FR3012119A1 - NEW BAG SYSTEM CONTAINING ACTIVE MATERIALS FOR THE TREATMENT OF PLANTS - Google Patents

Abstract

The invention relates to a novel bag system containing materials for the treatment of plants, in particular active substances on growth or against parasites. These bag systems help protect and isolate assets. They make it possible to obtain the final preparation intended for the treatments and care of the plants without dosing and without contact of the user with the asset (s). The bag according to the invention has a volume of between 5 and 1500 ml. The ratio between the length of the transverse and the depth T / P is between 30 and 1. The ratio between the transverse length T and the longitudinal length L is between 1 / 1.1 and 1/16. The minimum dimension of L is 16 mm and the maximum dimension is 210 mm.

Description

1. Object of the Invention The present invention relates to a novel system of bags containing materials for the treatment of plants, including active ingredients on growth or against parasites. These bag systems help protect and isolate assets. They make it possible to obtain the final preparation intended for the treatments and care of the plants without dosing and without contact of the user with the asset (s). 2. State of the Prior Art According to the state of the art, the products used for the treatment of plants are in the form of powder as described in EP1505046, granules as described in patent WO 2006/021708, briquettes or rods as described in patent EP 1063215, in a liquid form as described in patent FR2717796. In the case of powders or granules, the treatment can be done directly by application to the plant or the soil. Aqueous preparations can also be obtained by solubilization and / or dispersion of the powder or granules in a preferentially aqueous solvent. In the case of liquid forms, the dosage requires the use of a system for measuring a defined volume of the product and then its dilution in a specific amount of solvent, which is usually water. The most used systems are the burettes supplied with the product. Some systems are based on the use of the cap as a metering device, the stopper having a mark that adjusts a defined quantity of the product. It is necessary to clean the dosing system at the end of operation otherwise it remains contaminated until the next operation. In any case, the preparation of these ready-to-use products involves manipulation that puts the user in contact with the asset (s) used. On the other hand the precise dosage is difficult to obtain and leads to additional exposure during handling. One of the major problems encountered with the use of divided solid forms such as powders and granules, is related to the fact that they always contain a certain amount of dust. These are likely to come into contact with the user and can be harmful to hygiene, safety and the environment. It is therefore interesting to have the product in unitary form that does not require dosage manipulation. Finally, it is important for some assets to minimize the exposure of the user. The packaging of unit forms in bags or pouches has been proposed by many authors, for example in patent US3299566, in order to completely isolate the asset until its end use. Certain patents describe the production of solid, liquid or powder unit forms contained in a bag such as US Pat. No. 3,299,566. Many active ingredients have been used in the form of powder contained in soluble sachets. The use of bags made of a water-soluble or water-dispersible film-forming material is well known to those skilled in the art, and described, for example, in US-A-3,877,928 and FR-2,665,889. However, the use of bags is not always easy for the user who must open them and add the product to the necessary volume of water. Often the user rips the bag along its entire length and can disperse and lose the product. In the case of water-soluble bags such as those described in patent FR2665889, the shape has not been adapted to the equipment available for so-called weak product quantities, that is to say less than 1 kg. One of the difficulties encountered with the products contained in water-soluble bags concerns the solvent dispersion phase. When added to water the film of the bag becomes hydrated, thickens and can adhere to the walls preventing complete dispersion of the product. The preparation obtained is not satisfactory. When the quantities to be used are greater than 1 kilogram, and are intended for horticultural or agricultural industrial applications, the professional user has implementation equipment such as the empty-bag hoppers of the company SAMI-srl., Or the vacuum bags of the Rotaslit® or SAS® type from Palamatic. The individual or the user of small quantities, less than 1 kg requiring a precise dosage, does not have the handling, deconditioning and dosing tools to avoid the risk of product dispersion, which can lead to risks. contamination and hygiene. For individuals, the bags available are not well adapted to commonly used containers such as plastic containers with a volume of less than 5 liters and watering cans. It therefore appears necessary to provide a solution to these unresolved bag problems for unitary form, easy to use, making it possible not to lose or to disperse the product during the preparation in liquid form, of assets intended for plant treatment. OBJECTS OF THE INVENTION In the present invention, active or active material means all kinds of compounds used for the treatment of plants such as plant protection agents, agrochemical compounds, pesticides, growth regulators. plant nutrition agents and fertilizers and any other biological elements that can participate in the growth, development and protection of plants. Pesticides are more particularly herbicides, insecticides, fungicides, nematicides and acaricides.

