NO811252L - PLANT POTS, SPECIFIC TO VARIETIES. - Google Patents

Description

The present invention relates to a plant pot which is particularly intended for vascular plants. Vascular plants are plants that get their root system very far developed while the plants are still in pots or tubs or enclosures of one kind or another, and thus before the plants are planted out in their final growing place.

The previously known vessels for vascular plants all have

the disadvantage that they must be removed when the plants are planted out. This operation will often damage the roots and even if it is done ever so carefully, the tips of the root hairs will be easily affected so that the growth is set back, and it is precisely the unbroken growth that is intended with vascular plants.

As the plants are taken out, the packaging becomes free and all experience shows that this is not returned to nurseries or nurseries, but is stored unnecessarily or used for other purposes. This applies to pots and vessels made of rigid materials. An attempt to solve this problem is the cultivation of vascular plants in bag-like containers made of plastic foil. The idea is that the plastic foil should be destroyed, e.g. is burned when the plants are set out, but there is still the disadvantage that the plant root must be unpacked when planting, and a further disadvantage is that bag-like containers made of plastic foil are not able to retain their shape. This particularly applies to the shape of the bottom. Plastic foil containers are very suitable for mechanical filling of growing medium and setting plants in tubs, but as the roots grow and the growing medium swells, the plastic foil tub will bulge out at the bottom, which can become almost hemispherical, and thus the tub will not be able to stand. One must also take into account here that the plant is getting bigger and bigger with a rising center of gravity, at the same time that the bottom may be getting rounder and rounder, and the vascular plants must then be supported with appropriate means, e.g. in that they stand close to each other with the disadvantage that when one or two vascular plants are removed, perhaps a whole section of the others will fall over and have branches, shoots and leaves damaged or broken.

There is thus a need for a plant pot which is suitable for mechanical filling of growth medium and mechanical setting of the plant, after which the pot is constantly supported during the plant's growth in this. In addition, the tub must keep the plant root together and prevent overgrowth so that the root from one plant grows together with the roots of a plant standing next to it.

Furthermore, the pots and vessels used to date have mostly round cross-sectional shapes, and it has been shown that growing root parts follow the cross-sectional shape and get what experts call root spin, which is bad for the root. It has been shown

that root rot can be canceled by placing ribs or elevations in pots and vessels, but this requires special measures during the processing and production of the vessels. In the present invention, root spin is. prevented in a far simpler and more appropriate way. There is also a great need to be able to plant out vascular plants without risk of damage to roots and root hairs and this is also achieved with the present invention, at the same time that the problem of getting rid of the vessels after planting disappears by itself.

According to the invention, this has been achieved with a vessel which is cheap to manufacture as it is made of wet-resistant cardboard. The tub can be mass-produced in large quantities in a flat state so that the tubs are cheap to transport from the producer to the nursery, gardener or other consumer. At the point of consumption, the cardboard container is raised, at the same time as the bottom unfolds to the correct position automatically in a manner known per se. The tub has a square shape that prevents root rotation and makes the tub suitable for mechanical filling and planting. The flaps that form the bottom are dimensioned in such a way that the bottom rises into the tub and thus becomes so stiffened and thus load-bearing that soil or growing medium that swells during the growth of the roots cannot bulge the bottom out. In this way, the tub will remain stable for as long as it is in use. The square shape also makes good use of the space available to the consumer. In appropriate places in the side walls of the tub, there are weaknesses in the form of perforations, cuts or the like, where fields can be torn out, which is done during planting when the plant is set out with the packaging around the root. It is not removed and thus the root will be undamaged. However, the root continues to develop in the new surroundings through the torn areas of the container's side wall, and over time the material in the plant container dissolves in the soil. In this way, the plants get uninterrupted growth and a very smooth and careful transition from one growing environment to another.

The invention is characterized by the features set out in the claims and will be explained in more detail in the following with reference to the drawing where: Fig. 1, in perspective, shows a ready-made plant pot made of cardboard, and

fig. 2 shows a section through the cardboard in fig. 1.

The cardboard used in the plant container according to the invention must be wet-resistant to such an extent that it does not disintegrate during the time it takes a container plant to develop into a state ready for planting. This time varies from plant type to plant type, and there are no problems associated with giving the cardboard the wet strength that is needed in the individual cases. The carton has four side surfaces 1 and a bottom 2 as shown in fig. 1, where the side surfaces are shown transparent for the sake of overview. The bottom 2 consists of four flaps which are so designed and laid in such a way that the bottom closes itself when the flat cardboard container is folded up into a position for use. However, the dimensions of the tabs or flaps in the bottom have been chosen so that the bottom 2 rises into the cardboard container as is clearly shown in fig. 2. Thus, as explained, the bottom gets good bearing capacity and stiffness and it will not bulge out under the pressure of the growing root and swelling growing medium. In the bottom there are also drainage holes - 3 in a number and in such a size that there may be a need for them. In this vessel, which is suitable for mechanical filling and planting, the plant develops and the square shape has been shown to prevent root rot. As the bottom rises inside the tub, this will stand firmly and firmly, so that the possibility of a vascular plant falling over and being destroyed as a result is virtually eliminated.

When planting takes place, the tub is placed with it

plant out at the future growth site and to give the roots opportunities to grow into the new environment before the cardboard container has disintegrated, the container has fields 4 that are surrounded by perforations 5. The fields can have tear tabs 6 so that they are easy to tear out. After a certain time, the wet-strength cardboard dissolves in the soil where the plant stands and becomes part of the mulch. In order to reinforce the upper edge and prevent the penetration of moisture in the area where there is anyway no soil, the cardboard tub has a re-bend 7 into the tub.

The tear-out fields 4 can have different shapes

and sizes, and three randomly selected versions are shown in the drawing. In addition to the aforementioned advantages of the cardboard container standing firm during the entire growth period, preventing root spin and enabling planting with little or no damage to the root system, planting is also much faster than with previously known forms of containers, as by removing e.g. a tight-fitting plastic bag around a root ball is time-consuming, in addition to the fact that the tearing easily leads to the previously described root damage.

The example shown only serves to illustrate the invention and forms no limitation for the protection this patent provides, as the embodiments will be adapted to the requirements set by each individual plant variety, e.g. some plants will require higher or lower pots in relation to the size of the cross-section and larger or smaller fields that can be pulled out.

The cardboard material itself can also contain growth promoters, trace elements, fertilisers, and anything else that may be needed.

Claims (5)

1. Device for growing vascular plants, characterized in that it comprises a vessel with a polygonal, preferably square or rectangular cross-section, of wet-resistant cardboard with a bottom that rises into the cardboard and in that the side walls of the cardboard have tear-out fields. 2. Device as specified in claim 1, characterized in that the tear-out fields are surrounded by perforations or other forms of weakening. 3. Device as specified in claim 2, characterized in that tear-out fields have tear tabs. 4. Device as specified in claim 1, characterized in that the cardboard material at the upper edge of the tub is folded, preferably on the inside. 5. Device as specified in one or more of the preceding claims, characterized in that the bottom is built up of overlapping fields which, when the cardboard container is folded up from the folded position, automatically slide self-locking into each other and determine the cross-sectional shape of the container.