SK284692B6 - Plant and culture container and method for producing thereof - Google Patents

Abstract

Plant and culture container (1), in particular for growing and producing plants, which comprises a base part (3) and a side wall part (4) integral therewith, whereby these parts (3, 4) consist of a coconut fabric comprising coconut fibres connected by latex. To improve the dimensional stability and handling of these products whilst retaining their biodegradability, at least the side wall part (4) of the container (1) is provided with one or a plurality of stiffening ribs (5, 5', 5'', 5''', 5'''', 5'''''). A method for producing a plant and culture container (1) comprises forming by hot-press drying from a coconut fleece blank constructed as a semi-finished mat with open individual fibres and the latex bonding zones.

Description

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a planting and cultivation vessel for holding plants having a bottom part and a side portion formed therefrom, which parts are made of a coconut fleece having latex-bonded coconut fibers and which can be used as a fully biodegradable seed vessel. for the cultivation and production of plants at the place of production. The invention also relates to a method for producing such a seed and cultivation vessel.

BACKGROUND OF THE INVENTION

Known seed and cultivation vessels of this kind (DE GM 81 18 099) have a bottom part and a side part made therefrom in one piece, these parts being composed of disorderly oriented coconut fibers in the form of a fleece and the coconut fibers are joined together by dried latex milk, in particular natural latex. Such seed pots, however, have a low dimensional stability, which has the disadvantage of both being transported when empty and of growing plants. AU-B-583 294 discloses a coconut-shaped hanging basket which, using a high-temperature-cured synthetic resin, is reinforced into a shape-stable decorative element which cannot be melted, which is neither intended nor suitable for use as seed potatoes. and a cultivation vessel for cultivation and production at the site of cultivation.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The object of the present invention is to provide a planting and cultivation vessel which, with improved transport capability, facilitates overall simplified handling while guaranteeing undisturbed plant cultivation over a longer period of time.

The invention solves this problem by providing at least a lateral part of the planting and cultivation vessel provided with one or more reinforcing ribs integrated therein which are formed by densifying the material (s), the reinforcing ribs defining intermediate regions having a lower coir density and and / or latex as the area of the reinforcing ribs and thus represent areas of less rigidity and sufficient extensibility.

The planting and cultivation vessel made according to the invention has, with the reinforcing ribs formed circumferentially in its side and / or bottom part, a wall stabilization which achieves an increase in the shape stability of the vessel, which can thus be transported more easily in the stoops as well as less space, and improved handling is possible when used as intended. The stiffening ribs are formed by overlapping the coir fibers of the nonwoven material so that, with only mechanically processed coir fibers and a low proportion of latex, the seed vessel is retained as a natural product capable of decanting, yet still has a long-term stability in plant growth.

At the same time, the reinforcing ribs and intermediate portions remaining along the perimeter of the vessel are the same material-like regions, but combining the different elastic properties of the coconut fleece, which are specifically useful in growing plants with different sized root covers.

On the one hand, the elastic extensibility of the container is retained in the region of the reinforcing ribs or by the densification of the coir or coconut fibers at increased stiffness, and on the other hand, due to the lower density of the coir and / or latex, they form regions of less stiffness and sufficient extensibility. As a result, the root wrap, expanding in the container during growing, as its volume grows, can pass through its roots through unrestricted growth through its roots, and for subsequent planting of plants along with the container, the stable wrapping portion remains preferably around the root wrapper so that it can be dimensionally stable. Reliable protection of the plant is achieved by the reinforcing ribs even under harsh transport conditions, and after transfer to the final cultivation site, the remaining parts of the vessel walls can be biodegraded without residues.

In the production method according to the invention, the planting and cultivation vessel is formed by hot pressing drying from a coconut fleece blank formed as a fiber blank with open individual fibers and latex binder areas.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be further elucidated by means of specific exemplary embodiments illustrated in the drawings, in which FIG. 1 shows a perspective view of a planting and cultivation vessel with reinforcing ribs provided in its side part, FIG. 2 shows a planting and cultivation vessel similar to FIG. 1 with a higher material density in the region of the side part, respectively. FIG. 3 to 8 show individual views of the planting and cultivation vessel, similar to FIG. 1 with different modifications of the reinforcing ribs in the lateral parts, FIG. Fig. 9 is a front view of a forming device for producing a seed and cultivation vessel from a coconut fleece blank; 10 is a top view of the device of FIG. 9, FIG. 11 is a side view of the device of FIG. 9 and FIG. 12 to 14 are views from above of the planting and cultivation vessel with different reinforcing ribs in the lateral part, respectively. bottom part,