These active substances are natural or synthetic or semisynthetic molecules, or mixtures thereof. The active ingredients may also be extracts of plant or animal origin, or pure or processed minerals, or industrial or agricultural products or residues. By product is meant the asset or the mixture of assets, formulated to obtain the final preparation ready to be applied. By pre-dosed product is meant a product supplied in units having a predetermined amount of active material, avoiding the need for measurements of active materials or products. The final preparation according to the invention is obtained by dispersing the pre-dosed product in a precise volume of an aqueous phase. By treatment is meant the action of applying a product on the plants or on the ground, to obtain a protective, curative, nutritive or biological effect. Easy opening means opening the bag without having to use tools. An object of the present invention is to provide a type of unit bag and pre-dosed package for a small amount of plant treatment product, characterized in that its shape and size limit the risk of accidental product dispersion, especially during liquid preparation. By small amount is meant a mass of between 0.5 and 1000 grams. An object of the present invention is to provide a water-soluble bag whose shape and dimensions allow easy handling limiting the risk of accidental dispersion on the one hand, and also allow optimized and complete dispersion in water by minimizing contact with the container, on the other hand. An object of the present invention is to make the compositions packaged in bag or unit and pre-metered, usable more generally, easier and more effective, in that it makes it possible to reduce the number of steps during the preparation of the final form.

An object of the present invention is to provide a system for presenting plant treatment products that is poorly sensitive to moisture and exhibits improved storage stability. Another object of the invention is to provide a bag system comprising an active material such as nutrients, fertilizers, plant protection agents, agrochemicals, pesticides, growth regulators. By bag system is meant a complex system comprising a content and its container. Another object of the invention is to provide a bag system comprising active products having one or more of the following advantages: the contact of the product with the user or the manufacturer or the manipulator of the product is avoided. - The product contained in the bag is self-dispersible in contact with water, that is to say that it requires a minimum of energy and time to be dispersed and diluted in water It has now been found that these goals could be achieved in whole or in part through the active bag systems of the invention. DETAILED DESCRIPTION OF THE INVENTION The bags for packaging the products intended for the treatment of plants according to the invention are of parallelepipedal or tubular form welded to the two ends (4). In the latter case, the bag fits into a rectangular parallelepiped (9). the longitudinal dimension L (1) is defined as being the maximum length of the bag when it is on the base which has the maximum contact area with the support. the width or transverse dimension T (3) is defined as being the maximum length of the bag in a plane perpendicular to the longitudinal direction under the same conditions. - the depth P (2) is defined as the maximum length in which the bag fits, such that this length is perpendicular to the plane defined by L and T - the longitudinal surface, called SI, corresponds to the sum of all surfaces of the sides parallel to L. The transverse surface, denoted St, corresponds to the sum of the surfaces of the sides (10) perpendicular to L and non-parallel to T. The bag comprises: a) the wall, in the form of a film; b) a composition in the form of powder, granules, pellets, gel, or liquid. This composition comprises one or more active ingredients and additives. The dimensions and shape of the bag according to the invention have the following characteristics: the bag according to the invention must have the following characteristics. The ratio T / P is between 30 and 1, preferably between 10 and 2. The ratio T / L is between 1 / 1.1 and 1/16 and preferably between 1/2 and 1/8. The minimum dimension of L is 16 mm and the maximum dimension is 210 mm. the ratio St / SI according to the invention must be between 0, 42 and 0.022 - the bag has a volume of between 5 and 1500 ml, preferably of 10 to 50 ml. The bags of active material systems according to the invention are characterized in that the bags according to the invention are prepared from a film or two films using vertical or horizontal bagging machines well known to the man. art. These systems make it possible to produce the bag by thermo-welding of the film (s) and filling. By way of example, mention may be made of the M250® vertical bagger from Viking Masek. According to another aspect of the invention, the bag containing the composition comprises two adjacent films (7) welded together (8), at least by two of their respective edges (19) to form an internal space (6). According to another aspect of the invention, the bag containing the composition consists of a single film folded on itself, and preferably comprises at least three sealing zones, two of which are substantially rectilinear and coplanar and cut by the third (5) at two points (12).

According to a particular aspect of the invention, the bag obtained by folding a single film has a longitudinal weld and two transverse welds (13). These two welds located at the ends of the bag are located along two axes (14,15) which are not in the same plane. The bag system obtained corresponds to a tetrahedron (16). When the bag system is positioned on its largest face (17), the largest edge (18) of the tetrahedral bag corresponds to L. The length of the weld bordering the largest face corresponds to T and the height the tetrahedron corresponds to P. In this case SI is calculated according to the following equation: SI = 2x (LxT) + 2x (LxP) ST is calculated according to the following equation: St = 2x (TxP) The films can be simple or laminates, ie composed of several initially distinct layers. Films selected by those skilled in the art may be insoluble or water soluble.

