GB2443011A

GB2443011A - A seed encasement method

Info

Publication number: GB2443011A
Application number: GB0511716A
Authority: GB
Inventors: David Lawrence Mckenzie
Original assignee: CORPORATE IP Ltd
Current assignee: CORPORATE IP Ltd
Priority date: 2005-06-09
Filing date: 2005-06-09
Publication date: 2008-04-23
Also published as: GB0511716D0

Abstract

A seed encasement method comprises taking a seed and removing the outer skin by scarification, applying an adhesive layer to the scarified seed and applying a first coating layer comprising a mixture of ground refined clay and fine grade volcanic rock (pumice) over the adhesive layer. A second coating layer comprising a porous material and a small amount of absorbent crystals is then applied over the first coating layer, before the coated seed is dried. A final coating layer comprising a mixture of ground refined clay and fine grade volcanic rock (pumice) is then applied. The second coating layer may comprise Potash or rock Phosphate mixed with a suitable organic inclusion. The final coating layer may also include a solution of molasses. The coating of the seed helps nutritional diet values of the plant grown from the seed and helps to eradicate infestation during early establishment of seed growth.

Description

I

SEED ENCASEMENT ENCAPSULATED

The present invention relates to a system of encasement of seed deahng with larger types for example Maize, Beans, Potatoes, Nut Kernels, Tree Seed, and all types of seed whether rare or otherwise tropical seeds.

The first embodiment of the invention is inducing certain types of immune enhanced variables in particular for the immune system, both to the plants and to edible resources for areas of the Third World where disease and lack of nutritional diet values become diminished through poverty and lack of funding.

A preferred embodiment of the invention is a reverse process born our existing Patent -GB2373702 "Encapsulated wild flower seed". Conventional methods, which are often bolstered with grasses, require alot of preparation in order to enjoy any growing suess.

The first step of encapsulation is to remove all types of chemicaJs that maybe current in disease resistant coatings pre-treated seeds due to infestation at early establishment of seed growth.

The novelty of the invention is being able to isolate the measurable conductrvity creating a pH if neutrality, between 6.5 and 7 on the pH scale, along with incorporating temperature change into the soil by bacterial reaction increasing symbiotic nitrogen, instigating a hydrogen charge by excess water variant, in stages by way of isolation and various manufacturing processes to obtain maximum optimum conditions either by inducement of immune enhancers, vitamin and plant control to the seed nucleus = both for plant health and human consumption. Increasing water retention properties and allowing the seed to breath during the various stages without destruction to the outer casement, honing the analytical modifications and time duration in the make up of the shell.

The varying seed is placed in a cylindrical drum, rotating with an outer wall of abrasive materials; any outer casing is removed by scarification -virtually removing the skin of the seed. This can be treated with several solutions of material that have adhesive qualities, these, of course, can vary from seed to seed and modification of dilution, although normally in the first stage 01 encasement a weaker solution of animal based glue or medium can be applied or a suitable non toxic acetate range.

The outer preservative is then replaced a round the seed in the first initial coating which comprises a mixture of finely ground refined clay, along with a fine grade of volcanic rock, Which allows porosity to the seed in the stages of germination, clay on its own would inhibit water leakage.

The second coating normally consists of a porous coating mixed with a small percentage of water absorbent crystals, but only a minute amount is used to relieve expansion problems to the outer casing of the seed casement, a coating of Rock Phosphate and Muriate of Potash or any other Potash ranges.

Potash is incorporated along with a suitable organic inclusion.

These are applied either as pig, poultry, or cow manure containing ammonic or enzyme qualities, including kelp which has a high iodine content, to increase a chacge if the dilution of water added to the seed is pH 4 releasing the chemical potential in the seeds outer encasement. This also in turn dilution can be used by any type of acid Hydrochloric/Citric Acids equates the symbiotic N factor for the specific seed variety (FIg. I of 2).

The seeds are well dried after this process and a further coating of day and pumice is added, often containing a solution of molasses or other sugar based compounds to increase the Phosphate and sugar based Phosphates.