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1, a planting and cultivation vessel, denoted as a whole by reference numeral 1, is shown in which the feeding space 2 constituting the filling volume can be loaded with a plant (not shown) adapted for cultivation and production. The planting and cultivation vessel 1 has a substantially flat bottom part 3 and a lateral part 4 formed therefrom in one piece, these parts 3, 4 consisting of a coconut web having latex-bonded coconut fibers, which in all the illustrated embodiments according to FIG. . 1 to 8 formed into a container 1 having a truncated cone contour. It is also conceivable to form a container 1 with a cylindrical base mold or to produce container containers in the form of containers from a coconut fleece.

In the planting and cultivation vessel 1, at least a lateral portion 4 is provided with a plurality of reinforcing ribs 5 integrated therein, by which the lateral portion 4 is simultaneously divided in the circumferential direction into the intermediate region 6. Thus the planting and cultivation vessel 1 has a lateral portion 4. increased support and extensibility are achieved, which is capable of increasing the filling volume in the region of the intake space 2, and thus the universal use of the seed and cultivation vessel 1 is also possible for long-term pre-cultivation.

In an advantageous embodiment, the reinforcing ribs 5 are formed by an overlap region with material-coconut coir fibers. It is also conceivable to reinforce the regionally side portion 4 of the seed and cultivation vessel 1 by manufacturing by inserting a coconut web or strip, and thus at a low cost, a number of reinforcing ribs 5 to achieve adaptation to said container size 1.

The reinforcing ribs 5 have an increased proportion of latex compared to the intermediate regions 6, whereby the latex can be added during the manufacture of the container 1 and thus the interlocking layers of the coconut fleece can be joined by a material joint.

The containers 1 shown in FIG. 1 to 3, have stiffening ribs 5 which extend substantially parallel to the median longitudinal axis 7 in the side part 4. In the embodiment of the container 1 according to FIG. 4 and 5 are the side sections 4 and 5, respectively. bottom part 3, provided with intersecting reinforcing ribs 5 'resp. 5 and FIG. Figures 6 to 8 illustrate other possibilities that form the side portions 4 of the container 1 with reinforcing ribs 5 '', 5 'and 5' such that the stability of the wall while maintaining the elastic properties of the coconut fleece is increased.

The planting and cultivation vessel 1, with a high stability of the entire base body of the vessel in all the illustrated embodiments, is quite permeable to the roots, and in particular the interregions 6 are of different fleece thicknesses adaptable to the plant growing conditions present in the vessel. 4 shows unrestricted root development, wherein the root bark is not cut, pushed or clamped, so that the container 1 according to the invention has advantageously improved properties compared to plastic containers or flax or hemp fiber of high tensile strength.

The plants placed and grown in the container 1 form a biological unit with the container material, wherein the elastic coconut fiber material is integrated into the individual stages of plant development, while rotating growth inhibiting growth can be avoided, thereby advantageously eliminating the substantial disadvantage of known clay, peat , paper, hemp and linen containers.

The coir fleece used for the seed and cultivation vessel 1 is improved in its elastic properties when processed from the raw material. In this case, the coconut fiber can be opposed to other natural fibers e.g. hemp, flax, jute or sisal in their tensile strength enhanced by the fact that the coconut is, after being released from the hulled raw material, wound on a reel and subsequently steamed, twisted and dried. By means of these mechanical processing processes, the coconut fiber acquires an internal tension, such as a helix or spiral-shaped tensioning force, which is retained also after being transformed into the shape of the container described, and thus has in the region of the parts 3, 4 and 3, respectively. reinforcing ribs 5, advantageous elastic properties.

The treated coconut fibers are laid extensively in the coconut fiber web and sprayed with latex (especially a mixture of rubber milk) and dried. In a preferred embodiment, the coir blank forming the preform can be formed from twisted and individual coir fibers, so that the properties of the coir blank can be formed by fractions of coir and latex (e.g. by different fiber thicknesses of the parts as shown in comparison 1 and 2) variable so that different containers 1 can be prepared according to specific customer requirements for a wide range of applications.

