PL2070B1 - A method of producing particles of any shape and producing objects of any kind from these particles. - Google Patents

Description

For the production of artificial stones with larger or smaller voids inside, stones or badly in their naturally fragmented state were used as raw material, i.e. pieces of raw material of any size, or only larger pieces after sifting the raw material through a sieve or similar devices. In order to increase the strength of the finished object, larger pieces of the raw material were often coated with a reinforcing material, first with cement, and then processed with a suitable binder into ready-made stones or other objects. for the above purposes, instead of separated larger pieces of stone or slag, hitherto worthless small and tiniest, even completely fine particles of all kinds of material, transforming this raw material into particles in the form of grains, lumps and so on of any shape and the right size. For this purpose, particles and fines are mixed, raw materials of any origin, e.g. ash, thick ground fine and other artificial and natural waste, with any binder such as cement, lime, gypsum, glue, oil, resins, slurries, etc. This mixture is used to make grains in the right way, for example, by pressing or shaking. particles can be used or to fill empty cells in ready-made objects, for insulation purposes, for mortar, and thus also serve as a raw material for the production of objects, building materials, and so. The particles and objects made of them are more or less heavy and hard, depending on the raw materials from which they were made, of fine foamed nodular products, diatomaceous earth, fibers, trout, etc. are obtained, in combination with a suitable binder, in the form of lime, oil, resin, slurry and fd lighter particles, while the soil, ground stones, sand, in combination with the cement, form heavier particles. The size and shape of the particles also affect the size of the voids that form in the workpiece, and the weight itself, as well as its weight. Equal size of the particles leads to empty spaces in the workpiece, while relatively the largest amount of empty space is spherical particles. The above symptoms are sometimes very important and are one of the advantages of the new method. The most diverse materials can be used to produce the particles; the fines can be kneaded not only from any suitable material, but also from a mixture of these materials. In this way, it is possible to give the fines and workpieces any prescribed properties, e.g. greater hardness, elasticity, uneven tendency to rubbing, in order to maintain a permanently rough surface, a different color, and so it is sometimes very desirable to filling empty spaces in the processed object with certain materials, in order to, for example, create color patterns, or obtain greater continuity, muffle the voice, obtain greater indifference to temperature changes, greater air-tightness, etc., and in this respect, according to According to the invention, it is very advantageous, because already when producing particles, you can choose such materials that are best combined with the materials used to fill empty spaces. For the production of particles, according to the invention, you can use any inorganic and organic raw materials, which are suitable for such processing in warm or cold. The equipment for producing particles may be of any type, e.g. grooved working with each other at an angle, jets, percussion or rotating cutters, grinding knives, press tools with or without mouthpieces, presses in which the material coming out is ground by means of wires, knives, etc. A simple and very good tool for in the production of particles is a sieve which, in order to accelerate the product, oscillates or performs more rapid movements under the influence of vibrations or impacts. The mass or mixture of raw materials, falling periodically or constantly on the screen, emerges from the bottom of the holes in the form of particles in a shape depending on the weight itself and on the size and shape of the holes. A sufficiently soft mass emerges from the holes, usually in the form of drops or grains. The sieves for the production of fines can be braided from wire or made of perforated sheet metal, and their meshes can be of various shapes and sizes. Under the sieve, a transport device is placed, which at the same time can be used for additional shaping of fresh By using, for example, a swinging ramp, the grains sliding down the ramp give a more spherical shape. On the conveyor belt, which is moved by the impact in a vertical direction, the particles take a more flat shape. Spherical particles give the product the most empty spaces, - 2 - flattened particles give the object greater resistance to pressure due to the increased base of each particle. The particles in the form of grains or balls can also be kneaded on belts, slopes. and similar flat devices, the surface of which is rough. These devices are put into shafting, convulsive, whirling or also in a motion combined with several individual movements. The raw material introduced into such an apparatus, due to the rough surface, does not move but rotates or spins on it. As rough surfaces, it is possible to use screens, perforated sheets, fabrics, corrugated, granular surfaces, etc. It is also possible to proceed in such a way that after the formation of, for example, red-colored particles, a raw material, e.g. white, is fed to the device. Due to the continuous movement of the device, the red particles are covered with a white layer. If such particles are then processed into articles with the addition of a binder, for example blue, the surface of the article then becomes white-red-blue after appropriate treatment, for example by grinding. Of course, the particles can also be covered with several layers of different colors, as well as bronzed, and thus obtain objects with a very original and beautiful color. By adding a colored binder, the above objects are formed without empty spaces. However, it is possible to preserve the voids by making the object out of ordinary particles and only by covering the inside with a layer of colored particles, completely bonded with a weak binder. In this way, for example, light colored stones are obtained for construction purposes, which makes additional wall covering with colored tiles obsolete. Additional filling of pores or empty spaces with other mixtures can generally be used for all light stones, e.g. also for the so-known gabchak stone stones. Moreover, it is possible to give one or more of the outer faces of these stones some special properties, for example a different color. You can also fill the voids with clay or chamotte, if the stones are to be more refractory. To obtain larger particles, larger pieces of stone or stone waste should be selected and covered with a layer of small particles, produced in accordance with this method. ¬ mi, you can simultaneously give them a more circular shape, so that there were as many empty spaces as possible in the finished object. Again, colored mixtures can be used to cover the pieces. Using a variety of raw materials, particles of various sizes, shapes and strengths are formed. For this reason, it is often necessary to influence the formation of these particles by adding a suitable material in a dry or wet, sprayed or liquid state. If, for example, a mixture of ash and lime or sand and cement is too wet, you can sprinkle it with the same dry mixture. Particles of low strength can be strengthened by adding, for example, gypsum, cement, water glass, etc. hot air, steam or gases are also used. The particles or objects made of these particles may be subjected to heat or heat, sometimes even until the material is roasted or melted. Objects are porous, full of hollow cells, and very light if materials or additives are used which become gasified at higher temperatures, and the present process can also be used in metallurgy for smelting ores and other materials in general. which are further processed after certain preparation. The additives required for this further processing can also be used as a binder in the production of the particles. The figure shows the most important parts of the machine for the production of round, granular particles. Fig. 1 shows the machines in longitudinal section. The particles are formed on a corrugated, preferably wavy surface. The frame 2 is movably suspended on rods, chains or ropes J and moves along a more or less circular path under the influence of a crank 5. 2 shows a frame with a crimped surface / top view. The frame is suspended on the double hangers 3 in such a way that during the circular motion it hits the slope against the spring bumpers 4. Under the influence of these side impacts, the particles on the surface / move more towards the center. Fig. 3 is a cross-sectional view of the frame 2 suspended via the couplings 3 at one or two fixed points. The frame 2 performs in this system two movements: circular, under the influence of the crank 5, and pendulum, under the influence of the joints 3. Due to the vigorous fighting of the material particles on the surface 1, the production of the seedlings is accelerated. Surface 1 may also be bent, and frame 2 may be supported and either slide on the ground or roll on rolls. Surface 1 should be made of a permeable material, i.e. woven fabric, mesh, knitted fabric and hence, if the raw material is very wet or has to be processed in a very damp condition. The excess moisture or excess binder then passes through the openings of the U surface and can be collected and processed again.