These water-soluble films, well known to those skilled in the art, are widely used in industry and are mainly made of natural materials, semisynthetic or synthetic. Polyvinylalcohol films and its derivatives, methylcellulose films and its derivatives, carboxymethylcelluloses, alkyls and hydroxyalkylcelluloses, modified starches, polyvinylethers such as polymethylvinylether or poly2-methoxyethoxyethylene, polyethylenic derivatives may be mentioned as examples; polyvinylsulfonic acid, polyanhydrides, formaldehyde resins derivatives, polyacrylates, polymethacrylates and their derivatives. The film can according to the needs to include several thicknesses.

In a preferred shaping of the invention, the water-soluble film is a polyvinyl alcohol or methylcellulose film. According to an advantageous aspect of the invention, water-insoluble films which may contain aqueous products are used. Examples that may be mentioned include films based on vinyl polymers and polyurethanes; polyesters; alkyd resins; epoxyester resins; modified celluloses, such as cellulose esters; silicone-based materials such as polysiloxanes, gums and resins and mixtures thereof. According to another aspect of the invention the film may comprise several layers. For some applications, it may be necessary to increase the barrier properties and / or the mechanical strength of the film. An aluminum layer can also be added. The aluminum barrier layer of the laminate is important to prevent the escape of solvent and other volatile substances from the package. The materials for the polymer layers are essentially polypropylene, polyamide and nylon. Other materials may be used to provide a printable exterior surface. These may be all those of ordinary use in the art, such as polyester, polypropylene, polyethylene and polyethylene terephthalate (PET). The layers are glued to each other as is the custom in the art. According to one aspect of the invention, the bag contains a notch or incision (11), in one of the longitudinal or transverse seams, to initiate opening by tearing of the film when the latter is not water dispersible. Those skilled in the art will choose the composition and thickness of the monolayer or multilayer film depending on the composition of the product, the cost, the desired barrier effect and ease of use. Bags according to the invention are prepared by methods well known to those skilled in the art. In a conventional manner, the bag is made by welding from one or two films, concomitantly with the filling. There are two main types of machines that can be used to carry out these operations: on the one hand, vertical filling machines, for example the ST400® model from the Viking MasekTM company which makes it possible to obtain bags with 3 welds, or the C3® model from the company Omag Srl on the other hand, flowpack type horizontal filling machines well known to those skilled in the art. As an example we can cite the Atlanta® model of the company Ulma TM. According to another aspect of the invention, the composition contained in the bag system, within the meaning of the present invention, comprises powders, granules, monobloc solids, tablets or tablets as well as liquids or gels. By powder means a material whose constituent particles have an average size generally between 1 and 50 microns. The granules have an average size of between 50 micrometers and 0.5 centimeters, preferably between 150 micrometers and 5 millimeters.

According to another particular aspect of the invention, the product contained in the bag system may be an effervescent product. The products resulting from effervescent compositions contained in the bag system according to the invention are powders, granules, tablets. These effervescent compositions make it possible to obtain a disintegration and a faster dispersion of the product in contact with water under the effect of the release of gaseous bubbles. In the case where the film is water-soluble, the rate of dispersion and / or dissolution of the product is accelerated by the fact that the phenomenon of effervescence also contributes to the disintegration of the bag.

Those skilled in the art can modify the apparent density of the bag system containing the product according to the invention, by adding mineral or organic fillers. By way of example, there may be mentioned kaolin, talc, silica, barium or titanium salts. The effervescent compositions that can be used in the invention generally comprise: an active ingredient or an effervescent couple composed of an acid and a hydrogencarbonate or a carbonate; additives including at least one anticaking and antistatic compound. mention may be made of antistatic agents, preferably chosen from the group comprising precipitated or colloidal silica, and talc, in order to impart antistatic properties to the dry mixture of initial powder. Hydrophilic colloidal silicas, for example Aerosil® produced by the company Evonik, make it possible to obtain an improvement in the flowability and homogeneity properties of the product in the form of a powder or in granules or in a tablet. Preferably, compositions further comprising a wetting agent, especially for the case where the active ingredient is insoluble in water, a dispersing agent are used, especially for the case where the active ingredient is insoluble in water; this agent is able to maintain the active ingredient in suspension in water avoiding its sedimentation. According to an advantageous embodiment according to the invention, the mixture of excipients comprises a surfactant or a mixture of surfactants for stabilizing the dispersion of the hydrophobic compounds in the aqueous phase. The surfactant is preferably chosen from polysorbates, sodium dodecyl sulphate and TRIS. There may be mentioned glycol esters such as ethylene glycol stearate, glycerol esters such as glycerol stearate, polyoxyethylene glycol esters of fatty acids, sorbitan esters, but especially the more commonly called polyoxyethylene sorbitan esters. Tweens or polysorbates. Compounds derived from naphthalenic acid and its salts can also be used as well as phospholipids. The composition may also include fillers for density modulating, colorants, viscosity modifiers of the final formulation such as cellulose derivatives, carbomers, xanthans, carob derivatives, derivatized starches, gelatins, agars, carrageenans. The composition may comprise a desiccant or desiccant, capable of absorbing any residual moisture, a densifying agent, a carrier or filler, antifoamants, all these ingredients being acceptable ingredients for the treatment of plants. A dye mixture or mixture of dyes may optionally be added to a mixture of excipients comprising at least one agent or a mixture of fast disintegrants, a fast-dissolving agent or mixture of soluble agents and a slip agent, by example talc.

