NL8005848A - METHOD AND APPARATUS FOR COMPRESSING TURF. - Google Patents

Description

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Subject: Method and device for compressing peat.

The invention relates to a method and an apparatus for compressing peat into cohesive growth substrate blocks for plants, which swell when wetted. These types of growth substrate blocks are commonly used in growing plants for all-round planting purposes, where the plants are sprouted from seeds, let. grow from cuttings or bulbs to transplantable plants or grow from small plants to stronger on a growth substrate, usually under greenhouse conditions, which plants are then transplanted to their final growing site at a later stage of groeiτπη growth without stripping them of their original growth substrate.

Many different growth substrates have been developed for this transplantation method, and a particularly useful method of making such a product is described in British Patent Specification 1.1 + 91.9. According to this method, the peat is cut from its original peat formation in the form of large blocks or strips, dried to a moisture content of less than 35% and compressed to a volume that is 1/3 to 1/10 of the volume after to dry. These compressed pieces are usually produced as fairly large strips, from which the individual growth substrate blocks are then separated in a suitable manner, e.g. by sawing or cutting. The product obtained is quite useful, since the natural beneficial properties of peat for plant cultivation are maintained without major changes, nevertheless, in the manufacture of this type of blocks, the separation of the individual growth substrate blocks from each other after compression is a problem, because additional actions are needed, although they can be performed quite easily on their own.

In U.S. Patent No. U.185-98? A method of peat treatment is shown, in which pieces of peat can be made from peat in a primed form, which swell strongly when wetted to their volume in the natural form. In this method, the peat is virtually removed from the natural peat, dried to a moisture content of 10-30% and compressed to 1/3 to 1/10 of its volume after drying. Thin strips are cut from these compressed pieces, which crumble before the particulate product is formed.

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A proposed purpose for this crumbled peat product lies in the so-called pot culture where an appropriate container or bottomless cylinder is filled with the particulate material, swells when wetted and thereby fills the container, even bottomless cylinders, so that the contents 5 do not come out of the holder when it is lifted from its base.

The seeds are then planted in these filled and moistened containers. The product is particularly suitable for the purpose described, but has the drawback that, when used for cultivating plants to be transplanted, a certain external carrier is required, e.g. a small saucer, to hold the growing substrate together.

The problems associated with this type of growth substrate for plants intended for transplanting are now substantially dealt with by the present new peat compression method, and by the present compression device. According to this method, peat pieces 15 to be compressed are used, the original thickness of which corresponds to that of the final growth substrate blocks and has a moisture content below 35%, preferably 12-28%. The peat pieces may be uniform peat pieces according to British Patent I.U91.9U0 or peat particles e.g. according to U.S. Pat. No. 1,885,987. The essential feature of the method according to the invention is that the peat pieces are compressed to a thickness which is 1/3 to 1/20 of their original thickness by using a stronger compression at the boundary surfaces of the individual growth substrate blocks than on the other parts of the growth substrate blocks. Preferably, a small central area of the peat section is also compressed to about the same extent as the boundary surfaces to form a notch for the seedling.

A printing device has been developed for carrying out this method, which is characterized in that it comprises a substantially smooth pressing plate and a molding element pressed against it, the molding being provided with 30 or more separate molds delimited by square-edged edges and correspondingly in size with the size of the growth substrate. The center of a mold preferably includes a blunt, substantially hemispherical protrusion for making a recess for a seed in the center of the growth substrate block.

According to the present compression method, a strip-like 8005848 -. V ΐ -3- peat body compressed into separate growth substrate blocks, which are separated from each other without special further operations. A major advantage of this method is the fact that it allows the production of cohesive growth substrate blocks of uniform quality from very different types of peat bodies, which blocks, however, swell upon wetting to a shape substantially corresponding to that compression compact and growth substrate blocks which are nevertheless sufficiently coherent.

According to the invention, for a sufficiently cohesive product, the degree of compression is applied to the peat, depending on the structure of the peat body to be treated. The lowest degree of compression, i.e. about 1/3 »can be used for good quality homogeneous peat bodies, e.g. according to British patent specification 1.1 * 91 * 9 ^ 0, whereby a very useful product is obtained. For bodies of loose crumb peat, on the other hand, relatively high compressions have to be applied, the upper limit of which is about 1/20 of the thickness of the peat body to be compressed. The upper limit for the compression to be used for the edge surfaces of the growth substrate patches is 1/20 of the thickness of the piece to be compressed. At the center of the growth-20 substrate block, where the recess is to be pressed in, the body is not compressed as strongly as at the edge surfaces, cm to ensure that the recess does not cut through, but only a light recess is formed , which after moistening forms a suitable bag for a seed or cutting.

In the pressing device according to the invention the shape and size of the shaping mold for pressing the individual growth substrate blocks can vary according to the wishes, but preferably the mold is square, so that when using various molds the peat body is pressed into a kind checkerboard pattern of blocks.

The edges of the mold for pressing or stamping the boundary surfaces of the individual growth substrate blocks may be edges projecting from the bottom of the mold in different sizes depending on the degree of compression desired and the thickness of the used peat body. Usually the thickness of the bodies will vary from 30 to 85 mm, in which case edges of h-6 mm can be used.

