plant according to any one of the preceding claims, wherein the hollow tube part is provided at the beginning with a seal, preferably a permanent seal. Pot plant according to claim 6 or 7, wherein the seal is formed by a closed entrance of the hollow tube part. Pot plant according to any one of the preceding claims, wherein the body part of the stem comprises a bundle of transport vessels extending along the longitudinal axis of the stem. Pot plant according to claim 9, wherein the bore intersects the bundle of transport vessels both at the location of the first part and the end part. A potted plant according to any one of the preceding claims, wherein the peripheral body part comprises an epidermis extending inward from the outer surface and which is only intersected by the first part of the bore near the opening in the outer surface, and is kept clear of the end part of the bore. Pot plant according to any one of the preceding claims, wherein the stem core is hollow or comprises a material which is relatively porous with respect to the material of the peripheral body part. A pot plant according to any one of the preceding claims, wherein the hollow tube part is permanently received in the bore, and is present in particular in the pot plant as a consumer product. A pot plant according to any one of the preceding claims, wherein leaves of the at least one flower or flower bud are colored with a colorant which has been received from the tube part into the interior of the stem via a wall surface of the bore, in particular only via the wall surface. of the end portion of the bore, and more particularly only through cross-sectional conveyor vessels in the region of the body portion which is overhanging the opening in the outer surface. 15. A method for treating a pot plant, in particular an orchid pot plant, more in particular a Phalaenopsis pot plant, preferably to obtain a pot plant according to any one of the preceding claims, wherein the pot plant has at least one on a stem of the pot plant. supported flower or flower bud, and wherein the interior of the stem comprises a stem core, and a peripheral body portion surrounding the stem core and bearing the outer surface of the stem, the method comprising the steps of: making a bore in the stem stem extending from an opening in the butene surface of the stem through a first portion located in a region of the body portion adjacent to the opening, traversing the stem core through a further portion and continuing to a blind end portion located in an area of the body part that is overhanging the opening, and - at the location of the further part of the bore that crosses the stem core between the first d and the end part receive a hollow pipe part in the bore to form a bridge. The method of claim 15, wherein the hollow tube portion is inserted through the opening in the outer surface of the stem into the bore so that one end thereof lies in the blind end portion of the bore. 17. A method according to claim 15 or 16, wherein the hollow pipe part is received in the bore with a clamping fit. 18. A method according to any one of claims 15-17, wherein colorant is introduced into the hollow tube part via an entrance of the hollow tube part located at a free end of the hollow tube part. A method according to claim 18, wherein the entrance is subsequently sealed, preferably permanently sealed. 20. A method according to any one of claims 15-19, wherein leaves of the at least one flower or flower bud are colored in that dye is absorbed from the tube part into the interior of the stem via a wall surface of the bore at the location of the body part. 21. A method according to any one of the preceding claims 15-20, wherein the hollow tube part remains permanently received in the bore and is present in the pot plant as a consumer product.