In FIG. 12 to 14 illustrates a plan view of the planting and cultivation vessel of the arrangement of the different reinforcing ribs 5 in the lateral portion 4 or 4, respectively. in bottom part 3 (Fig. 13).

In FIG. 9 to 11, there is shown in principle a method of making a shaping device 10 for producing a planting and cultivation vessel 1. In a pre-treatment step (not shown), a coconut fleece blank, existing as a blanket corresponding to the modified size of the container 1 is stamped into a blank having a larger diameter. than the bearing diameter 11 (FIG. 10) in the working area of the device 10.

In the region of the fleece zones of the blank forming the reinforcing ribs 5 after shaping, this corresponding number of reinforcing ribs 5, respectively, is provided with radially directed slits, and these regions of the fleece material are superimposed over each other such that multilayer material bonding occurs. The die cut blank prepared for pressing in the device 10 may additionally be latex sprayed on its surface in order to improve the surface bond of the container 1 overall.

For shaping, the embossed coconut blank having the above cuts is positioned on the stop plate 12, 12 'of the apparatus 10, then the press roller 13 is rotated in the work direction (arrow 15) by means of the rotary holder 14 and the coconut blank is pressed through At the same time, the hot pressing process is combined with the hot pressing process by supplying hot air to the pressing zone between the pressing cylinder 13 and the core mold 16 and the discharge holes 18 in the pressing cylinder through the distribution nozzles 17. 13, the hot air is removed. By this pressing and drying operation at the same time, the shaping of the coconut fleece blank into a basic form of the container 1 is achieved at low cost. In an expedient embodiment, a plurality of devices 10 can be arranged side by side in series production, so that the number of simultaneously shaped containers 1 is increased.

These containers 1, now as intermediates, remain on the core form 16 coupled to the device 10 in the region of the holding plate 19, and together with it remain in a drying oven (not shown) so that the shape of the coconut blank is stabilized by its latex content. then a sufficiently stable container 1 can be removed from the drying oven and can be stacked, which is space-saving in transport.

The duration of the drying process can be matched to different proportions of coconut fiber and latex in the blank, the drying temperature being in the range of from 80 to 140 ° C, preferably 120 ° C. After the drying process, the shaped planting and cultivation vessel 1 is removed from the manufacturing core mold 16 and can then be vulcanized in an autoclave (not shown), whereby the latex binder passes elastically at 20 psi at about 120 ° C for 20 minutes. of the mouldable state, thereby achieving an end shape stable and elastic state of the container 1.

For the containers 1 shown in FIG. 1 to 8, different portions of coconut fiber, respectively. weight of the nonwoven material, wherein the material bond is additionally variable with different latex content. For cultivation and planting containers 1 with different filling spaces (tensioning volumes), the following material compositions are given, for example, in the usual dimensions:

up to 4 L = 600 g / m ^{* 1 2 * * S} with a latex content of at least 50%; wall thickness up to 10 mm from 4.5 l to 101 = 800 g / m ² with a latex content of at least about 50%; wall thickness 12-15 mm

10.5 1 to 25 1 = 1 200 g / m ² with a latex content of approximately% and a wall thickness of 15-16 mm

25.5 1 to 50 l = 1400 g / m ² with a latex content of approximately%; wall thickness 18-20 mm pot above 50 l = more than one layer of nonwoven and each layer 1000 g / m ² and a latex ratio of about 50%; wall thickness 12 mm

At the same time, with the described planting and cultivation containers 1, the permeability of the container for water, nutrients and air is guaranteed with improved shape stability, so that the specific aeration of the product is accelerated plant growth through improved gas exchange. in case of increased water pouring reliably prevents rotting, and the formation of lateral parts, resp. The ideal pore volume for conducting air and water is achievable in the bottom portions of the seed and cultivation vessel 1.

With the improved seed and cultivation vessel 1 in terms of its stability, a full replacement of the seed pots available on the market is possible and, with regard to its application, it is possible to fill the demand gap with the vessel in the nursery management modem, as well as in the current marketing of trees and shrubs under ecological acceptance and under conditions saving packaging material, it has not yet been sufficiently filled.

