DE543248C - Procedure for insect pest control - Google Patents

Description

Insect pest control methods All working methods for Insect pest control is essentially based on dusting, misting and gasification processes. Solid bodies with insecticidal properties brought into powder form and then dusted; in the same way are liquids of an insecticidal character, after all, they bring insecticidal ones Body in a gaseous state to act. Even laying out so-called mothballs proves to be an effect of gaseous substances, since those coming into use Bodies, such as naphthalene or paradichlorobenzene, already at ordinary temperature pass into gaseous form.

In any case, it is a matter of achieving a contact effect, be it an action on the chitinous body or a penetration into the stigmas and trachea or oral intake is intended. It stands to reason that the imponderable defect adheres to all atomization or misting processes, that despite all calculations and considerations with regard to the way of life and physical training of the insect pests or their brood-related natural Protection cannot assess exactly how much active substance is in each individual case comes into play, apart from the fact that it is always about the release of poisonous or corrosive effects, whereby certain consideration for the environment is required is.

Each method has an effectiveness limit that is dependent depends on the speed with which the contact effect comes about. The flight or ability to move allows the insect pests to move into the danger zone to withdraw. In many cases it is technically impossible to get the pests into their To achieve hiding places with powder or liquid means.

Practice has shown that the gas process is the highest Effect level comes because, as is well known, a gaseous body a given space endeavors to fill out uniformly and completely. But also adhere to this procedure Defects caused by the nature of the gases used or by the local conditions are given. As is well known, the dewancing of living spaces has a prerequisite that the premises are sealed airtight, as air currents thwart the even distribution in the room and thus the actual hiding places can only be gassed incompletely. In addition, an uncontrolled escape forms the poison gases pose a danger to humans and pets.

To the principle of gassing regardless of the local conditions to design, a procedure has been worked out for which the following Embodiment is given. The inventive idea is that several powdery or liquid substances are nebulized or dusted separately, and Although such substances are used because of their chemical nature when they meet, developing a gaseous, insecticidal body with one another react. This ensures that in the immediate vicinity of the whereabouts a gas in statu nascendi is applied to insect pests and their brood. The coefficients of effectiveness, namely speed and intimacy, are based on this Wise broadest consideration.

It is part of the essence of the method according to the invention that, in principle, only powdery or liquid starting components are used, but not gaseous ones, because only the former can be transported economically to the place of their effectiveness in field crops or tree stands. With regard to investigations into the rate of decomposition of calcium cyanide in carbonated air, the proposal has been made to increase the carbonic acid content of the surrounding air after dusting fruit trees with calcium cyanide by brush fires in order to release the hydrogen cyanide more quickly. The shortcomings of this methodology (impracticability in wind, etc.) are obvious. Processes are also known in which only those gases which do not react in any way with the solution are used to generate foams in insecticidal solutions. Then another method is known in which two insecticidal gases act on trees surrounded by a tent in such a way that cyan gases in the upper part of the tent are supposed to act on the pests of the treetops, while a layer of chlorine gas on the ground is supposed to destroy the pests that have fallen off. A chemical interaction of the components is only undesirable in this process. Embodiment z It is known that primary, organic amines react with carbon tetrachloride in alcoholic potassium solution with the development of carbylamines. The carbon tetrachloride, which is effective in itself as an insecticidal agent, is therefore atomized by itself or with other substances. Separately, aminobenzene is nebulized in alcoholic potassium hydroxide solution. When they meet, the highly insecticidal, gaseous phenylcarbylamine is formed. The development of an insecticidal gas takes place on the wetted masonry or in the misted fabric, which makes sealing the premises unnecessary. Embodiment - development of acetaldehyde. Alcohol is sprayed once and separately from it an acidified aqueous solution of an oxidizing agent, e.g. B. potassium dichromate or potassium permanganate. Since the first component, the alcohol, is itself very liquid, it is advisable in this case to carry out the two operations quickly one after the other or at the same time, expediently by means of simultaneous atomization using a double nozzle atomizer. The extremely strong insecticidal effect of acetaldehyde is brought to bear favorably by this method of operation. Embodiment 3 In separate operations, an aqueous or, better still, alcoholic solution of butylamine chlorohydrate is dusted once and further sprayed in aqueous or alcoholic potassium hydroxide solution. The butylamine, which slowly gasifies in the joints and the finest cracks, is characterized by its extraordinarily high insecticidal effect, to which even the hidden larvae succumb.

Claims (1)

PATENT CLAIM: Method for combating insect pests, thereby characterized in that according to known atomization or atomization methods in separate Operations two powdery or liquid substances of greater or lesser magnitude insecticidal effect, which when they meet with the development of a gaseous, insecticidal bodies react with each other.