Claims (11)

Patent claims. 1. A method of producing particles of any shape in the form of lumps, lumps, grains, spheres, etc., and of any size and color, characterized by the fact that fine waste of organic or inorganic materials or the mixture is mixed with a binder in a given time May with paint and particles. 2. The method according to claim 1, the significant rate of the particles being made, with or without the addition of a binder, porous, inside containing hollow cells, objects or shapes of any kind, such as bricks, boards, etc. 3. The method according to claim 2, characterized by the fact that the empty cells are additionally filled with another mass or other organic or inorganic material, or a mixture of these. 4. The method according to claim 1, characterized by the fact that in order to obtain particles without sharp edges with a possibly rounded shape, especially also larger particles, coarse-grained and larger pieces of raw material are covered with a mixture or mixtures of fine materials. 5. The method according to claim 2, characterized in that porous objects containing hollow cells inside, in the form of light stones, are covered during their manufacture or later on one or more sides with a layer formed by particles, according to the reservation 1. 6. The method according to claim 1, which means that additional dry, moist or liquid materials are added to the particles during their production or after production, and optionally treated with hot air, steam or gases, In order to accelerate their formation or loosen them, due to imparting certain properties (hardness, stickiness, etc.) to further processing. 7. A method according to claims 1 and 2, characterized by the fact that the particles produced with or without a binder, and objects made of these particles, are subjected to the action of heat, sometimes until complete or partially sintering or melting. 8. The method according to claim 1, characterized by the fact that the particles are made by passing the raw material mass through sieves. 9. A method for forming or further shaping the particles according to claims 1 and 4, characterized by the use of suitable inclines and surfaces on which the particles roll. 10. A method according to claim 1, characterized in that the surfaces are not smooth but notched, scored or the like. 11. Method according to claims 1 and 9, characterized by the fact that the surface or inclination on which the shapes are formed is set in motion, consisting of several separate movements, e.g. In the long direction, with the surface still shaken if it hits against the buffers located on the sides. A 1 oy s Frie d. Deputy: Vol. Raczynski, patent attorney. After the patent description No. 2070. Z ^ j J: k.-Wk ^ -ww-w \\\\\ w '¦mM ^ mm - ^ -' ^^ -JFicf. £. L) ^ Fz7.J, Print by L. Boguslawski, Warsaw. PL