|Title of Invention||
"A PLASTIC MATERIAL FILM FOR COVERING SEEDED SOIL OR SOIL DESTINED TO CONTAIN SEEDS FOR PROPAGATION"
|Abstract||There is disclosed the provision of a plastic film for covering soil for use in cropping or covering a frame for greenhouse effect, wherein at least part of the film has been stretched beyond its yield point prior to application. In alternative forms, the film undergoes a secondary stretch to form a predetermined pattern of weakness in certain localised areas of the film. The film may be photodegradable and biologically degradable to accelerate decomposition of the film when exposed to the elements.|
|Full Text||IMPROVEMENTS RELATING TO PLANT PROPAGATION
The present invention relates to improvements relating to plant propagation techniques and specifically to means for encouraging the germination of plant seeds in cool climates.
In temperate climate zones, particularly in Europe, the British Isles, North America, Southern Australia and New Zealand germination of seeds is often delayed until the soil temperature has increased above its given minimum temperature determined by the nature of the seed and that the likelihood of frost has diminished. Furthermore it is desirable to improve moisture retention in the soil particularly in dry climates that occur in areas of Africa, Australia and the United States.
The present invention has reference to the propagation of a wide variety of plant seeds, however, specific description will be made with reference to the growing of maize corn crops, which represent a large proportion of cropping in temperate zones during the summer season.
Maize corn has a relatively long growing season of approximately 5 months before full maturity of the crop is reached.
This means that the seeds must be sown as soon as possible in the growing season to ensure maximum production of corn.
In many cool temperate zones, particularly in Europe, the growing season is relatively short and maybe shorter than that required to achieve full maturity of the corn harvest.
If the harvest does not reach full maturity this results in a reduced volume harvest and in some instances lower quality produce.
The present invention is primarily concerned with achieving earlier germination of seeds in a given growing season coupled with improving moisture retention in the soil during the growing phase of the crop.
Conventional methods of achieving this concern the use of thin plastic film layered on the cultivated soil, the soil having already been seeded or being seeded concurrently with the cultivation of the soil, or seeded at a later date through the plastic already laid after the plastic has had an opportunity to assist
in the warming of the soil. Other methods include so called cloche cover film involving the use of film forming a tunnel like cover to protect growing plants.
In addition the film can be used in conventional greenhouse like structures or as a mulch film. In these instances the selective use of ultra violet ray stabilisation is desirable depending upon the purpose of the film and the desirability or not of quick break down of the film during the crop growth period.
For example in greenhouse use and mulch film use it is desirable that the file does not break down for the whole growing season, for example, in the cropping of strawberries or melon.
With conventional plastic cover techniques it is possible to cultivate the soil and apply the plastic film simultaneously with existing machinery. Such techniques allow the earlier germination of seeds and provide protection for the seedlings from late season frosts, but which will not impede growth of the seedlings beyond the initial germination stages.
The film maybe made from non-ultraviolet or ultraviolet resistant plastic and is extruded to a minimum thickness of between 10 to 15 microns. Cloche films maybe 10 to 25 microns and mulch films are conventionally 20 to 50 microns.
The use of UV resistant film is dictated to a certain extent by the use to which the film is to be put as mentioned previously. For example, to achieve fast degradation it may be necessary to use photodegradable and/or biodegradable additives.
Where it is desirable for quick degradation the use of relatively thick film does exhibit some practical problems in being slow to breakdown after germination of the seeds and furthermore, it has been shown that there is some difficulty in handling the film efficiently with machinery; finally use of the plastic at relatively high thicknesses is not always economically sensible.
With existing film extrusion machinery, it is not possible in practical procedures to extrude film having a thickness of less than about 8 microns.
The present invention has as its objective to provide a film for use in the covering of soil or greenhouse structures containing plant seeds or destined to contain seeds wherein, at least, some of the above mentioned problems are overcome.
There is provided according to the present invention a plastic film for covering soil for use in cropping wherein at least part of the film has been stretched beyond its yield point prior to application.
The film is preferably stretched at its point of extrusion, that is, in line stretching of the film during the extrusion process.