It is obvious that these additives are used for formulations of effervescent powders or not, contained in the bag system. For solid forms such as tablets or tablets, it is necessary to add to the excipients a compressing agent. These molecules have binding properties ensuring the holding of the tablet or tablets after compression or molding. These compressing agents are essentially polyols. In this group mannitol, lactose, maltose, lactitol and xylitol are distinguished.

It may be necessary to add a rapid disintegrant which in contact with water provides better wettability of the product whether in solid form or in divided form. It can be chosen from the group of synthetic or natural hydrophilic polymers called super-disintegrants.

It is selected from cross-linked sodium carboxymethylcellulose and its derivatives, referred to in the art as croscarmellose, carboxymethyl starch and its sodium salt, soluble crospovidone, and powder mixtures thereof. Optionally, the solid form according to the invention may comprise a filler, a lubricating agent, for example glyceryl behenate, or magnesium stearate, sodium stearyl fumarate or sodium benzoate. Other compounds well known to those skilled in the art may be added in order to modulate the mechanical properties of the form according to the invention such as hardness, elasticity, plasticity, friability. Polymers of the family of polyethylene glycols as well as polyvinylpyrrolidones and crospovidones may be mentioned. Those skilled in the art may add if necessary, an anti-foaming agent such as dimethicone and its derivatives. The use of fast disintegrant can be combined with that of effervescent agent. An agent or compound is meant capable of releasing a gas such as CO2, and thereby to give rise to the dispersion of the powder in water. On a practical level, the effervescent agent advantageously consists of a pair of products such as a carbonate or hydrogencarbonate, preferably alkaline and a weak solid acid. It is understood that in the case where one of the active materials of the effervescent composition has at least one acid function, the effervescent agent may consist solely of a carbonate or hydrogencarbonate, preferably an alkali metal carbonate. The mass ratio between the acid, or the active material of the effervescent composition having at least one acid function, and the carbonate is generally between 0.3 and 2, preferably between 0.5 and 1. The alkali carbonate may be derived from an alkali metal, in particular potassium, or alkaline earth metal such as calcium and magnesium, or from an ammonium or organoammonium group or cation, for example carbonate derived from a secondary or tertiary primary amine or from a quaternary ammonium cation, but is preferably derived from an alkali metal. The acid is preferably chosen from a carboxylic or polycarboxylic or phosphoric or phosphonic acid or one of their salts or acid-functional esters, for example malic, tartaric or succinic acid.

To improve the stability of certain compounds, it may be necessary to add antioxidants to the composition. According to one particular characteristic of the invention, the abovementioned antioxidant agent is chosen from alpha-tocopherol, gamma-tocopherol, delta-tocopherol, natural extracts rich in tocopherol, ascorbic acid and its salts. sodium or calcium, Ascorbic DL palmityl, propyl gallate, octyl gallate, dodecyl gallate, butyl-hydroxy anisole gallate (BHA) and butyl-hydroxy toluene gallate (BHT) . According to another particular characteristic of the invention, the internal desiccant is magnesium citrate. To these excipients constituting the product contained in the bag system according to the invention, one or more active and / or nutritive or fertilizing substances may be added. As an active substance, at least one of those in the group comprising phytosanitary products may be used.