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The central notch for making the recess for the seeds is preferably 1 mm smaller than the said edges.

The invention is illustrated by the drawing, in which Fig. 1 shows a sandwich-shaped growth substrate body, the growth substrate blocks obtained from campers and the blocks swollen to the original thickness after wetting; Fig. 2 schematically represents a pressing device according to the invention; Fig. 3 shows the surface of the mold and Fig. H schematically shows a cross-section of the mold.

Fig. 1 shows an embodiment of the invention, in which a sandwich-shaped body A is compressed on a bottom layer 1, i.e. with a multi-divided press mold into a compressed product B, which swells to the condition C when wetted, which practically corresponds to the thickness of the peat body for compression. In this embodiment, the compressed blocks can be handled on the substrate layer 1 through the different growth stages and the plants with their growth substrate can only be removed at the time of transplanting.

Fig. 2 schematically shows an embodiment of the press device according to the invention, consisting of a press cylinder 2, a former 3 and a press plate U against which the former presses.

Fig. 3 shows a designer 3 in the form of a partial front view, the individual molds bounded by the press edges and the projections 6 for making the recess for the seeds are clearly shown. Fig. 1 shows a partial cross-section of the mold according to Fig. 3, with the edges 5 and the protrusions 6 clearly protruding.

It is important to the mold that the edges of the mold that form the individual growth substrate blocks are rounded and not cut, since appropriate compression for product can only be achieved with a rounded edge. In the figures, the edges are shown as rounded and their radius can be 1 to 10 mm, preferably 1.5 to 3 mm.

However, the rounded shape is not absolutely necessary, since an edge 35 with a flat top can also yield acceptable products.

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The present compression method is based on the fact that the higher pressure applied to the edge surfaces the natural resinous adhesives in the tuft. which hold the fiber structure of the peat together, especially in the areas where increased pressure is applied. A further factor in promoting bonding is the orientation of the fiber structure in the direction of the strongest pressure, an orientation of the fibers being achieved along the edge surfaces of the individual grit substrate locks.

EXAMPLE 1 Fine granular peat of a predetermined particle size according to the U.S. Pat. 185-987 was applied between peat regions. In this example, the thickness of the peat strips was 6 mm and the thickness of the fine-grained peat terrier hedge was 30 mm.

The peat was then compressed with the said mold containing 15 rounded edges, namely into a strip, the thickness of which after compression was 6 mm.

The strip and its individual compressed blocks were held together well. When wetted, the entire strip quickly swelled into a growth substrate, which was immediately ready for use and was approximately 30 mm thick.

Image II:

Peat pieces, cut from a peat, were air dried to a moisture content of 28%. These peat pieces were then compressed to about 1/8 their original thickness and cut into this compressed shape with a cutter. The granulated peat thus obtained was sieved with a 13 x 13 mm square hole sieve. Furthermore, a powdery fraction was removed from the peat which had a particle size of less than 1.5 mm.

The peat was then supplied with fertilizer and lime. The particulate peat was then measured in a thin plastic support plate with raised edges, measuring $ 66 x 366 mm and then compressed with said edged device. Checkerboard-shaped, chocolate bar-like strokes were thus obtained with 126 separate 3 x 3 cm pieces.

The distance between the individual pieces was about 6 mm. The 8 0 0 5 8 4 8 -6- Λ boundary areas of the pieces are well bound together by the compressive force and the resinous substances in the peat. When wetted, the pieces quickly inflate to a height of 3 cm and kept their shape well even when they were moistened. The pieces remained separated from each other on the plastic support. Lettuce seeds were sown in the central cavity of the obtained pieces, which grew rapidly. It is also easy to move the young lettuce plants to their final breeding place after this.

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Claims (7)

1. A method for priming peat from growing substrate blocks for plants, whereby the peat is cut from peat, until a moisture content is dried below 35 #> preferably 12-28 #, a body is compressed from the dried peat corresponding in thickness 5 with the desired growth substrate, and this body is compressed to at least 1/3 of its thickness after drying into a cohesive growth substrate product, which swells rapidly upon wetting, characterized in that the peat body is compressed to a higher degree of compression is applied to the boundary regions of the individual growth substrate blocks than to the other parts thereof. A method according to claim 1, characterized in that a small central area in the block is compressed substantially to the same extent as the edge areas to form a seedling recess. Method according to claim 1, characterized in that the peat body is compressed on a transportable support plate. Pressing device for carrying out the method according to claim 1, characterized in that it consists of a substantially smooth pressing plate (10 and a worm generator (3) pressed against it, which is provided with one or more molds, bounded by obtuse edges (5), the size of which corresponds to that of the growth substrate blocks. Pressing device according to claim U, characterized in that a blunt, almost hemispherical projection (6) is provided in the center of each mold for making a recess for a seed. in the center of the growth substrate block. Pressing device according to Claim U or 5, characterized in that the edges of the mold or molds have a radius of curvature of about 1-10 mm, preferably 1.5-3 mm. Pressing device according to claims k-6, characterized in that the height of the edges of the mold is b-6 mm, when the thickness of the peat body to be compressed is 30-85 mm. Pressing device according to claim 5, characterized in that the height of the projection (6) for making the recess for the seed is about 1 mm less than the height of the edges (5) 8005848