The film maybe stretched at a secondary out of line stretching process. Alternatively the film may be stretched at the point of application of the film to the soil and this latter method will be described in greater detail in the practical arrangement. Stretching at the point of extrusion (in-line stretching) and/or stretching during a secondary process before working in the field will be the preferred option to reduce the likelihood of damage to the film at the point of laying the film onto a crop bed.
There is provided according to one aspect the present invention an extruded plastic film for use in the covering of soil or greenhouse structures or the like containing plant seeds or destined to contain seeds for propagation, wherein, the film web is stretched beyond its yield point to achieve a reduced thickness and volume of film. The web in one aspect is adapted to quickly deteriorate and allow passage of the germinated seedling therethrough.
In a further aspect of the invention, there is provided a film for use in the covering of soil containing plant seeds or destined to contain plant seeds to be germinated in which a non-ultraviolet resistant (photodegradable) biologically degradable film web has undergone stretching beyond its yield point whereby the thickness of the film is reduced to a thickness of 10 microns or less such that at least part of the web will more quickly deteriorate through weathering and or biological activity and thereby allow passage of a germinated seedling from beneath the protective cover of the film which has acted to facilitate heating of the soil and protection from frosts during the seed germination process and/or preceding period.
Optionally the film maybe untreated, photodegradable, biodegradable or a combination of the above. In some instances as mentioned previously the film should be photodegradable to allow acceleration of UV degradation and allows the germinated crop to emerge after the initial growing stage after a relatively short time span of say one month. Opaque film maybe used to restrict passage
of light to the area of soil surrounding a plant. Additional localised stretching of the film renders the film transparent in local sections near the plant to allow light to pass through.
The stretching of the film is achieved by a plastic film stretching machine and such machines are well known in this field.
In one aspect of the invention, edges of the film may be folded or of greater thickness than the mid portion of the film to enable more efficient machine handling and anchoring of the film during laying thereof onto the ground and covering of the film at least on the edge portions by soil.
The film is preferably pre-stretched prior to the application of the film onto the ground and the film maybe stored in its stretched condition on rolls ready for use. Additional stretching of the film by the formation of spaced dimples along the length of the film maybe provided with the dimples providing space for the germinated seedling to grow, furthermore the dimples generate weakened portions in the film which will quickly degrade upon exposure to ultraviolet light. Alternatively the web may have a continuous line of additional stretching along the length of the film above the seedling to allow the plant to grow through the weakened layer.
This is seen as being advantageous over conventional methods of simple cutting of the film at spaced intervals or along its entire length which is costly and labour intensive procedure. Also it may create a problem wherein the film tends to coil if it is split along its entire length.
It has been found that the stretched degradable film will quickly degrade upon exposure to ultraviolet light, with the degradation occurring in a more or less uniform manner, however, some areas of the film will be unexposed in the shelter of the growing plant or covering soil and degradation will be slower in these areas.
The speed of degradation can be easily controlled by the addition of suitable chemicals to the plastic film as well as the control of thickness of the film. In drier climates it may be preferable for the film to remain intact (not degrade) around the base of the plant to assist in moisture retention, during the growing season.
The major advantage of the present invention is that there is at least 50% more film available for a given volume of non stretched plastic, where the plastic has been stretched to say 100% elongation and then allowed to relax.
In very cold climates, two layers of film or laminated film may be provided for better heat retention. Such film may be manufactured as a tube with an air layer being trapped between the layers of the film during the laying process and can be utilised in a similar manner to that previously described. This is particularly useful in frost prone areas. Such dual layer film is particularly suitable for use in ground cover or glasshouse structure covering.
The plastic is natural, biologically degradable, or photodegradable or a combination thereof and furthermore is preferably not stabilised against ultraviolet rays thereby ensuring rapid deterioration to the film on or under the seed bed after exposure to the elements, particularly it is to be used as ground cover. Biologically degradable film will be degraded even if buried beneath the soil.
It has been found that the degradable web made in accordance with present invention (particularly in the thinner or weakened portions) will deteriorate after a relatively short period time of 4 to 10 weeks which represents the germination time for the seed being propagated depending upon addition of degrading additives and the thickness of the film. Alternatively the film may be apertured or dimpled at spaced intervals to allow passage of the germinated seedling through the film. The spacing of the apertures or dimples depends upon plant type being grown.
