DE19540935A1 - Biodegradable plant container - Google Patents

Abstract

The plant container has in the circumferential direction evenly spaced in the longitudinal direction several profiled grooves (15) running helically at an acute angle to the container axis (14) with the groove outlet face lying in one and the same plane as the base face (2) of the container base (1) and passing through same. The outer sleeve face (4) of the container formed by the outer sleeve face of a truncated cone can be closed at the bottom by a ball-shaped or elliptically convex cap. The profiled webs (31) between the grooves project radially opposite the outer sleeve face.

Description

The invention relates to a rotten plant container, in particular for planting earth Woody plants, forest plants and the like, which in the manufacture of a fertilizer mixture added to the accelerated growth of the plants and one down frustoconical tapered outer surface and a root ball bordering Has inner surface, which with a flat circular disc on the container bottom and on the opposite container opening through a circumferential circular container edge is completed.

There are already various rotable ones for the accommodation of living plants Plant containers have become known, which consist of one or more flat blanks one rotten material have been manufactured.

In DE Offenlegungsschrift 39 38 738 for An example is a rotting disposable pot for growing plants, whose Wall made on both sides with a film made of a high polymer material coated paper is built up. The durability of the disposable pot is the Production dimensioned such that the decomposition of the paper by the specific cultivation time of plants is more predetermined. This makes the disposable pot exceptional for the cultivation of the plants is determined and composted separately after planting.

Another compostable plant container based on natural, vegetable or animal fibers is described in European Patent 613 905. The plant pot consists mainly of fibers held together with a potato pulp, which is caused by the action of enzymes and mechanical comminution in one Agitator ball mill was pretreated. In the production of the plant pots likewise assumed a film-like shaped body from which molded parts are punched and can be assembled into plant pots. These plant pots show to the same extent due to their film-like composition a lower stability, which one faster rotability benefits, but the manageability under certain May not be useful.  

In the case of earth planting, for example of woody plants or forest plants, it is sufficient Stability of the plant container for the transport of the plants and their handling during Planting required. Plant containers are particularly suitable for this, as in the German utility model with the roll number GM 92 11 340 executed from one Material mix with additives and with water glass as a binder are made.

It is useful if the plants are inserted into the soil together with the plant container will. The later development of the trees depends very much on the planting. Once the roots of the young plants are exposed to the air, future growth will begin adversely affected. As a result, when planting with root balls, careful Work required in the production of the planting hole, so that the growth of the young plants is promoted. After digging a planting hole there is a need for the Root ball is embedded in the soil without major air pockets. This is a careful compaction of the previously excavated soil required. For example by mechanical compaction, by stepping on the ground or by floating be accomplished with water. The consolidation of the soil must not be higher than that existing natural compaction of the natural soil can be carried out so that the Roots can still be adequately hydrated.

In practice, however, this procedure is quite time-consuming and with the previous ones known means not to be accomplished, so that an earth planting of Woods are insufficiently solved and have particular difficulties. To light Soils that are sandy and, if necessary, free-flowing, a sufficiently deep planting pit for the Ensuring the placement of the root ball is also a considerable excavation required.

The invention therefore aims to facilitate planting, as it is by comparison have already been proposed in DE published application 44 02 253 with a planting aid is. The planting aid consists of a hollow plant container, preferably an am End open, cylindrical wall section, which is in a subsequent, conical Tapered end portion to a tip. The wall of the planter can have the same thickness throughout, or it can be provided that the wall thickness in The area of the tip is reinforced to withstand greater pressure when driving in the planter  to be able to resist into the earth. It is also proposed that the planter has a widened cross-section in the area of the upper opening, for which purpose a circumferential reinforcing section can preferably be formed on the outside.

In a further embodiment of DE-OS 44 02 253, the reinforcing ring can in turn ribs preferably formed on the outside of the wall in the axial direction be together with the reinforcement of the edge section the rigidity of the planter increase. The planter is made of a rotten plastic and is included Driven into the ground with the help of a striking tool, without first having a planting pit must be manufactured. Then one is placed in the inner hollow planter Flower bulbs inserted, with the pointed end section being filled with soil beforehand. So that Bulbs get enough moisture and the plastic can rot in the Wall of the planter holes formed, which allow the passage of roots from the Allow the interior of the planter into the surrounding soil. In the planter a small plant can also be used, the roots of which are inside the planter are evenly surrounded by earth. Because of this, such is suitable Planters not for planting trees or the like that have a root ball have and need a much larger planting hole. The one already proposed The solution cannot be adequately transferred, because a comparable one Making a planting hole could result in very high compaction of the soil would permanently impair the growth of the plants.