The first major group is insecticides for the control of insects. For example: the group of organohalogens, among which dichlorodiphenyltrichloroethane and its derivatives such as tetrachlorodiphenylethane, 2,2,2-trichloro-1,1-bis (4-chlorophenyl) ethanol perthane, 2,2 bis- (paramethoxy-phenyl) 1,1,1-trichloroethane, the group of gamma-hexachlorocyclohexane (HCH) and benzene hexachloride (BHC), the group of octachloro-4,7-methanohydroindane such as heptachlor, derivatives of dimethanonaphthalene, bishomocubanes such as chlordecone, perchlordecone, and dienochlor. We can also mention the derivatives of turpentine oil such as endosulfan, toxaphene, polychlorocamphene and terpenes chlorination products, but also chlorophenols and chlorsulfacids. the group of organophosphorus compounds. There are three groups of organophosphorus pesticides. The first is organophosphorus phenyl ring. Many compounds belong to this group such as bromophos, chlorfenvinphos, fenitrothion, fenthion, fonofos, isofenphos, parathion, parathionethyl, parathion methyl, phosalone, profenofos, protiophos.The second group is consisting of organophosphorus heterocycles such as chlorpyrifos, diazinon, étimphos, isoxation, quinalphos, methidation, phosmet.Le third group consists of aliphatic organophosphorus, among which mention may be made of acephate, demeton, dichlorvos, dicrotophos, dimethoate, ethion, formothion, malathion, mevinphos, monocrotophos, naled, omethoate, phorate, phosphamidon and trichlorfon. Mention may be made, as active ingredient, of substances of the carbamate group such as naphthyl methyl carbamate, methyl and dimethyl carbamates with a heterocyclic structure, methyl carbamates with a phenyl ring structure and aliphatic chain methyl carbamates.

The natural and synthetic pyrethroids including but are not limited to the following compounds: bifenthrin, bioresmethrin, deltamethrin, depallethrin, ethofenprox, fenpropathrin, cypermethrin, fenvalerate, esfenvalerate, cyfluthrin, alphamethrin, tralomethrin, fluvalinate, permethrin, lambda-cyhalothrin, flucythrinate, tefluthrin , tralomethrin, zetacypermethrin, betacyfluthrin. Compounds of plant origin such as rotenone, nicotine, azadirine and other derived alkaloids, quassin, ryanodine, aconitine, esterified diterpenic alkaloids, geraniol, and plant globulins. Sulfones and sulfonates such as 1,2,4-trichloro-5- (4-chlorophenyl) sulfonylbenzene, or propargite. Formamidines are characterized by the presence of a structure -N = CH-N, mention may be made of amitraz, chlordimeform, and formetanate. As the second major group of phytosanitary active substances, there may be mentioned fungicides intended to eliminate mold and fungi parasitic plants. The oldest fungicides are sulfur, copper and its organic derivatives such as the Bordeaux mixture which is a mixture of copper sulphate and calcium hydroxide. Contact fungicides, such as zineb, captan and the systematic fungicides triadimefon and morpholine, are distinguished. The herbicide group is the third major group of phytosanitary active ingredients that can be added. By way of example, mention may be made of the following herbicides: mineral compounds such as calcium cyanide (Ca (CN) 2), iron sulphate (FeSO4) and sodium chlorate (NaClO3). Organic herbicides can also be used such as glyphosate, dinitroanilines or toluidines and their derivatives among which mention may be made of benfluralin, butralin, fluchloraline, nitraline, orysaline, pendimethalin, trifluralin. Substituted ureas such as chlortoluron, chloroxuron, cycluron, diuron, ethidimuron, fenuron, isoproturon, linuron, monolinuron, methabenzthiazuron, metobromuron, metoxuron, monuron, thiazafluron, tebuthiuron, thiazafluron, siduron, and neburon.

The triazines atrazine, cyanazine, methoprotrin, propazine, terbuthylazine, simazine, simeynne, secbumeton, secbumeton, terbumeton, amtrequinne, desmétryne, prométryne, terbutryne. Imidazolinones such as imazamethabenz or imazapyr. Sulfonylureas such as amidosulfuron, azimsulfuron, and chlorsulfuron. Diphenyl ethers such as acifluorfen-sodium, aclonifen, bifenox, bromofenoxime, chlomethoxyfene, diclofop-methyl, fluorodifene, fomesafen, lactofen, nitrofen or oxyfluorfen.

Synthetic phytohormones. Acid-indol-acetic acid or IAA and its derivatives, phenoxyalkanoic acids, such as 2,4-D or 2- (2,4-dichlorophenoxy) ethandic acid, 2,4-MCPA, triclopyr, diclofop may be mentioned. methyl, 2,4,5-T, 2,4-DP (dichlorprop), MCPP (mecoprop), 2,3,6-TBA, dicamba, picloram, clopyralid, and flurenol. Nitrate dyes derived from phenol, dinitrophenol, dinitro-ortho-cresol, dinoterb, pentachlorophenol. Carbamates including carbamic acid derivatives comprising the -NH 2 -COOH structure such as asulam, barbam, chlorbufam, chlorpropham, propham, carbetamide. Mention may be made of thiocarbamic acid derivatives such as butylate, cycloate, diallate, triallate, EPTC, molinate, prosulfocarb, vernolate, pedulate, thiobencarb. Derivatives of dithiocarbamiquemétam-sodium, nabame, which prevent germination. The biscarbamates of medipipine, phenmedipham, karbutylate.

