SK149297A3 - Plant and culture container - Google Patents

Abstract

The invention concerns a 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. The base part (3) and side wall part (4) consist of a non-woven coconut fabric comprising coconut fibres connected by latex. In order, in particular, 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'"").

Description

SkVBENk AND CULTIVATION VESSEL

Technical field

The invention relates to a planting and cultivation vessel according to the preamble of claim 1.

BACKGROUND OF THE INVENTION

Known seed and cultivation vessels of this kind (DE GM 8118099) have a bottom wall part and a side wall part in one piece, which wall parts are formed of a disorderly oriented coconut fiber in the form of a fleece and the coconut fibers are joined together by a dried latex milk, especially natural latex. Such a seed pot consists of coir fibers of preferably biodegradable material, but at the same time the seed pots have poor shape stability, which has a disadvantageous effect both during its transport, when empty and in its use.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The present invention solves the problem of providing a planting and cultivation vessel which, with improved transport capability, facilitates an overall simplified handling while guaranteeing undisturbed growth of peat for a longer period of time.

The invention solves this object by the features of claim 1. With regard to further substantial modifications, reference is made to claims 2 to 15.

The planting and cultivation vessel produced according to the invention has, with the reinforcing ribs formed circumferentially into the side wall and / or the bottom wall part, a stabilization of the walls with which an increase is achieved

818 / B, the shape stability of the container can thus be more easily transported in the stacks as well as less space needed, and improved handling is possible when used as intended. The stiffening ribs are formed from the interweaving of the coir fibers of the web material so that only the mechanically processed coir fibers and the low latex content retain the seed container entirely as a natural product capable of well-spraying, and yet the container still has a long-term stability for plant growth.

At the same time, the reinforcing ribs and partition walls remaining in the circumferential direction of the vessel are formed by the material-like but different elastic properties of the coconut fleece, combining areas which can be utilized in the cultivation of plants with differently sized root envelopes.

On the one hand, the elastic expansion of the container is fully maintained in the region of the reinforcing ribs by the densification of the coir fleece or the coir fibers at increased elasticity, and on the other hand the intermediate wall portions form a zone of low elasticity and sufficient expansion. As a result, the root wrap, expanding in the container during growing time with increasing volume, can pass through the roots of its divergent roots during unrestricted growth, and for subsequent planting of the plants along with the container preferably a stable wrapping section remains around the root wrapper so that With the help of ribs, reliable protection of the plant is achieved under harsh transport conditions and after transfer to the final cultivation site, the remaining parts of the vessel walls can be biodegraded without residues.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be explained in more detail by means of the specific embodiments shown in the drawings in which it represents

818 / B fig. 1 is a perspective view of a planting and cultivation vessel with stiffening ribs provided in its side wall portion; FIG. 2 shows a planting and cultivation vessel similar to FIG. 1 with a higher material density in the region of the side wall portion or in the region of the side wall. 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 side wall portions, FIG. Fig. 9 is a front view of a forming device for producing a seed and cultivation vessel from a coconut fleece blank; 10 fig. 11 fig. 12-14 show a top view of the device of FIG. 9, a side view of the device of FIG. 9 and top views of planting and cultivation pots with different reinforcing ribs in the side wall portion or in FIG. bottom part.

DETAILED DESCRIPTION OF THE INVENTION

In FIG. 1 is a planting and cultivation vessel in which the tensioning space 2 constituting the filling volume can be loaded with a plant (not shown) adapted for planting and transporting. The planting and cultivation vessel 1 has a substantially flat bottom part 3 and a side wall part 4 formed therewith in one piece, said wall parts 3, 4 consisting of a coconut web having latex-bonded coconut fibers, which are in all the illustrated methods FIG. 1 to 8 a molded dc 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.

818 / B

In the seed and cultivation vessel 1, at least a side wall portion 4 is provided with a plurality of reinforcing ribs 5 integrated therein, by which the side wall portion 4 is at the same time divided into circumferential areas 6 in the circumferential direction 6. Thus the seed and cultivation vessel 1 has a side wall portion 4 By means of which a support and expansion function, an adaptable increase in the stretching volume in the region of the tensioning space 2, is achieved jointly, and thus the universal use of the seed and cultivation vessel 1 for long-term cultivation is possible.

In an advantageous embodiment, the reinforcing ribs 5 are formed by the interlace region of the interwoven coconut fibers of the coconut fleece. It is also conceivable to reinforce the regionally side wall portion 4 of the planting and cultivation vessel 1 during production by inserting a coconut web or strip and thus, at a low cost, a number of stiffening ribs 5 to achieve adaptation to said container size L

The stiffening ribs 5 have an increased proportion of latex compared to the partition walls 6, whereby the latex can be added during the manufacture of the container 1, and thus the interconnected layers of the coconut fleece can be interconnected by fabric contact.

