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Smoke insecticide, smoke insect-killing apparatus, and insect-killing method

A technology of insecticides and antioxidants, which can be used in devices for capturing or killing insects, biocides, biocides, etc., and can solve problems such as white sediment pollution

Active Publication Date: 2012-10-31
LEC INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0009] However, fumigants containing combustion substrates such as azodicarbonamide have excellent volatilization of active ingredients, but there is a problem of pollution such as white deposits caused by the generated smoke.

Method used

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  • Smoke insecticide, smoke insect-killing apparatus, and insect-killing method
  • Smoke insecticide, smoke insect-killing apparatus, and insect-killing method
  • Smoke insecticide, smoke insect-killing apparatus, and insect-killing method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1A~19A

[0286]

[0287] The components shown in Tables 1 to 4 were mixed and dissolved to prepare the fumigating insecticides of the respective examples.

[0288] The unit of the mixing amount of each component in Tables 1 to 4 is mass %, and the fumigating type insecticides of each example were prepared by adding water or the total mass of clay as 100 mass %.

[0289] and use with figure 1 The fumigation-type insecticidal device 1 of the illustrated embodiment is the same as the fumigation-type insecticidal device of the embodiment. Specifically, 50 g of calcium oxide is filled in a tinplate can (S size: 52 mm in diameter x 67 mm in height) used in "Water Initiated Ballsun (trade name) 12.5 g" manufactured by Lion Co., Ltd., and a dedicated bottom cover is attached. 5g of the fumigant insecticides of each example were accommodated in the inner container to prepare the fumigant insecticide.

[0290] The following evaluations were carried out for each fumigation-type insecticidal d...

Embodiment 1B~22B

[0384]

[0385] Mix and dissolve the ingredients shown in Tables 9-11 to prepare a liquid fumigant insecticide.

[0386] In Tables 9 to 11, the unit of the mixing amount of each component is mass %, and it prepared by adding water so that the total amount was 100 mass %.

[0387] 50 g of calcium oxide was filled in a tinplate can used in "Water Initiated Balsun 12.5 g" manufactured by Lion Co., Ltd., and a dedicated bottom cover was attached to prepare smoke containing 5 g of each example of fumigating insecticide in the inner container. Fumigation type insecticide device.

[0388] The following evaluations were performed for each fumigation-type insecticidal device. The results are also recorded in Tables 9-11.

[0389] (Evaluation method)

[0390] [Volatilization rate]

[0391] Add 18 mL of water to a plastic cup with a diameter of 8 cm and a height of 4 cm, and place the above plastic cup in a place with an inner volume of 6.38 m 3 (6380L) in the center of the labora...

Embodiment 23B~34B

[0412] Mix and dissolve the ingredients shown in Table 12 to prepare a liquid fumigant insecticide.

[0413] The unit of the mixing amount of each component in Table 12 is % by mass, and it was prepared by adding water to make the total amount 100% by mass.

[0414] 50 g of calcium oxide was filled in a tinplate can used in "Water Initiated Balsun 12.5 g" manufactured by Lion Co., Ltd., and a dedicated bottom cover was attached to prepare an inner container containing 5 g of fumigant-type insecticides of each example. Smoke type insecticide device.

[0415] The volatilization rate (%) of the active ingredient was measured in the same manner as in Examples 1B to 22B for each fumigation-type insecticidal device. The results are recorded together in Table 12. As shown in Table 12, the volatilization rate of any active ingredient was 20% or more, which was good.

[0416] [Table 12]

[0417]

[0418]

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PUM

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Abstract

The invention provides a smoke insecticide, comprising polyatomic (A) and an effective insect-killing component (B). Preferably, the smoke insecticide is the heating substrate that does not include self-reactivity. The smoke insecticide comprises a heating medium producing the heat of 150 to 450 DEG C and configured by the heat conduction part. The invention also discloses an insecticide method that heats the smoke insecticide to 150-450DEG C to make it disperse. According to the invention, the smoke insecticide features simple processing, low pollution, and high insecticide efficiency and provides actual effect to users. The invention also discloses a method for using the insecticide and an insect-killing method.

Description

technical field [0001] The invention relates to a fume-type insecticide, a fume-type insecticide using the above-mentioned fume-type insecticide and a method for killing insects. [0002] The present invention is based on Japanese Patent Application No. 2011-102347 filed in Japan on April 28, 2011, Japanese Patent Application No. 2011-102348 filed in Japan on April 28, 2011, and Japanese Patent Application No. 2011 filed in Japan on April 28, 2011. -No. 102351, Japanese Patent Application No. 2011-179603 filed in Japan on August 19, 2011 claims priority, the contents of which are incorporated herein. Background technique [0003] Various techniques for releasing and diffusing (hereinafter referred to as "scattering") active ingredients in a wide space have been proposed. For example, a method in which the active ingredient is atomized and sprayed is performed. [0004] This, as an example, discloses in agricultural applications, using a motor or a gasoline engine as a driv...

Claims

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Application Information

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IPC IPC(8): A01N25/18A01P7/00A01M13/00
Inventor 松田贤治萩森敬一
Owner LEC INC