DE268076C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The filling and weighing of powdery materials is carried out using the most diverse facilities, which mostly consist of a funnel-shaped material container exist, the lower outlet opening is closed by a slide or the like, as soon as the desired amount of material has flowed out. These with permanent tiltable Have measuring containers or with interchangeable consumption containers working facilities the disadvantage that the interruption of the outflow when closing the opening by a slide or the like. Loss of time occur, and that every time the discharge begins again, the material is too violent , flows into the measuring or filling container. This not only helps to find fine material larger dust turbulence takes place, but the weighing device also gets heavily involved Fluctuations, which can result in inaccuracies in weighing. One has already made the suggestion to omit the closing slide and the material to run out freely to let, however, one could determine with different powdery materials, that very soon the outflow stopped because the outlet opening was caused by the sagging of the Material. Had sat down. This disadvantage could also be avoided by using a conventional stirrer or a, screw conveyor cannot be remedied as these bodies are compressing of the material and therefore even more impossible to flow out did. The swivel taps commonly used when filling liquids, through which the liquid is uninterrupted flowed out and was diverted alternately to one or the other container, could for powdery materials are not used because the fine material between the The joint surfaces penetrated and thereby prevented the swivel taps from moving too quickly or caused a leak in the device.

The invention aims at a filling and weighing machine for powdery materials to create, which as precisely as possible measured quantities continuously in consumption, measuring or Filling weighing container. This purpose is achieved in that the material container with two or more different sized, constantly open outlets is provided, in which on known, up and down moving vibrators protrude, and that in connection hereby movable guide devices in a number corresponding to the outlets are arranged, which the material alternately after two tiltable measuring or weighing containers or direct directly to consumption containers on two weighing devices. Latter are connected to the guide devices in such a way that these η successively through the weighing device be redirected. With suitable dimensions of the outlets, after a material container is almost completely filled is, and after the main stream after one

Claims (1)

has been transferred to another container, allow very small amounts of material to run the filled mass with an extraordinary fineness to the desired weight brings. In the drawing, an embodiment is shown schematically, namely shows Fig. Ι the machine in a vertical section seen in front, while Fig. 2 shows the device represents in section at right angles to FIG. According to the embodiment shown, the material container α, which tapers in the shape of a funnel at the bottom, is provided with two outlet nozzles b, c. The nozzle c has a smaller diameter than the nozzle b. A rod d is arranged on the material container α , which is equipped with laterally protruding pins or wires e , and which carries a web f at the lower end, which is provided with thin rods g . These rods g protrude into the outlet nozzles b, c and are also equipped with laterally protruding pins or wires. Movable guide devices h, i are arranged below the constantly open outlet nozzles b, c , and roof-like sliding surfaces k are provided below these, which can be accommodated within an open housing / and lead to two consumption containers m, η . These consumption containers are placed on the trays of two weighing devices 0 . The movable guiding devices h, i can consist of funnel-like truncated pyramidal containers, each of which has its own oscillation axis ft, q , with the help of which each guiding device can be rotated so that the outflowing material alternately towards one or the other inclined surface of the roof-shaped Slideway k is guided. The vibration of the axes ft, q is derived from the position of the balance beam of the weighing devices 0, in such a way "that the vibration of the larger container -h always the smaller container that i is advanced. Ft The compound of the axes q with the balance beam can be brought about in various ways. one two electrical contacts could be, for. example, each of the two beams with. r provided, one of which is interrupted earlier during lowering of the consumption container bearing shell than the second. These contacts r could with magnets which, with the aid of suitable mechanical devices , enable the above-mentioned oscillating movements of the axes ft, q . The rod d in the material container α is connected to a power source which constantly causes the rod d to move vertically up and down. After two consumption containers m, η have been placed on the two shells, the machine is put into operation, whereby the rod d constantly moves up and down vertically. As a result, by virtue of the wires or pins e , the material filled into the material container is constantly shaken, and as a result the same will flow out in an uninterrupted, even stream to the nozzle-δ, c. When the guide devices h, i assume the position according to FIG. 1, the material arrives in two streams after the consumption container n. As soon as such an amount of material has entered this that almost the desired weight has been reached, the balance beam will gradually move lower, and this first of all interrupts one contact r. This has the immediate consequence that the axis q of the guide device h is swung so that the latter now transfers the material to the second consumption container m . The material now flows into the first consumption container η only through the narrower guide device i in a fine stream, with the container η constantly lowering. As soon as the amount of weight caused by the setting of the scales has flowed into the container η , the second contact r is also interrupted, and this causes the second guide device i to be reversed. The material then flows out of the two outlets of the container α into the second consumption container m. The guiding devices are then reversed in the above-mentioned manner, so that the material is then transferred to another container which, instead of the filled container η in which has been set in the meantime. If you attach three or more outlet nozzles to the material container, must Of course, a corresponding number of guide devices are also provided, which then all are to be reversed one after the other in the manner described above and the finest conceivable amount of weight guarantee. In the drawing, for the sake of simplicity, the apparatus is as described above carried out that the consumption containers are on the · weighing devices, thus also weighed will. Since here, due to inequalities in the weight of the consumption containers, the net weight the filling could be of different sizes, it will be preferable to weigh the sample to drop onto weighing scales, which are set up for tipping and after weighing In a known manner, automatically empty the now precisely weighed amount through a funnel into the consumption container by tipping over. Godfather ν τ claim: Automatic device for weighing and filling powdery materials with the most accurate possible measurement of the goods to be weighed, characterized in that the two or more 'permanently open outlets attached to the bottom of the material hopper of different sized cross-section flowing out material, which by provided in the outlets up and down moving vibrators is kept in uninterrupted flow, alternately by means of movable guiding devices, two carriages are fed which reverse the guiding devices one after the other. For this purpose ι sheet of drawings.