With the planting and cultivation vessel 1 described, the wrapping and transport tasks of nurseries and garden plants from the place of creation and cultivation to the final habitat can be solved, with no additional materials for stabilizing the root envelopes and no residual materials burdening the environment. This is particularly important when used in plant cultivation, plant propagation and nursery nurseries. These plastic pots cannot meet the environmental and waste management requirements because waste disposal is complicated. In addition, the removal of such plants grown in stable pots is laborious because the roots are overgrown by the drainage and irrigation holes of the plastic pots, so that additional manual work is required, the root pack is greatly damaged and the unity of roots and cultivation substrate is destroyed.

On the other hand, the shelf life and the ability of the planting and cultivation vessel 1 according to the invention to absorb roots throughout the entire cultivation period is guaranteed. In addition, the material of the container 1, made of natural coconut fiber, can also be optimally formed in terms of cost, because of the low production costs and the disposal of waste.

Another preferred field of application for the container 1 is provided with the possibility of summer growing of multiannual large plants, which are supplied with the root envelopes and with the container 1 obtain optimal root wrapping. Especially for large trees and large solitaires, the elastic properties of the planting and cultivation containers 1 allow for sufficient root growth at high stability and tensile strength, which in the next growth phase of the plant is eliminated by completely entraining the coconut fiber material used and thereby completely preventing soil contamination.

Claims (13)

PATENT CLAIMS Planting and cultivation vessel (1) for storing plants having a bottom part (3) and a side part (4) formed therefrom in one piece, said parts (3, 4) being formed of a coconut fleece having latex bonding and being usable as a fully biodegradable seed pot for planting and producing plants at a place of cultivation, characterized in that at least a side portion (4) of the seed and cultivation vessel (1) is provided with one or more reinforcing ribs (5; 5 '; 5'; 5 '' and 5 ') integrated therein and formed by densification of the material, the reinforcing ribs (5; 5'; 5; 5 '; 5 and 5'); ...) define intermediate areas (6) which have a lower density of coconut fibers and / or latex than the reinforcing rib area (5; 5 '; 5; 5'; 5 and 5 .....) and thus represent areas with less stiffness and sufficient extensibility. Planting and cultivation vessel according to claim 1, characterized in that the reinforcing ribs (5) are each formed by one overlap region with the material-linked coconut fibers of the coconut fleece. Planting and cultivating vessel according to claim 1 or 2, characterized in that the proportion of latex in the reinforcing ribs (5) is increased compared to the intermediate regions (6). Planting and cultivation vessel according to one of Claims 1 to 3, characterized in that the reinforcing ribs are formed by substantially horizontally extending overlapping regions in the side part (4). Planting and cultivation vessel according to one of Claims 1 to 4, characterized in that the reinforcing ribs (5) are formed by multi-layer overlap regions of the coconut fleece. Planting and cultivation vessel according to one of claims 1 to 5, characterized in that intersecting reinforcing ribs (5; 5 5 .....) are formed in the side part (4) and / or the bottom part (3). A method for producing a planting and cultivation vessel according to claim 1, characterized in that the planting and cultivation vessel (1) is formed by hot pressing drying from a coconut web blank formed as a fiber blank with open individual fibers and latex binder areas. Method according to claim 7, characterized in that a plurality of coconut fleece blankets are formed from a blanket mat with substantially the same web thickness. Method according to claim 7 or 8, characterized in that the coconut fleece blank is provided with at least one cutting cut extending along the length of the side part (4) and in the region thereof an overlap region constituting the reinforcing ribs (5) is formed. . Method according to claim 7 or 8, characterized in that the coconut fleece blank is provided with at least one fold extending over the height of the side portion (4) and forming a region of a multilayer overlap of reinforcing ribs. Method according to claim 7 or 8, characterized in that the reinforcing ribs are formed by folds extending in the side portion in the direction of the circumference of the container. Method according to any one of claims 7 to 11, characterized in that the coconut fleece blank formed into the seed cultivation vessel (1) is, in the region of the reinforcing ribs (5; 5 '; 5; 5'; 5 and 5); 5 .....) equips with different proportions of latex to form extensible regions with different elastic properties. A method according to any one of claims 7 to 12, characterized in that the coir blank is formed from coil wound, coiled, twisted and dried.