The object of the invention is, in particular, for planting earthen plants, Suitable for forest plants and the like, rotten and provided with a starter fertilizer Planting container, which is comfortable and form-fitting without air inlets when planting earth Soil can be planted, taking the natural degree of soil compaction into account no case may be exceeded.

According to the invention are in the outer surface of the rotten planter In the longitudinal direction, a number of running at an acute angle to the container axis helical profile grooves incorporated, the groove exit surface in one and the same Level as the bottom surface of the container bottom is and penetrates the same.  

According to a preferred embodiment of the invention it is provided that the groove approach Profile groove in a section of the outer surface, preferably in a central section is arranged between the container bottom and the container edge, the groove bottom is inclined more than the outer lateral surface with respect to the container axis. In this way the outer shell of the rotting plant container is like a drill with a Provide the outer helix and the bottom section is designed like a milling tool, with which the Planting container without any effort through a rotational movement into the ground, so to speak can be screwed in and positively embedded.

A particularly advantageous development of the invention results if the by outer surface of a circular truncated cone formed outer surface of the Planter down instead of a flat bottom surface with a spherical or elliptically convex shaped cap is completed and between the profile grooves standing profile webs are structured to protrude from the lateral surface. The Groove exit surfaces then lie in a tangential plane or associated with the axis of rotation in a horizontal plane parallel to this outside the lateral surface or below the base of the planter. This results in a convex Container bottom the advantage that the web walls between the groove exit surfaces Can form a footprint for the plant container, which thereby receives a secure stand. With light and loose soils, no excavation is required and the planter can just be inserted into the soil with a rotary movement.

According to a further embodiment of the invention, it is advantageous that the profile grooves like the sector of a circular ring, with a prismatic or curved structure Cross section are formed. In the context of the invention it is further provided that the Profile grooves seen in the direction of rotation are divided and spaced such that the width of the profile web formed between two profile grooves corresponds to the width of a profile groove. The arrangement of the profile grooves and the profile webs is consequently symmetrical, what the Manufacture of a planter simplified. This is particularly advantageous if the Plant container according to a further embodiment of the invention with a container edge a stable, full-surface, preferably rectangular or rounded ring cross-section has, for example by injection molding in one piece with the container bottom and the Container wall is made.

The invention will be explained in more detail below using an exemplary embodiment. In the associated drawings

Fig. 1 is a degradable planting container,

Fig. 1a, the bottom view of a shown in Fig. 1 planters,

Fig. 2 shows a planters used in a prepared planting hole according to FIG. 1,

Fig. 3 is a form-fit embedded into the ground plant container according to Fig. 1,

Fig. 4 shows a plant container with a convex rounded container bottom and raised textured profile webs,

Fig. 5 shows a planter in accordance with Fig. 4 before planting and

Fig. 6 shows a planter according to Fig. 4 after planting in the soil in a schematic representation.

Fig. 1 shows a compact, degradable by rotting plant container, for example, based on a mixed with an alkali silicate solution and cured with a reactive component of animal or vegetable fibers, conventional fillers and pigments by injection molding and by exposure to acidic gases or aerosols has been cured. The plant container has a container base 1 formed from a circular disc with a horizontal base surface 2 , with which the plant container can be handled and transported in a stable position. Openings 3 can be provided in the container bottom 1 in order to avoid waterlogging when watering the growing plants. An outer circumferential surface 4 of the plant container, formed by an outer circumferential surface of a truncated cone, extends from the circumference of the container bottom 1 at an acute angle to the vertical and inclines up to an upper annular container rim 5 . At a parallel distance from the outer lateral surface 4 , which is defined by the wall thickness of the planter, is an inner lateral surface 6 with a frustoconically curved cross section for enclosing a root ball.