The containers 1 shown in FIG. 1 to 3, have reinforcing ribs 5 which extend substantially parallel to the median longitudinal axis 7 in the side wall portion 4. In the embodiment of the container 1 of FIG. 4 and 5 are the side wall portions 4 and 4, respectively. the bottom wall part 3 is provided with intersecting reinforcing ribs 51 resp. 5 ”and the illustrations in FIG. Figures 6 to 8 illustrate additional possibilities that the side wall portions 4 of the container J with reinforcing ribs 5 ', 5' 'and 5' '' provide 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, can be easily penetrated by the roots in all the illustrated embodiments, in particular the interstage regions 6 are different in nonwoven thicknesses adapted to the plant growing conditions present in the vessel.

818 / B properties of the side wall portion 4 unrestricted root development, wherein the root bark is not cut, creased or wrinkled, so that the container 1 according to the invention has advantageously improved properties compared to containers of plastic or linen 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 the plant development, while rotating growth inhibiting development can be avoided, thereby advantageously eliminating the substantial disadvantage of known clay. peat, paper, hemp, and flax containers.

The coir fleece used for the seedling and cultivation vessel 1 is improved in its elastic properties when processed from the raw material. In this connection, the coconut fiber, in contrast to other natural fibers such as hemp, flax, jute or sisal, can be improved in its tensile strength by winding the coconut fiber in a water-based existence after release of the plated raw material and subsequently steaming, twisting and drying . By means of these mechanical processing processes, the coconut fiber obtains an internal tension, such as a helix or a spiral-shaped tensioning force, which is retained also after being transformed into the container shape described, and thus has 3 or 4 in the area of the wall portions. The reinforcing ribs 5 have 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 (for example, different fiber widths of the wall portions 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.

818 / B

In FIG. 12 to 14 illustrate a plan view of the planting and cultivation vessel of the arrangement of the various reinforcing ribs 5 in the side wall portion 6 and / or in FIG. 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 prepared, not illustrated processing step, a coconut fleece blank, existing as a blanket corresponding to the modified size of the container 1, is embossed into a blank. 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 ribs 5 after shaping, the corresponding number of reinforcing ribs 5, respectively, is provided with radially directed notches, and these regions of the web are overlapped so that a multilayered material bond is present. The die cut blank prepared for pressing in the apparatus 10 may additionally be latex sprayed on its surface in order to improve the surface bond of the container L overall.

For shaping, the embossed coconut web 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 web is compressed through At the same time, the hot pressing process overlaps the hot pressing drying process by supplying hot air to the compression zone between the pressing cylinder 13 and the core mold 16 and the discharge holes 18 in the pressing cylinder 13 through the distribution nozzles 17. the hot air is removed. By this pressing and drying operation at the same time, the shaping of the coconut fleece blank into the basic form of the container 1 is achieved at low cost. In an expedient embodiment, in series production a plurality of devices 10 can be arranged side by side, so that the number of simultaneously shaped containers 1 is increased.

818 / B

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 web is stabilized by its latex content. and then the sufficiently stable container 1 can be removed from the drying oven and can be stacked in terms of space for 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 produced core mold 16 and can then undergo vulcanization in an autoclave (not shown), whereby at a pressure of about 0.15 MPa and a temperature of about 120 ° C after 20 minutes of the mouldable state, thereby achieving an end shape stable and elastic shape of the container 1.

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

up to 4 L = 600 g / m ² with a latex content of at least 50%; wall thickness up to 10 mm

from 4.5 I to 101 = 800 g / m ² with a latex content of at least about 50%; wall thickness 12-15 mm 10.5 1 to 251 = 1200 g / m ² with a latex content of approximately 60% and a wall thickness of 15-16 mm

818 / B

25.5 l to 50 l vessel over 50 l = 1400 g / m ² with a latex content of approximately 60% wall thickness 18-20 mm = more than one layer of nonwoven and each layer 1000 g / m ² and a latex content of about 50% ; wall thickness of individual layer 12 mm

At the same time the permeability of the water, nutrient and air container is guaranteed with the described seedling and cultivation containers with improved shape stability, so that the specific aeration of the product through accelerated gas exchange can accelerate plant growth. Increased water pouring reliably prevents rot, and the formation of side wall parts, or. The ideal pore volume for conducting air and water is achievable through the bottom wall portions of the seed and cultivation vessel 1.