Quaternary or bipyridyl ammoniums such as diquat, paraquat, and difenzoquat. Pinoxaden including alloxydim-sodium and clodinafop-propargyl. To these first three classes of active compounds, insecticides, fungicides and herbicides, we can of course add acaricides and nematocides. The solid form obtained according to the invention may also contain compounds ensuring the nutrition of plants, they are fertilizers or fertilizers. Those skilled in the art know that plants need inputs of nitrogen, phosphorus, potassium and trace elements, to enjoy optimal growth and better resistance to aggression. We can add secondary elements such as calcium, magnesium, sodium and sulfur.

Nitrogen compounds that may be mentioned include ammonitrate, ammonium sulfate, urea, potassium nitrate, calcium nitrate, magnesium nitrate, ammonium phosphate, diammonium phosphate, polyphosphates, ammonium, ammonium sulfophosphate. Nitrogen can also be provided by organic compounds such as amino acids, for example alanine, aspartic acid, arginine, asparagine, cysteine, glutamic acid, glutamine, lysine, leucine , isoleucine, glycine, histidine, methionine, phenyalanine, proline, serine, threonine, tryptophan, tyrosine and valine. Potassium compounds include potassium sulphate, potassium chloride, potassium oxide.

In the phosphorus compounds, phosphorus oxide, dicalcium phosphate, simple superphosphate, triple superphosphate, magnesium phosphate and natural phosphate are distinguished.

In addition to the compounds containing the phosphate, nitrogen, potassium, the solid according to the invention may also contain nutrients or nutrients, for example, zinc, copper, manganese, boron, calcium, iron , calcium sulphate (gypsum), magnesium, molybdenum, chlorides, selenium, sulfur or combinations thereof. By way of illustrative but not limiting example of the examples, the copper may be copper (cupric) in the form: hydroxide, chloride, sulfate, oxide, oxysulphate, nitrate, carbonate, ammonium carbonate, cupric chloride dihydrate, proteinate, acetate, citrate, chelate, complexed or entrapped. The zinc may be zinc acetate, ammonium chloride, sulfate, oxide, oxysulfate, nitrate, chloride, citrate, chelate or a trapped complex. The manganese can be manganese in the form: nitrate, chloride, sulfate, oxide, oxysulfate, acetate, anhydrous potassium carbonate, sulfate, manganese tetrahydrate, nitrate hexahydrate acetate, citrate, chelate or sequestered complex. The boron may be boric acid, sodium borate, potassium tetrahydrate and tetraborate, calcium borate, sodium borate calcium, borax, orthopedic acid and ortho-boric acid. Calcium can be calcium: carbonate, chloride, sulfate, gypsum, calcium borate, lime, nitrate, phosphate, citrate, a chelate or sequestered complex. The iron may be iron in anhydrous sulphate, sulphate, chloride, tetrahydrate, hexahydrate, nitrate, nitrate hexahydrate, chloride, ammonium citrate, ammonium sulphate, chelate, sequestered, proteinate or complexes. The preferred forms of the trace elements are in forms complexed with EDTA. As will be appreciated by those skilled in the art, other nutrients or nutritional powders may be prepared in a similar manner. As will be apparent to those skilled in the art, the different nutrients may be added in trace amounts but generally from 0.1% to 90% by weight of the form of the invention. Nitrogen, phosphorus and potassium compounds as well as nutrients and trace elements can be obtained in different types of agricultural and industrial waste. Non-limiting examples include products and by-products of vegetable origin, such as residues of beet pulp, sunflower, grape marc, oilseed meals or cakes, hulls, pulp, olive, beet vinasse, coffee grounds, seaweed extract, vermicompost, feather and bone powders. They are used dry in powder form which can be added to the solid form according to the invention. Active material in solid form means a liquid active material impregnated on a solid support or a solid active material dissolved in a solvent, itself impregnated on a solid support. As the solid support, inert materials are used, for example silica.