The inner wall surface 6 is closed off concentrically with the upper container edge 5 by an inner edge 7 . On the inner edge 7 , an inner circumferential section 8 of the container rim 5 belonging to the plant container 5 is arranged essentially vertically, or is provided with a slight opening slope, which can be produced, for example, by injection molding in one piece with the container base 1 and the container wall 9 . The container edge 5 has an upper end face 10 which limits the height of the plant container and which is arranged parallel to the horizontal bottom surface 2 and an annular shoulder 11 pointing horizontally away from the upper circular container edge 5 .

The outer boundary of the container edge 5 forms a vertically arranged outer ring surface 12 which adjoins the end face 10 or the ring shoulder 11 at right angles. Adequate stability is ensured by a correspondingly dimensioned height of the container rim 5 , so that the plant container can be mechanically manipulated if necessary by mechanical gripping devices. The outer annular boundary surfaces of the container edge 5 are particularly suitable for this. On the other hand, the outer edges of the container edge 5 can be rounded off or designed to have a particularly good grip if manual processing of the plant container is provided until planting.

When planting, the stable container edge 5 offers a safe handle, in connection with helical profile grooves 15 which run at an acute angle to the container axis 14 and which are preferably machined into the outer circumferential surface 4 at the same distance from one another in the circumferential direction.

The downwardly extending profile groove 15 ends in a groove exit surface 16 that can be seen in FIG. 1a, which is outlined in dash-dotted lines and hatched for reasons of better clarity. This has a shape like the sector of a circular ring, which lies in one and the same plane as the bottom surface 2 and penetrates the same. The cutout of the bottom surface 2 created by the penetration comprises a groove base 17 and, seen in the clockwise direction, a front and a rear groove flank 18 which enclose a profile web 19 if the profile groove 15 is designed in cross section like a circular ring sector. The arc length of the profile 15 is preferably sized in this manner that the width of the space formed between two profiled profile web 15 seen in the rotational direction 19 corresponds to the width of a profile groove 15th In this embodiment of the plant container, it is also advantageous if the groove extension 20 of the profile groove 15 is arranged in a section of the outer circumferential surface 4 , preferably in a central section 21 between the container bottom 1 and the container edge 5 , the groove base 17 being stronger than the container axis 14 at the same time than the outer surface 4 is inclined. As a result, the profile groove 15, starting from the central section 21, has an increasing groove depth in the direction of the container bottom 1 .

However, the invention cannot be limited to this embodiment of a profile groove 15 shown in the exemplary embodiment. Rather, further prismatic or curved line-shaped embodiments of the groove cross section are conceivable within the scope of the invention, in which the outer edge 22 of the base surface 2 is radially spaced from the groove base 17 . Basically, the groove section or the groove flank 18, which extends in the radial direction between the outer edge 22 of the base surface 2 and the groove base 17 or the groove flank 18, forms an acute-angled earth blade 23 shown in FIG. 1, to which a coulter surface 24 adjoins, depending on the arrangement of the axial inclination angle of the profile groove 15 . This coulter surface 24 , which corresponds to the groove flank 18 , has the shape of the triangle according to FIG. 1 when the groove extension 20 is arranged in a central section 21 between the container bottom 1 and the container edge 5 and at the same time the groove base 17 is stronger than the container axis 14 the outer surface 4 is inclined. This is of particular relevance for planting the planter.

The mode of operation of the earth cutting edge 23 and the tine area 24 will be described in more detail below. According to FIG. 2, a preferably funnel-shaped planting pit 25 is dug with conventional planting equipment, the funnel depth being selected according to the height of the planting container. In the case of a less stable floor, the depth of the funnel can nevertheless be chosen to be so great that the volume of the funnel corresponds to the volume of the planter. The plant container is then inserted into the center of the planting pit 25 , as shown in FIG. 2, in such a way that only the upper part of the plant container with the container edge 5 protrudes beyond the top edge 26 of the earth. In order to completely submerge the plant container in the ground, the plant container is rotated clockwise 35 . When executing a rotary movement, the grown soil is torn open by the cutting edge 23 and, with the help of the coulter surface 24 in the direction of arrow 27 , is conveyed upward into the hopper space 28 , which is still ready to receive, until it is completely filled with soil and the plant container up to the height of Earth's upper edge 26 is inserted. The plant container shown in FIG. 3 is thus positively planted into the soil. The filling and compacting of excess soil, which does not necessarily have to be excavated in the production of a planting hole in conventional planting methods, can be dispensed with, so that the effort involved in planting woody plants can be considerably reduced. In addition, the soil present in the vicinity of the plant container is left in its natural compaction in order to adequately supply the root ball of the plants in the plant container with liquid. In particular, the supply of water is of particular importance for the rapid rotting of the plant container and the availability of the starter fertilizer, so that the young plants can grow up quickly and the roots can spread unhindered.