The final coatings are made up of soluble Nitrogen, Phosphate and Potash -these are often included using Sulphuric content inhibited by a coating of finely ground day with a small percentage of finely ground volcanic rock to allow porosity to the outer casing of the many novel reactions that appertain to growing any modification that may vary due to the inclusion of immune enhanced elements for people suffering from deficiency because of their limited resources.

The uptake being taken in the plants themselves via human's consumption. Thereby increasing life span in diseases, where immunity is broken down through deficient diets (F*g 2 012).

Claims

1) Seed Encasement Encapsulated as per Fig 1/2 a system of encasement of seed (s) particularly larger varieties to help nutritional diet values and erradicate infestation during early establishment of seed growth 2) A method of encasing seed (s) according to claim 1 by inducing immune enhanced variables in particular for the immune system through plants as an edible resource when they have reached maturity.

3) A method to remove all chemicals according to claim I that maybe current in disease resistant coatings in pre-treated seeds by scarification of the outer skin.

4) A method of isolating the measurable conductivity according to claim 1 by use of finely ground clay as an inert substance 5) A method of obtaining maximum growing conditions according to claims 3 -4 through the inducement of symbotic nitrogen to the outer casement of the seed (s) creating a pH of 6.5 to 7 on the pH scale 6) A method of introducing vitamins according to claims 3 -5 to the encasement of the seed (s) nucleus for plant health and human consumption though developed plants 7) A method of increasing water retention properties according to claim 4 * :..* by the addition of a minute amount of water absorbent crystals. *sI' * S S...

8) A method of allowing the seed to breathe according to claims 4 and 7 * : without destruction of the outer casement by adding a further coating of * S finely ground clay and pumice to allow root and stems to expand without damage to outer encasement Fig 2/2 * *55 * * S 5** 9) A method of applying a final coating according to claims 4 7 and 8 of rock phosphate and Potash (muriate of potash is preferred) together with suitable organic inclusion of either pig poultry or cow manure or similar substance plus molasses or other sugar based compounds to increase phosphate and sugar based phosphates in N P K values to optimise the plants growth and environment a S 5.5 *5* * * 5S S

A * S

S..,.. * S

SI S.. 1.1 a * S... (p

Amendments to the claims have been filed as follows 1 Seed Encasement Encapsulated as per Fig 1/ 2 a system of encasement of seed (s) particularly larger varieties to help nutritional diet values and to eradicate infestation during early establishment of seed growth.

2 A method of encasing seed (s) according to claim 1 by inducing immune Enhanced variables in particular for the immune system through plants as an edible resource when they have reached germination and maturity 3 A method to remove all chemicals according to claim 1 that maybe current In disease resistant coatings in pre-treated seeds by the use of scarification of the outer skin and sealing as in claim 4 4 A method of isolating the measurable conductivity according to claim 1 by the use of a fine grade of volcanic rock mixed with finely ground refined clay coating allowing porosity to the seed (s) during germination A method of obtaining maximum growing conditions according to claims 3 & 4 es..

* * * *O through the inducement of symbotic nitrogen to the outer casement of the seed (s)to create a pH of 6.5 to 7 on the pH scale with enhancement by using enzyme kelp or seaweed based products 6 A method of introducing vitamins according to claims 3 -5 to the encasement of the seed (s) nucleus for plant health and human consumption through the developed plants 7 A method of increasing water retention properties according to claim 4 by the addition of a minute amoun t of water absorbant crystals 8 A method of allowing the seed to breathe according to claim 4 and 7 without the destruction of the outer casement by adding a further coating of finely ground pumice and clay to allow the root (s) to expand 9 A method of applying a final coating according to claims 4, 7 and 8 of rock phosphate and potash (Muriate of potash is preferred) together with a suitable organic inclusion of either pig poultry or cow manure or similar substance such as kelp or seaweed based products plus molasses or other sugar based compounds to increase phosphate and sugar based phosphates in Nitrogen Phosphate r:G and Potash values to optimise the plants growth and environment

DESCRIPTION OF DRAWiNGS

FIG I OF 2 Shows nucleus of seed including the various coatings to the novelty of the invention and the many stages of manufacture to achieve this.

FIG 2 OF 2 Shows the outer casing cracking to allow root development both for stem arid root, without destroying the outer cases in the early stage of germination.