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Research, development and preparation method of trunk injection pesticide adjuvant

A technology of pesticide adjuvants and cosolvents, which is applied in the fields of botanical equipment and methods, biocides, biocides, etc. The effect of reducing the decomposition release rate and increasing the viscosity of the system

Inactive Publication Date: 2021-12-07
湖南正林益森生物科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in southern China, such as Fujian, Guangdong and other places, due to the high annual average temperature, the secretion of masson pine pine resin is vigorous, which will cause the injection hole of the injector to be blocked by rosin when using the desiccating agent, causing the liquid The phenomenon that it cannot be injected into the tree occurs, and the dried pesticide solution is released and decomposed before the trunk lesions, so that the active ingredients cannot enter the trunk smoothly, the drug effect cannot be fully exerted, and the ideal control effect cannot be achieved. Therefore, a dry pesticide injection is needed to help agent to improve the deficiencies of the existing technology

Method used

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  • Research, development and preparation method of trunk injection pesticide adjuvant
  • Research, development and preparation method of trunk injection pesticide adjuvant
  • Research, development and preparation method of trunk injection pesticide adjuvant

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Embodiment 1 A research and development and preparation method of dry injection pesticide adjuvant, comprising:

[0030] S1.1. Add 30% of antioxidant to 60% of anti-photolysis agent, and stir in the stirring tank for 15 minutes to obtain mixture A;

[0031] S1.2. Dilute 0.5% thickener with deionized water, mix and add to mixture A, and continue to stir for 10 minutes to obtain a complete modified inhibitor.

[0032] S2.1. Add the original drug into the stirred tank, add 48.5% of co-solvent and 4% of synergist to the stirred tank in turn, heat to 45°C and slowly stir and mix to prepare the mixed solution A;

[0033] S2.2. Add 1.5% penetrant to the mixed solution A, and slowly add it under low-speed stirring until it is completely mixed to obtain the mixed solution B;

[0034] S2.3. Take 6% of the modified inhibitor and dilute it with water in proportion, slowly add the diluted modified inhibitor into the mixed solution B under low-speed stirring, and dilute the viscosit...

Embodiment 2

[0035] Embodiment 2 A research and development and preparation method of dry injection pesticide adjuvant, comprising:

[0036] S1.1. Add 35% of antioxidant to 55% of anti-photolysis agent, and stir in the stirring tank for 20 minutes to obtain mixture A;

[0037] S1.2. Dilute 1% thickener with deionized water, mix and add to mixture A, and continue to stir for 15 minutes to obtain a complete modified inhibitor.

[0038] S2.1. Add the original drug into the stirred tank, add 29% of co-solvent and 6% of synergist to the stirred tank in turn, heat to 45°C and slowly stir and mix to prepare the mixed solution A;

[0039] S2.2. Add 2% penetrant to the mixed solution A, and slowly add it under low-speed stirring until it is completely mixed to obtain the mixed solution B;

[0040]S2.3. Take 8% of the modified inhibitor and dilute it with water in proportion. Slowly add the diluted modified inhibitor into the mixed solution B under low-speed stirring, and dilute the viscosity to 5....

Embodiment 3

[0041] Embodiment 3 A research and development and preparation method of dry injection pesticide adjuvant, comprising:

[0042] S1.1. Add 40% of antioxidant to 50% of anti-photolysis agent, and stir in the stirring tank for 130 minutes to obtain mixture A;

[0043] S1.2. Dilute 1.2% thickener with deionized water, mix and add to mixture A, and continue to stir for 20 minutes to obtain a complete modified inhibitor.

[0044] S2.1. Add the original drug into the stirring tank, add 19% of co-solvent and 8% of synergist to the stirring tank in turn, heat to 45°C and slowly stir and mix to prepare the mixed solution A;

[0045] S2.2. Add 3% penetrant to the mixed solution A, and slowly add it under low-speed stirring until it is completely mixed to obtain the mixed solution B;

[0046] S2.3. Take 10% of the modified inhibitor and dilute it with water in proportion. Slowly add the diluted modified inhibitor into the mixed solution B under low-speed stirring, and dilute the viscosit...

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Abstract

The invention relates to the technical field of trunk injection agents, in particular to a research, development and preparation method of a trunk injection pesticide adjuvant. The adjuvant comprises the following raw materials in percentage by mass: an active compound, a synergist, a penetrant, a modification inhibitor and a cosolvent. The synergist is a perfluoroalkane organic fluorine compound. The penetrant is formed by mixing a polyoxyethylene ether compound with one or more of secondary alkyl sodium sulfonate, sodium dioctyl sulfosuccinate and sodium alkyl naphthalene sulfonate. The modified inhibitor comprises the following raw materials in percentage: an anti-photolysis agent, an antioxidant, a thickening agent and water. The modified inhibitor can increase the system viscosity of the trunk injection pesticide auxiliary agent, reduce the decomposition and release rate of the emamectin benzoate under ultraviolet light. The modified inhibitor can reduce the decomposition rate of the emamectin benzoate, so that the emamectin benzoate flows for a longer time in the trunk, the pesticide activity of the emamectin benzoate is improved, and the emamectin benzoate still has an efficient killing effect on pine wood nematodes after penetrating through rosin.

Description

technical field [0001] The invention relates to the technical field of dry injection agents, in particular to a research, development and preparation method of dry injection pesticide adjuvants. Background technique [0002] Pine wood nematode disease, also known as pine wilt disease, is a devastating epidemic disease of pine forests. It has the characteristics of rapid spread, difficult control, rapid onset, and severe damage. It is called "the cancer of pine trees". In my country, pine wood nematode disease is mainly carried by adults of Monochamus alternatus, and spreads the disease through activities such as feeding, supplementing nutrition and laying eggs. The pine xylophilus that invades the pine tree reproduces and moves in the tree, the number grows rapidly and in large numbers, and gradually distributes to the whole tree, secretes cellulase and other toxic substances, destroys the parenchyma cells and epithelial cells of the resin duct, disturbs the metabolism of th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01N43/90A01N29/02A01N25/04A01N25/22A01P5/00
CPCA01N43/90A01N29/02A01N25/04A01N25/22
Inventor 项林胜
Owner 湖南正林益森生物科技有限公司
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