The amounts of constituents of the effervescent compositions used in the product contained in the bag system according to the invention are generally from (the percentages indicated are percentages by weight): from 1% to 90% of active ingredient, from 10% to ) / 0 to 80% effervescent agent - 0 to 10% surfactant, preferably between 0.1 and 8% - 0 to 60% densifying agent and / or filler Of course solid-form products may be substituted for aqueous or gel-like liquid forms in which the active compounds are dispersed or solubilized. Depending on the hydrophobic nature of the active ingredients, it may be necessary to add surfactant and dispersant compounds to these aqueous phases. The gels are obtained from gelling and thickening agents suitable for forming the gel used as the dispersion medium according to the method. Mention may be made of carboxyvinyl polymers such as polyacrylic polymers not modified with hydrophobic or surfactant groups, carrageenans, polysaccharide thickeners and gelling agents such as xanthans, guar and carob gums, alginates, cellulose derivatives, pectins , agar, or a mixture thereof. In the case of the hydrophobic active compound formulation, those skilled in the art can use emulsifying polymers characterized by the presence of hydrophobic groups along the chain. There may be mentioned carboxyvinyl polymers such as polyacrylic polymers modified with hydrophobic groups or surfactants for example alkyls. By way of example, mention may be made of the alkyl polyacrylate polymers of the Pemulen® series developed by Lubrizol. To avoid damaging the bag system according to the invention, during transport, they are contained in a secondary packaging, for example in the form of closed container, box or adapted bag. This secondary packaging can be constituted by materials well known to those skilled in the art. By way of example, there may be mentioned cardboard, polymers such as polypropylene, PET or starch derivatives, without these examples being limiting.

The attached drawings illustrate the invention: FIG. 1 represents the parallelepiped in which the bag system according to the invention is inscribed. Figure 2 shows the bag system according to the invention, obtained from two films and comprising four welded edges. Figure 3 shows a section of the bag shown in Figure 2 along the axis AA '.

Figure 4 shows a bag system according to the invention obtained from a single film and having a longitudinal weld (5) and two transverse welds (4). Figure 5 shows a bag system obtained from a film having a longitudinal weld and two transverse welds (13) whose axes (14,15) are not located in the same plane. The following examples, given in a non-limiting manner, illustrate the invention and show how it can be implemented.

Example 1: Bag system according to the invention containing a rose fertilizer Mixture A: In a V-type powder mixer, the following compounds are mixed at 25 rpm for 15 minutes: Talc 80 g 1880 ammonium sulphate Urea 520 g P2O5 620 g Potassium hydroxide 600 g Potassium chloride 500 g Pyrogenic silica 20 g Then stirring is carried out at 50 rpm for 10 minutes. This final mixture is recovered in the form of a fertilizer powder, ready to be used for the manufacture of pre-dosed sachets of 4.5 g.

With the aid of a single-channel vertical bagging machine, equipped with a polypropylene film 86 mm wide and 38 μm thick, set at a rate of 25 bags / minute, the mixture is introduced into a bag formed by longitudinal folding of the tube-shaped film and sealing by thermo-welding. It is then sealed at both ends. The parallelepipedic bag comprises a longitudinal weld and two transverse welds at the ends. The dimensions of the bag are as follows: L = 110 mm T = 42 mm P = 5 mm The ratio St / SI = 0.040635 This bag is opened by tearing and the product powder poured into a watering can containing 2 liters of water . The powder disperses quickly and homogeneously in less than 80 seconds.

Example 2 Bag System According to the Invention Containing an Effervescence Preparation of Rose Fertilizer Mixture A: In a V-type powder mixer, the following compounds are mixed at 25 rpm for 15 minutes: Malic acid 50 g Acid citric 200g Sodium hydrogen carbonate 200g Talc 50g Ammonium sulphate 940g Urea 260g P2O5 310g Potassium oxide 300g Potassium chloride 250g Pyrogenic silica 10g Stirring is then carried out at 50rpm for 10 minutes. This final mixture is recovered in the form of a fertilizer powder, ready to be used for the manufacture of pre-dosed sachets of 4.5 g. With the aid of a single-channel vertical bagging machine, equipped with a polypropylene film 86 mm wide and 38 μm thick, set at a rate of 25 bags / minute, the mixture is introduced into a bag formed by longitudinal folding of the tube-shaped film and sealing by thermo-welding. It is then sealed at both ends. The parallelepipedic bag comprises a longitudinal weld and two transverse welds at the ends. The dimensions of the bag are as follows: L = 110 mm T = 42 mm P = 5 mm The ratio St / SI = 0.040635 This bag is opened by tearing and the product powder poured into a watering can containing 2 liters of water . The powder disperse quickly and homogeneously in less than 40 seconds.

Example 3 Bag System According to the Invention Prepared from a Water-Soluble Film (PVA) Containing a Rosewood Fertilizer Preparation Example 2 is reproduced but using a water-soluble PVA film for the production of the bag. The bag containing the fertilizer powder is thrown directly into the watering can. The bag disintegrates in less than 120 seconds and the contents are completely dispersed in less than 200 seconds. Example 4: Bag system according to the invention containing an insecticidal composition in tablet form.