Thus, the easy passage of the germinated seedling through the plastic covering is ensured, preferably, the plastic film quickly degrades during the growing of the crop such that it has at least partially decomposed at the time of harvest which may be some 5 or 6 months later.
The use of plastic film to cover the seed bed at the commencement of the season has been found to extend the growing season for up to two months, allowing for a larger harvest of up to 6 tonnes per hectare of maize corn on a dry matter base, resulting in or ensuring an economic return on the cost of preparation of the seed bed. Preliminary trials with other crops such as sugarbeet suggest higher yields and higher sugar content.
For cover film the film maybe untreated or photodegradable or biodegradable or a combination of both photo and biodegradable. So that in the case of a combination photo and biodegradable film the plant is allowed passage through the film after germination due to quick breakdown of the film whilst the biodegradable additive would allow breakdown of any buried plastic after harvesting of the crop. This then avoids any possibility of soil contamination from prolonged use of plastic on the same field. Where a cloche cover film or mulch film is utilised having no additive or are UV stabilised these films would be removed and disposed of at the end of each growing season. However the amount of waste plastic is significantly reduced when compared to conventional methods because of the lower volume of plastic utilised.
Practical arrangement of the invention will now be described with reference to the accompanying drawings showing a preferred stretching mechanism, which may be mounted in the film extrusion line, or as a secondary line downstream from the extrusion line.
In one example of the invention, it has been found that pre-stretching of the film web of a standard width past the yield point will result in a reduction in film thickness to no more than 10 microns. In this example the starting thickness of the film web was 17 microns. It is possible to use the double layer with an air gap in between to achieve greater insulation qualities. With a double layer it is preferable to have a maximum film thickness of approximately 8 microns per layer to reduce cost.
Thus, the manufacture of the film is a relatively simple procedure in the sense that the extrusion process takes place with medium film thicknesses and yet a web thickness of at least 4 microns can be achieved after stretching, without any adverse effect upon the handling capabilities of the film. In fact it has been found that the stretched film, even though very thin, has enhanced handling characteristics.
The stretched film has a greater strength for a given thickness than unstretched film.
The invention will now be described with reference to the drawings, in which Figure 1 shows a film stretching machine, Figures 1(a), 1(b), 1(c) and 1(d) show different rolls of configuration to create localised extra stretching of film.
Figure 2 is a schematic view of dimple rolls in a film stretch line. With reference to Figure 1 illustrating one practical arrangement, film is introduced to the stretching machine 10 which comprises a low speed stretch roller 11 mechanically connected to a high speed stretch roller 12, with the high speed stretch roller contacting the film as it is removed from the film roll 15 to elongate the film in the gap 16 between the film roll and the high speed stretch roller 12. The stretching will significantly increase the area of film available for use in covering the soil. The stretching maybe in either or a combination of both planes of the film length wise and width wise. The elongation maybe up to the order of 300% stretch. The film can then be dispensed through exit rollers 13 and 14 directly onto the cultivated soil 17.
The stretching of the film maybe achieved by a number of different methods without departing from the concept of the invention. For example, direct braking of the film roll or a motor drive high speed stretching roller (not shown) which are well known in the art.
The invention results in a more efficient use of the film in as much as approximately double the length of standard lengths of unstretched film is available for use for similar volume costs of plastic.
In a further example of the invention the film may be extruded as a dual 1 ply film, or alternatively extruded in two plies to then form a dual ply film, with trapped air therebetween such that film is then stretched beyond its yield point. The two layers of film maybe sealed at the edges by covering with soil thus serving the dual purpose of trapping air between the plies and securing the sheet to the ground. This film exhibits even better insulating qualities, and may be used for a longer period as a preheating film prior to the sowing of seed in the covered cultivated beds.
It would be appreciated that the film may have a width to accommodate more than one row of cultivar.
It is preferable, (to avoid damage to the film at the work site) for stretching of the film to occur at the time of extrusion of the film or prior to laying out of the film.
