PL3752B1 - The method of producing disinfectants. - Google Patents

Description

The present invention relates to a method of producing disinfectants for the destruction of pathogenic germs or the suppression of vermin. Agents of this type have thus far been produced from sulfur, which produces sulfur dioxide during combustion. For the effective action of the gas, however, it is necessary for the gas to be released as quickly as possible, so that when this disinfectant is used for the elimination of worms, it cannot be hidden in deep hiding places. Further, with the rapid production of gas, it can go anywhere in a warm state, while the gases formed by the slow combustion of sulfur cool relatively quickly and, because they are heavier than air, do not rise high enough and do not fully perform their action. The method of the present invention removes this disadvantage in that it produces a disinfectant that contains, apart from sulfur, other additives, which, when the disinfectant is burned, allow the rapid production of sulfur dioxide for the complete eradication of vermin together with for this purpose, a mixture of paraform, potassium nitrate, potassium permanganate, resin, coal is added to the sulfur; When the sulfur is heated to a liquid state, the mixed substances, e.g. 80% of the washed out sulfur, 10% paraform, 5% potassium nitrate and 5% charcoal, are also brought to a liquid state, moving mixed and and zlaine into forms. These farms can be of any shape, such as tiles, cubes, cones, bars, etc., and are either cast or extruded. When using plate-shaped molds, the disinfectant is granulated and the individual pieces are stacked on top of each other on the edge of the refractory sheet to allow ample access of air during combustion to accelerate combustion and release gases. Other forms use special coatings and ignitions, which increase the flammability. The figure shows various types of coatings and ignitions. 1 shows a disinfectant, and in a longitudinal cross-section, provided with a coating of wood, wood shavings, cardboard, paper, wood pulp, sheet metal (possibly punched), fiber materials or cellulose, with this coating connected to constantly with the disinfectant in such a way that the mass that forms it is poured or pressed in. The coating 6 can also be adhered to the dfc of the material. This coating serves as a packaging for shipment, while when used as a material to accelerate combustion, which, when ignited, creates a fire surrounding the material on all sides. This coating facilitates the shipment without damaging the material, and further prevents direct contact of the hands with the mixture, which is important for hygienic reasons. Fig. 2 shows substances from a disinfectant material that is ignited by a cord wound on a spiral on its surface; this pattern may also cover the surface of the cross or it may form one or more embossing stripes. Various means can be used as a material for the rope, e.g. threads of fibrous material or wire with a tinder donut, and finally sulfurized cords. This ignition causes ignition, like the coating in Fig. 1, to a large fire and this accelerates the combustion. 3 is a perspective view of the disinfectant a, combined with the crop d, consisting of two sulfur-dipped threads or cords, placed crosswise and held by the aid of the substances and a ring of wire. In this way a cap is formed, which when used is slipped over the substance. The cap may, naturally, be of any other shape and consist only of fibrous materials. The cap may also be formed of a thin, slip-on material. on the front surface, the steel plate on which the fuse and the sulfur wick are properly placed so that when ignited, the flame will evenly cover the front and side surfaces of the substance a. According to Fig. 4, the substance a may be provided on the front surface with a base that is filled with maiterial, which sustains burning, like wax or the like. Depending on the particular conditions, the ignition of a substance can only be used with the ignition, i.e. without supplying the ankle with a cavity filled with material that supports the burning, or the ignition can be canceled, but only the latter device can be used. equal to it located only on the front surface of the combustion substance. In this case, it can be adhered to the substance or attached to it in some other suitable way. Fig. 5 shows the substances in combination with an ignition consisting of one or more g wicks, placed on the edge or freely permeable substances on the surface. or to a certain depth, where they can be made of any material, eg sulfur or the like. Such a device also accelerates combustion. All the working examples presented are intended to prevent burns from burning in one place and cause the flame to spread over the entire surface of the substance immediately after ignition. Disinfectants made according to the method given by the present invention. , they make it possible to carry out disinfection by a layman, which was impossible so far, in the face of the poisonous properties of the disinfectants used, and there is a risk of fire. PL

Claims (3)

Patent claims. 1. A method of producing disinfectants using sulfur, characterized by adding a mixture of paraform, potassium nitrate, charcoal, potassium permanganate, resin or materials of similar properties to the sulfur, and the entire mixture is then poured into forms of any shape or compressed 4 provide ignition in order to accelerate the combustion process, which, when the material is ignited, has the effect of extending the flame to the entire cross-section of the substance. 2. The method of producing disinfectants according to claim 1, A material as claimed in claim 1, characterized in that the substance (a) is surrounded by a coating fb) consisting of wood, wood shavings, cardboard, paper, wood pulp, sheet metal, fibrous material or cellulose which, in addition to its proper purpose, that is, to cause, as a combustible material, a rapid formation of gases, at the same time serves as a packaging (FIG. 1). 3. The method of producing disinfectants according to claim 1, 1, characterized by the fact that in order to obtain as large a surface as possible, covered by the flame and for a particularly rapid release of disinfectant gases, a fuse (c) is provided, which is wound around the perimeter of the substance and may consist of any material (% 2). 4. Sipoisób for the manufacture of disinfectants according to claim The method of claim 1, characterized in that the ignition consists of a cap (d) attached to the substance (a), consisting of a fuse, a wick, and a sulfur either alone or in combination with a wire or sheet (% 3). 5. * 5. The method of producing disinfectants according to claim 5. 4. A method according to claim 1, characterized in that the substance (a) has a recess (s) on the front surface or some other suitable location, filled with a fire-supporting material, such as wax or the like (Fig. 4). 6. The method of producing disinfectants according to the regulations. The method of claim 1, characterized in that the ignition can also be placed arbitrarily on the flammable surface of the disinfectant and glued or attached in some other suitable manner. 7. The method of producing disinfectants according to claim 1 1, characterized by the fact that the ignition consists of one or more wicks (g), located on the face of the slope ankle or at any other place, and penetrating the ankle across or to a certain depth (Fig. 5) . Johannes Hahnel. Deputy: M. Brokman, patent attorney. To the patent description No. 3752. fipf <* -! * f. f / p. 3. Print by L. Boguslawski, Warsaw. .'BIFi PL