With the improved seed and cultivation vessel X in terms of its stability, a full-scale replacement of seed pots on the market is possible, and with regard to its application, it is possible to fill the demand gap with vessel 1, which in modern nursery management, as well as in the current market introduction of trees and shrubs in ecological acceptance and under conditions saving cereal material, where it could not yet be sufficiently filled.

With the described planting and cultivation vessel 1, the wrapping and transport tasks of nurseries and garden plants from the place of production and cultivation to the final standpoint can be solved, with no additional materials for stabilizing the root shells and no residual materials burdening the environment. This is particularly important when used in plant cultivation, plant propagation and nursery nurseries. These plastic

818 / B pots cannot comply with environmental and waste management requirements because waste disposal is complicated. In addition, the selection of such plants grown in stable pots is difficult because the roots are overgrown by the drainage and irrigation holes of the plastic containers, so that additional manual work is required, the root sheath is greatly damaged and the unity of roots and culture 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, which is made of natural coconut fiber, can also be optimally formed in terms of costs, in economic terms, since production costs are negligible and waste disposal is avoided.

Another preferred field of application of the container 1 is provided with the possibility of growing annually multiannual large plants, which are supplied with the root envelopes, and with the container 1 obtain an optimum package of roots. Especially for large trees and large solitaires, the elastic properties of the planting and cultivation containers 1 allow a sufficient possibility of rooting through high stability and relationship strength, which in the next growth phase of the plant is eliminated by completely spraying the coconut fiber material used and thereby completely prevented soil contamination.

Claims (15)

PATENT CLAIMS Planting and cultivation vessel, in particular for the cultivation and transfer of plants, having a bottom wall part (3) and a side wall part (4) formed therewith in one piece, wherein said wall parts (3, 4) consist of a coconut fleece, having latex-bonded coconut fibers, characterized in that at least the side wall portion (4) is provided with one or more reinforcing ribs (5; 5 '; 5; 5'; 5 "and 5 ...) in its fleece layer. ) integrated into it by densifying the material. Planting and cultivation vessel according to claim 1, characterized in that the reinforcing ribs (5; 5 '; 5; 5'; 5 and 5 .....) and in the circumferentially extending partition wall (6) form a support and expansion a wall of the container (1), adaptable to increasing the filling volume. Planting and cultivating vessel according to claim 1 or 2, characterized in that the reinforcing ribs (5) are formed by a textile coco-fiber reloading zone connected by a fabric interconnection. Planting and cultivation vessel according to one of Claims 1 to 3, characterized in that the reinforcing ribs (5) have an increased proportion of latex compared to the partition walls (6). Planting and cultivation vessel according to one of Claims 1 to 4, characterized in that the reinforcing ribs (5) extend substantially vertically in the side wall portion. 30,818 / B Planting and cultivation vessel according to one of Claims 1 to 4, characterized in that the reinforcing ribs (5) are formed by substantially horizontally extending folding zones in the side wall portion (4). Planting and cultivation vessel according to one of Claims 1 to 6, characterized in that the reinforcing ribs (5) are formed by multilayer reloading zones of the coconut fleece. Planting and cultivation vessel according to one of claims 1 to 6, characterized in that the side wall part (4) and / or the bottom wall part (3) are provided with intersecting reinforcing ribs (5; 5; 5 ... .). Planting and cultivation vessel according to one of Claims 1 to 8, characterized in that the vessel (1) starting from a coconut fleece blank formed as a fiber blank with open single fibers and latex binder regions is thermoformed by hot pressing. . 10. The planting and cultivation vessel according to claim 9, characterized in that a plurality of coconut fleece blankets are formed from a substantially mat nonwoven mat. Planting and cultivation vessel according to claim 9 or 10, characterized in that the coconut fleece blank is provided with at least one dividing cut extending along the length of the side wall portion (4) and in its region there is a folding zone forming the reinforcing ribs ( 5) Planting and cultivation vessel according to claim 9 or 10, characterized in that the coconut fleece blank is provided with at least one fold extending over the height of the side wall portion (4), and these form multilayer folding zones of the reinforcing ribs. 30,818 / B Planting and cultivation vessel according to claim 9 or 10, characterized in that the reinforcing ribs (5) are formed by folds extending in the circumferential direction of the vessel in the side wall portion. Planting and cultivation vessel according to one of Claims 9 to 11, characterized in that the coconut fleece blank formed into the vessel (1) in the region of the reinforcing ribs (5; 5 '; 5 "; 5'; 5 and 5) .....) defines stretch regions with different elastic properties with different proportions of latex. Planting and cultivation vessel according to one of Claims 9 to 14, characterized in that the fleece blank is composed of coil, wound on a spool, steamed, twisted and dried.