DE1156690B - Smoke set that is floating and combustible in water - Google Patents

Description

Floating and water-flammable smoke composition The generation of artificial Fog used to camouflage one's own ship, tank or troop movements is a well-known one Means of sea and land warfare.

In general, especially in the case of a surprising opponent, the rapid generation of the smoke screen must be urgently required. Next to it is the Support of the cloud once it has been generated by replenishing the fog substance via one greater period of time is required to dilute the cloud due to air movement compensate.

For this reason, in the known fog pots, the generation of the fog is carried out in two stages, namely 1. a strong fog formation over a period of about 5 to 10 seconds and 2. immediately thereafter a further fog generation g to a reduced extent over a period of 60 to 120 seconds.

When nebulizing ship units, fog-forming is generally used Substance ejected or blown off on board, so that in an unfavorable wind direction the protective effect of the fog on your own ship can be very low. Will the usual fog-forming agents, such as hexachloroethane, tin tetrachloride and the like When chlorine compounds are used to fog humid air, one is the result opaque smoke screen depending on the moisture content of the air. When it is very dry only a small or no fog effect is achieved. It is also prohibited to Application of these substances the shooting of fog pots at sea, the fog substances Eject in the water, as the mist formed is soluble in the water.

Likewise, the use of flammable, fog-forming is for the intended purpose Substances such as phosphorus and sulfur, individually or in a mixture with other combustible substances Substances, of no practical importance, since even with the addition of an oxygen carrier, like ammonium nitrate or potassium perchlorate, the fog formation is only guaranteed for so long is how the substance looks outside of the water, as these mixes either are heavier than water and sink or through contact with water the oxygen carriers that maintain the combustion are released.

Should the tactical requirement, a fog veil of z. B. one Ship unit from over a distance of about 200 m at a height of about 20 up to 4-0 m are sufficient, the fog substance must cover the entire distance range can be distributed. So it will be necessary to use the fog-forming substances by throwing devices or launching devices to disperse over the desired distance. Furthermore, it is necessary to have a fog effect immediately when the charge is dropped to achieve that by replenishing the mist-forming that remains on the water surface Substance is entertained.

With the known fog formers, this task can not be solved or only unsatisfactorily so far. The object of the invention, which is described in more detail below, is to meet this tactical requirement. To solve this problem, the fog-forming, buoyant substance is divided into portions of different sizes, from an auxiliary device, such as. B. a mortar, a Flugk'örM - 6d # 'r other filf the ejection or transport suitable devices or containers set on fire by igniting an ejection charge and expelled. The burning parts receive, depending on their size during the ejection process, different cross-sectional loads, which lead to different ranges of the individual bodies, so that from the start of ejection up to the maximum distance that can be achieved, an arbitrary distribution of fog generators is achieved through the gradation of the charge build-up according to particle size can be.

To carry out this outlined procedure, fog-generating Substances used which are the subject of the present invention.

In order to meet the two main requirements: 1. Fog formation independent or slightly dependent on the air humidity and 2. Floatability of the fog generator.

are mixtures according to the invention of a firm Oxygen carriers, one or more fuel components, a binder and a hollow body which ensures floatability and is embedded in the mass used. Due to the content of an oxygen carrier, which at the same time creates a mist is, it is achieved that the fog mass continues to burn in the water.

Substances, especially synthetic ones, are used as binders for these mixtures Resins or types of rubber, to be used, which are not soluble in water, in order to achieve a To prevent leaching of the oxidizer.

The density of the fog mass varies between 1.3 and 1.8 depending on the recipe. The hollow bodies with a thin envelope inserted into the mass make it possible to achieve apparent densities of the total sphere of 1 and less than 1. The use of a plastic-coated Holilkugel instead of a simple cavity is due to the manufacturing process. However, it is also possible to achieve such cavities in the compound without a plastic sheathing, if a corresponding technology is implemented. It is also possible to incorporate low-density bodies, such as cork or foam, instead of the cavities into the mass, in order to achieve the desired reduction in the apparent density.

Some tried and tested recipes for the production of the fog mass are listed below. 1. 751 / o potassium perchlorate, 1511 / o epoxy resin as a binder, 10% red phosphorus; 2. 5011 / o potassium perchlorate, 201 / o silicone rubber as a binder, 15111o ammonium perchlorate , 15, D / o sulfur; 3. 70 0 / a potassium perchlorate, 1711 / o polyurethane as a binder, 8% sulfur, 51 / o aluminum. These recipes serve to explain the idea of the invention, but do not restrict it.

In all of the recipes listed, the individual components are first mixed in the following order: First the oxygen carrier, then the additives such as phosphorus, sulfur or aluminum, are added to the binder, which is in liquid form, and this mixture is added until a doughy, homogeneous mass is achieved worked through in the mixer or kneader. Then the hardener or the crosslinking agent is stirred in. In this mass, the intended to reduce the apparent specific weight packing in the form of z. B. hollow bodies made of plastic or solid bodies of low density, such as cork or foam with closed pore space, embedded. The subdivision of this mixture into the desired portion size of the individual parts of a load can be done either by portioning the not yet hardened raw material or by cutting up the hardened substance. The fog mass can be ignited either 1. by the hot flame gases of the discharge charge, 2. by special ignition charges ignited by the discharge charge or 3. by a separate charge from z. B. black powder or nitrocellulose powder. Burning off in water is also guaranteed for all of the compositions listed. The mist effect is caused by the potassium chloride (solid mist) formed during combustion, the sulfur dioxide or phosphorus pentoxide and, in the case of recipe 2, hydrogen chloride gas, which is hydrolyzed to hydrochloric acid mist with the humidity in the air.

Claims (2)

PATENT CLAIMS: 1. Floating and water-flammable smoke set based on potassium perchlorate with the addition of another fog-forming component, such as red phosphorus or sulfur, characterized in that the smoke set is made by embedding in a water-insoluble binder based on synthetic resin and by incorporating cavities or bodies is made water-insoluble and buoyant with a specific gravity of less than 1. 2. swimming and burning capable in water smoke kit according to claim 1, characterized in that incorporated in the smoke kit hollow body made of plastic, Contemplated publications: German Patent Publication Nos 140 476 and 378 780 600,760th.