Figure 2 shows schematically an arrangement for forming weakened portions in the film which has been stretched after extrusion, the rolls 20 include
dimple portions 21 which impress upon the film to form weakened portions 23 in the already stretched film exiting the stretching machine.
With reference to Figures 1(b), (c) and (d) these sketches show rollers having differing surface configurations depending upon the nature of the crop to be covered.
Figure 1(a) produces film suitable for example, maize where a single stalk will pass through the film at the weakened portion with spacing for two rows of plant.
Figure 1(b) shows roller 20 with a large area dimple 26 to form a single weakened row which is suitable for example potato crops.
Figure 1(c) shows four rows of thin long spigots or discs 25 on the roller 30 meshing with apertures or slots 31 on the roller 32 for stretching the film to form very thin localised sections in the film. This has been found suitable for cereal crops such as wheat or barley or the like, or other types of crops.
Figure 1(d) is a further example of rollers configured to form a control pattern of weakness over the stretched film with a pattern of numerous dimples 27 on roller 20, forming multiple rows of weak spots suitable also for cereal crops and other types of crops.
It is preferred to have two stretching stations, the first being for example, an in-line prestretched station at the film extrusion machine in which the embossed rolls illustrated in Figures 1(a) to 1(d) are interposed. The embossed rolls being interchangeable to allow a variety of films to be produced at the point of film manufacture.
It has been found that where the film contains colouring opaque pigment, for example, green or black or other colours the localised area of film being additionally stretched by dimples spigots or discs as described above forming this section of film renders the film transparent in those stretched localised sections. As a result the additional beneficial result is obtained whereby light is transmitted into the soil region immediately adjacent the germinating plant bud light is reflected or stopped from penetrating all other areas under the opaque film thereby restricting the growth of weeds and the resultant use of weedicides the like.
1. A plastic material film for covering seeded soil or soil destined to contain seeds for
propagation, characterized in that the film is a non-ultraviolet resistant photodegradable
and/or biologically degradable plastics material film that is stretched at least localized regions
along a length of said film to beyond the yield point of the film to achieve a reduced thickness
in said stretched region or regions, the film containing materials to achieve the non-ultraviolet
resistant photodegradable and/or biologically degradable capabilities whereby in use the film
will deteriorate to allow passage of a germinated seedling there through.
2. A plastic material film as claimed in claim 1, wherein that the film is completely stretched
beyond its yield point.
3. A plastic material film as claimed in claim 2, wherein that the film is completely stretched
4. A plastic material film as claimed in claim 1, wherein that the film is stretched beyond its
yield point in a predetermined pattern of said localized regions along a length of said film.
5. A plastic material film as claimed in claim 1, wherein that the film is completely stretched
beyond its yield point and is thereafter further stretched along one or more lines along^the
length of the film.
6. A plastic material film as claimed in claim 1, wherein that the film is completely stretched
beyond its yield point and is thereafter further stretched in a predetermined pattern of said
localized regions along a length of said film.
7. A plastic material film as claimed in claim 1, wherein that the film in at least said localized
region or regions has a thickness of less than 10 microns whereby the film will more quickly
deteriorate through weathering and/or biological activity in said stretched region or regions.
8. A plastic material film as claimed in claim 1, wherein the lateral edges of the film are of
greater thickness than a mid portion of the film.
9. A plastic material film as claimed in claim 1, wherein lateral edges of the film are folded
10. A plastic material film as claimed in claim 1, wherein the film is configured as a dual ply
film wherein air is trappable there between to exhibit good heat insulating properties.
11. A plastic material film substantially as herein described with reference to the foregoing description and the accompanying drawings.
|Indian Patent Application Number||439/DEL/2005|
|PG Journal Number||37/2008|
|Date of Filing||28-Feb-2005|
|Name of Patentee||INTEGRATED PACKAGING AUSTRALIA PTY LTD.|
|Applicant Address||INTEGRATED PACKAGING AUSTRALIA PTY LTD, 83-85 BANBURY ROAD, RESERVOIR VIC 3073, AUSTRALIA|
|PCT International Classification Number||A01C 1/00|
|PCT International Application Number||N/A|
|PCT International Filing date|