In a V-type powder mixer, the following compounds are mixed at 25 rpm for 15 minutes: Lactose 35 g Citric acid 65 g Sodium hydrogencarbonate 106 g Talc 5 g To this mixture A the following products are added: mixture B Bifenthrin 2 g Polyvinylpyrrolidone 20 g Hydrophilic pyrogenic silica 12 g Magnesium stearate 2 g Stirring is maintained at 50 rpm for 10 minutes. The recovered pesticide powder is ready for use in the manufacture of compressed tablets. On an alternative tabletting machine set for 40 MPa compression, we produce 3.9 g tablets. Tablets dosed with 0.02 g of bifenthrin are obtained, each making it possible to prepare 1 liter of aqueous solution. The tablets are then inserted into a bag according to the protocol of Example 1. The dimensions of the bag are as follows: L = 70 mm T = 51 mm P = 11 mm The ratio St / SI = 0.129 Example 5: Measurement of the In this example, the losses are compared with the use of a dose of 4.5 grams of a fertilizer composition contained in a bag system A according to the invention. invention, as described in Example No. 1, with the same composition contained in a conventional bag B having the following dimensions: L = 170 mm T = 150 mm P = 3 mm The ratio St / SI = 0.0173 We measure on 20 trials, the dose residues remaining in the bag after opening and pouring into a 4-liter watering can containing 1.5 liters of water. The average residue for each bag system is summarized in the following table: Bag A Bag B St / S1 0.0406 0.0173 Dose (g) 4.5 4.5 Average Residue (g) <0.08 0.41 The residues measured for bag A according to the invention are at least 5 times lower than those of bag B.

Claims (11)

REVENDICATIONS1. Single-dose bag system, containing one or more products intended for the treatment of plants, with facilitated use, protecting the user and characterized in that it comprises: the wall in the form of a film with an easy opening, of which the thickness is between 10 pm and 800 pm - a composition in the form of powder, granules, pellets, gel, or liquid. the ratio T / P between the transverse length T and the depth P is between 30 and 1; the ratio T / L between the transverse length T and the longitudinal length L is between 1: 1.1 and 1; 16. - the minimum dimension of L is 16 mm and the maximum dimension is 210 mm. the ratio St / SI according to the invention is between 0, 42 and 0.022 - the internal volume of between 5 and 1500 ml - the mass of product contained is between 0.5 and 1000 grams 2. Bag system according to claim 1, characterized in that the film constituting the bag is a multilayer film. 3. bag system according to claims 1 and 2 characterized in that the film constituting the bag consists of a material selected from polymers of vinyl, polyurethanes, polyesters, alkyd resins, epoxyester resins, polypropylene, polyethylene modified celluloses, cellulose esters, silicone derivatives, polysiloxanes, polyamide, nylons, polyethylene terephthalate, gums and resins and mixtures thereof. 4. Bag system according to claim 2, characterized in that the multilayer film contains an aluminum layer. Bag system according to Claims 1 and 2, characterized in that the film constituting the bag is a water-dispersible or water-soluble film whose material is chosen from polyvinyl alcohol, hydrolyzed vinyl polyacetate, polyethylene oxide, methylcellulose and its derivatives, carboxymethylcelluloses, alkyls and hydroxyalkylcelluloses, modified starches, polyvinylethers, polyethylenic derivatives, polyvinylsulfonic acid, polyanhydrides, formaldehyde resins derivatives, polyacrylates, polymethacrylates and their derivatives. Bag system according to one of claims 1 to 5, characterized in that the plant treatment product contains an active ingredient selected from plant protection agents, pesticides, growth regulators, agents and the like. nutritious plants 7. Bag system according to claim 6 characterized in that the plant nutrient is a fertilizer containing at least one compound among nitrogen compounds, phosphate compounds, potassium compounds and trace elements. Bag system according to claim 6, characterized in that the pesticide is a herbicide, an insecticide, a fungicide, a nematicide, or an acaricide. 9. Bag system according to one of claims 1 to 8, characterized in that the plant treatment product is in the form of powder, granules, tablet and contains an effervescent agent capable of releasing a gas in contact with the product. 'water. Bag system according to Claim 9, characterized in that the effervescent agent consists, on the one hand, of ammonium hydrogencarbonate or sodium or potassium, or of their mixture and, on the other hand, of citric acid or malic acid or tartaric acid or succinic acid or mixture thereof. 11. Bag system according to one of claims 1 to 10, characterized in that the bags are contained in a secondary packaging in the form of a flexible bag, pot or box or a combination of these containers. 25 30