The planting of the young plants can be further simplified if the plant container is equipped with a convexly rounded container base 30 and with raised structured profile webs 31 as shown in FIG. 4. The outer edge 22 of a profile web 31 is radially projecting relative to the lateral surface 4 of the plant container and ends at the bottom in a standing surface 32 which ends in a tangential plane belonging to the axis of rotation or container axis 14 or in a horizontal plane parallel to this below the base curvature when the container bottom 30 instead of a flat bottom surface 2 is completed with a spherical or elliptically convex shaped cap 33 . The web wall 34 left between the profile grooves 15 results in a flat standing surface 32 for the planting container in the case of a convex container bottom 30 , which thereby obtains a secure stand. With a lower inclination of the outer edge 22 of the profile web 31 with respect to the container axis 14 , the profile groove 15 forms a pronounced driving groove, which makes it possible for the plant container to be inserted into the soil in light and loose soils without prior excavation of a planting hole 28 . Fig. 5 According to the planting container is then positioned and the level of the Erdoberkante 26 displaced in clockwise direction into a rotary motion in the direction of rotation arrow 35. Due to the rotary movement, the profile webs 31 drill into the grown soil, which is conveyed upwards by means of the driving grooves. As a result, as shown in Fig. 6, the planting container can be fully inserted into the soil with ease. The insertion is favored by the fact that the convex container bottom 30 can offer practically no resistance to the ground. In this way, the planting of young plants can be accomplished with very little effort.

Claims (7)

1.Rottable plant container, in particular for the planting of trees, forest plants and the like, to which a fertilizer mixture is added during production to accelerate the growth of the plants and which has a truncated cone-shaped outer surface and an inner surface delimiting the root ball, which has a flat circular disc is completed on the container bottom and on the opposite container opening by a circumferential circular edge of the container, characterized in that in the circumferential direction at the same distance a helically extending at an acute angle to the container axis (14) number of profile grooves (15) is incorporated to each other in the longitudinal direction thereof Groove exit surface ( 16 ) lies in one and the same plane as the bottom surface ( 2 ) of the container base ( 1 ) and penetrates the same. 2. Rotting plant container according to claim 1, characterized in that the outer casing surface ( 4 ) of the plant container formed by an outer lateral surface of a circular truncated cone is closed at the bottom instead of a flat bottom surface ( 2 ) with a spherical or elliptically convex shaped cap ( 33 ) and the between the profile grooves ( 15 ) standing profile webs ( 31 ) are structured in a radially projecting manner with respect to the outer lateral surface ( 4 ). 3. rotting plant container according to claim 2, characterized in that the groove exit surfaces ( 16 ) in a to the axis of rotation or container axis ( 14 ) belonging to the tangential plane or in a parallel to this horizontal plane below the floor curvature. 4. rotten plant container according to one or more of claims 1 to 3, characterized in that the profile groove ( 15 ) is designed as the sector of a circular ring, with a prismatic or curved line-shaped cross-section. 5. putrescible plant container according to one or more of claims l to 4, characterized in that the profile grooves (15) are seen in the rotational direction is divided and spaced that the width of the profile web (19) formed between two profile grooves (15) of the width of a Corresponds to the profile groove ( 15 ). 6. Rotting plant container according to one or more of claims 1 to 5, characterized in that the groove ( 20 ) of the profile groove ( 15 ) in a portion of the outer surface ( 4 ), preferably in a central portion ( 21 ) between the container bottom ( 1 ) and the container edge ( 5 ) is arranged, the groove base ( 17 ) being more conically or more inclined with respect to the container axis ( 14 ) than the outer lateral surface ( 4 ). 7. rotten plant container according to one or more of claims 1 to 6, characterized in that the container edge ( 5 ) has a stable, full-area, preferably rectangular or rounded ring cross-section, the container edge ( 5 ), for example by injection molding in one piece with the container wall ( 9 ) and the bottom of the container ( 1 ).