FI69386C - CELLENHET FOER SKOLNING AV PLANTOR - Google Patents

Description

f 69386

Seedling breeding cell

The invention relates to a seedling growing cell with a plurality of parallel rows of containers, in which the partitions of the rows of containers can be separated from each other after growing.

5 When growing seedlings in plastic honeycombs, the roots often tended to rotate along the wall of the container. Such root deformation is detrimental, especially to seedlings that require a long growing season, for example seedlings of forest trees.

In rotting growth containers, the problem is not as great, 10 because the rotting paper consumes the nitrogen necessary for growth from the wall of the container, so that the root system does not reach the walls of the pot. However, a thick layer of paper consumes so much nutrients when it decomposes that the seedling easily begins to suffer from a lack of nitrogen and this has to be remedied by abundant nitrogen-15 wetting, both accelerating paper decay and accelerating root growth and increasing root rotation.

Root growth along walls can also be prevented by using an anti-growth agent. However, there are no long-acting substances, as they gradually dissolve with the irrigation water.

In deep-drawn plastic honeycombs, root rotation has also been used to prevent vertical wings placed perpendicular to the honeycomb walls. These have the disadvantage that, due to the manufacturing technique, the corner between the wings and the cell wall is rounded, so that the wing does not meet perpendicularly and may easily grow past it.

In die-cast plastic honeycombs, sharp-edged vertical wings can be provided to guide root growth downward.

A growth cell has now been invented in which the septum of a container row has a non-corrodible plastic middle layer and a paper layer that decays on both sides during growth, and in which the successive partitions have an adhesive seam connecting the partitions, and in the container wall

A preferred embodiment of the invention will be described in more detail with reference to the accompanying drawings. 693 8 6

Figure 1 shows a perspective view of the entire honeycomb and Figure 2 shows the joint between two adjacent vessels seen from above.

5 The honeycomb 1 consists of hexagonal containers 2. The honeycomb 1 is produced in a manner known per se by gluing the desired laminated sheets together at suitable points 3. When opened, the sheets differ from the points in the non-glued tower to form a honeycomb.

10 Wings extending into the vessel are connected to the connection points 3 of the honeycomb 1 * J.

The partitions 5 of the cell 1 are made of a three-layer laminate. The middle layer 6 of the laminate is a non-rotable material, e.g. a suitable plastic such as polyethylene or poly-15 propylene. On each side of the middle layer 6 there is a thin surface layer 7, which rots during growth, which is preferably paper. The thickness of the middle layer 6 is 10 to 50 g / m 2, preferably 20 to 30 g / m 2, and the thickness of the surface layer 7 is 15 to 70 g / m 2, preferably 20 to 25 g / m 2.

At the connection point 3 of the partitions 5 there is a wing 8 between them between the partitions, which extends from one container 2 to another. The wing 8 is made of a non-rotting or nearly rotting material, such as a suitable plastic or impregnated paper. The wing 8 must be sufficiently rigid to retain its shape when the containers 2 are filled with growing medium.

The joint 3 is formed by gluing the vertical seams 9 and 9 'to the container-side edges of the joint with a non-rotting and water-insoluble adhesive. The gluing 30 is carried out in such a way that the seams extend from one middle layer 6 to another, but in such a way that the glue does not adhere to the middle layer itself.

The surface layers decay during growth, after which the seedling clumps can be separated by removing the remaining middle layers 6 and wings 9 between the seedlings.

ti 3 69386

The middle layer 6 and the adhesive seams 9 and 9 'prevent the root from growing from one lump to another during growth, and the wing 8 prevents the root from continuously rotating along the wall of the container 2.

5 If necessary, the growth of the root system can be regulated by growth inhibitors in the surface layers 7 of the partitions or in their joints 3 · At the joints 3 in the adhesive joints 9 and 9 'or between them, abundant dosing can also be used without disadvantage.

10 In the implementation according to the figures, smooth parallel paper webs can be glued, and the spread of the glue causes only a small dimensional scatter in the size of the pot.

The wing can also be made by gluing a thin folded paper web (or some other material such as plastic wire) 15 to the wall of the pot of your saw.

Claims (7)

1. A seedling breeding cell consisting of parallel rows of containers, in which successive rows have a common partition. (5) having a non-rotting middle layer (6) and a rotting surface layer (7) on both sides thereof during growth and in which successive partitions are joined together to form adjacent containers of each row of containers, characterized in that at the joint (3) or on one wall of the containers a vertical elongate projection (M) known per se, which does not rot during growth during the growth. Honeycomb according to Claim 1, characterized in that the projection is a paper wing (8) at the joints of the partitions. 15?. Honeycomb according to Claim 2, characterized in that the wing is connected to the partition wall on each side by a non-rotting adhesive joint (9) extending through the non-rotting layer. Honeycomb according to Claim 3, characterized in that the joint is a surface parallel to the row of containers and that the joint has an adhesive seam (9 »9 ') at each end of the surface. Honeycomb according to one of Claims 1 to 4, characterized in that the joint has an anti-root growth agent. Honeycomb according to Claim 5, characterized in that the root growth inhibitor is present in the adhesive joint. Honeycomb according to Claims 4 and 5, characterized in that a root growth inhibitor is present between the adhesive joints. Honeycomb according to one of Claims 1 to 7, characterized in that the surface layer of the container contains a root growth inhibitor. Honeycomb according to one of Claims 2 to 8, characterized in that the joint has a wing (8) which extends from one adjacent vessel to another.