Process for extracting latex, resin and rubber from guayule plants

1 . Process for extracting latex, resin and rubber from guayule plants, comprising: a. harvesting the guayule plants; b. defoliating said plants; c. preserving the defoliated plants in an environment under controlled temperature and relative humidity, for a time of between 7 and 21 days, such that the residual moisture present in the plant is maintained in the range of 30-45%; d. immersing the defoliated plants in a basic aqueous solution which comprises a stabilising system; e. grinding said defoliated plants immersed in said basic aqueous solution to obtain an aqueous suspension of plant material comprising plant fragments; f. subjecting the aqueous suspension obtained in step “e” to filtration/pressing to separate a first miscella comprising said latex from a first bagasse; g. recovering the concentrated latex from said first miscella; h. dispersing said first bagasse in a polar solvent system, comprising at least one polar organic solvent and a stabilising system, to obtain a suspension; i. subjecting the suspension obtained in step “h” to filtration/pressing to separate a second miscella comprising said resin from a second bagasse; j. removing the at least one polar organic solvent from said second miscella to obtain the concentrated resin; k. removing the at least one polar organic solvent from the second bagasse obtained in step “i”; l. dispersing said desolventised second bagasse obtained in step “k” in a nonpolar solvent system, comprising at least one nonpolar organic solvent and a stabilising system, to obtain a suspension; m. subjecting the suspension obtained in step “l” to filtration/pressing to separate a third miscella comprising said rubber from a third bagasse; n. removing the at least one nonpolar organic solvent from the third miscella to obtain the rubber in the solid state; o. removing the at least one nonpolar organic solvent from the third bagasse obtained in step “m”. 2 . Process according to claim 1 , in which the steps of said process are carried out in sequence from “a” to “o”. 3 . Process according to claim 1 , in which the guayule plants are harvested on resumption of the vegetative period of said plants. 4 . Process according to claim 1 , in which the plants are harvested with a size greater than or equal to 8 cm and less than or equal to 20 cm. 5 . Process according to claim 1 , in which step “c” is carried out for a time of between 10 and 15 days, in an environment in which the temperature is constantly maintained between 15 and 40° C., and/or in which the relative humidity is constantly maintained between 80% and 95%. 6 . Process according to claim 1 , in which preservation step “c” precedes defoliation step “b”. 7 . Process according to claim 1 , in which the pH of said basic aqueous solution is greater than or equal to 7.5 and less than or equal to 12. 8 . Process according to claim 1 , in which, in step “d” of said process, the ratio of the volume of said basic aqueous solution to the weight of the plant material ranges is. between 1 and 10. 9 . Process according to claim 1 , in which said basic aqueous solution comprises a base selected from KOH, NaOH, NH 4 OH, NaHCO 3 , or mixtures thereof, in a final concentration of between 0.1% and 0.5% by weight. 10 . Process according to claim 1 , in which grinding step “e” is performed using one or more hammer mills. 11 . Process according to claim 1 , in which the fragments of plant material obtained by grinding step “e” have an average size of between 0.5 and 7.5 mm. 12 . Process for extracting latex, resin and rubber from guayule plants, comprising: a. harvesting the guayule plants; b. defoliating said plants; c. preserving the defoliated plants in an environment under controlled temperature and relative humidity, for a time of between 7 and 21 days, such that the residual moisture present in the plant is maintained in the range of 30-45%; d. grinding said defoliated plants; e. immersing said ground defoliated plants in a basic aqueous solution which comprises a stabilising system to obtain an aqueous suspension of plant material comprising plant fragments; f. subjecting the aqueous suspension obtained in step “e” to filtration/pressing to separate a first miscella comprising said latex from a first bagasse; g. recovering the concentrated latex from said first miscella; h. dispersing said first bagasse in a polar solvent system, comprising at least one polar organic solvent and a stabilising system, to obtain a suspension; i. subjecting the suspension obtained in step “h” to filtration/pressing to separate a second miscella comprising said resin from a second bagasse; j. removing the at least one polar organic solvent from said second miscella to obtain the concentrated resin; k. removing the at least one polar organic solvent from the second bagasse obtained in step “i”; l. dispersing said desolventised second bagasse obtained in step “k” in a nonpolar solvent system, comprising at least one nonpolar organic solvent and a stabilising system, to obtain a suspension; m. subjecting the suspension obtained in step “l” to filtration/pressing to separate a third miscella comprising said rubber from a third bagasse; n. removing the at least one nonpolar organic solvent from the third miscella to obtain the rubber in the solid state; o. removing the at least one nonpolar organic solvent from the third bagasse obtained in step “m”. 13 . Process according to claim 1 , in which extraction step “h” is preceded by an additional grinding step of the first bagasse. 14 . Process according to claim 13 , in which said additional grinding step is carried out with corrugated roller mills and/or smooth roller mills. 15 . Process according to claim 1 , in which, in step “h” of said process, the ratio of the volume of the polar solvent system to the weight of the first bagasse is between 1 and 7. 16 . Process according to claim 1 , in which the polar solvent system used in extraction step “h” comprises at least one polar organic solvent, selected from an alcohol having from 1 to 8 carbon atoms, ethers and esters having from 2 to 8 carbon atoms, cyclic ethers having from 4 to 8 carbon atoms, ketones having from 3 to 8 carbon atoms, or mixtures thereof. 17 . Process according to claim 16 , in which said polar organic solvent is selected from ethanol and acetone. 18 . Process according to claim 1 , in which said polar solvent system is brought into contact with said first bagasse in one or more countercurrent steps, with or without stirring, for a time of between 0.1 and 5 hours, at a temperature of between 25° C. and the boiling point of the polar organic solvent used. 19 . Process according to claim 1 , in which said filtration/pressing step “i” is performed at a temperature of between 25° C. and 50° C. 20 . Process according to claim 1 , in which, in step “l” of said process, the ratio of the volume of the nonpolar solvent system to the weight of the second bagasse is between 1.5 and 7, preferably between 2 and 5. 21 . Process according to claim 1 , in which the nonpolar solvent system used in extraction step “l” comprises at least one hydrocarbon solvent selected from linear or branched alkanes having from 4 to 9 carbon atoms, cycloalkanes or alkyl cycloalkanes having 5 to 10 carbon atoms, aromatic hydrocarbons having 6 to 10 carbon atoms, or mixtures thereof. 22 . Process according to claim 21 , in which said hydrocarbon solvent is selected from hexane a