DE829515C - Device for dividing and reducing pulverulent material samples - Google Patents

Description

Device for dividing and reducing powdery material samples For powdery substances, e.g. P. with fertilizers. There is usually a considerable amount Workload if from larger amounts of material, e.g. 13. From wagon loads, a the analysis sample correctly reproducing the average composition must become. For this purpose, one wagon that is too ultra-searching becomes numerous Large quantities of material are removed from places and carefully mixed together. To Repeated partial and mixed processes ultimately result in the so-called.

Wagon sample, which usually has a weight of 10 to 12 kg. To the For the purpose of chemical analysis, this amount must be strictly adhered to Their total composition has been reduced to a narrow range of approximately 100 g which is used for analysis or to be kept as a control sample. To such Patterns that exactly match the average composition of the entire wagon load To obtain, time-consuming mixing and partial operations are again required, whereby one is largely dependent on the careful work of the staff.

In order to simplify these material dividing processes, according to the invention a funnel-shaped container used, which at its lower end a conical Closure piece sits and below it merges into a round container that passes through a star-shaped insert is broken down into several identical individual chambers and is closed by a base plate, which for each part chamber has a hole provided with a drainage pipe through which the material after opening the Funnel closure can drain into individual containers below.

In the drawing is an embodiment of the invention Part device shown.

Fig. 1 shows an external view of the part device; Fig. 2 illustrates a plan view of the partial chamber perforated plate and FIG. 3 a plan view of the star-shaped Distribution piece.

It is 1 a cylindrical container (l: ig. 1), which at its upper Edge has a funnel-shaped extension 2. The lower end of the cylindrical Container 1 merges into a conical extension piece 3. Here are more suitable Wise feet 4 attached on which the apparatus rests.

Within the cylinder space 1 there is a transverse web 5. Another Crossbar () is attached to rods 7 above the hopper 2. The bridges 5 and 6 each have a guide sleeve 8, in which with the help of one on the funnel edge 2 rotary> ar mounted lever g a rod 10 can be pushed up and down. km lower end of this rod 10 is a cone 11 attached with the help of the lower opening of the funnel space 3 al> -can be closed. t within the Funnel space 3 is attached to a round container 12 which is closed off by a plate 13 will. A star-shaped distribution piece 14 is inserted into the round container 12 (Fig. 3), which this space in several, for example, in eight of the same Chambers 15 divided. The plate 13 has a slot-shaped one for each sub-chamber Opening 16 (Fig. 2). Below the plate 13 is for each opening i (> a drain pipe 17 attached. These drainage pipes 17 are bent obliquely outwards, so that A corresponding number of individual sample vessels 18 are placed under its lower end can verden.

The dividing apparatus according to the invention is handled as follows: The sample of the powdery substance to be subdivided into smaller individual quantities, z. B. a Waggoa sample of calcium ammonium nitrate weighing 10 to 12 kg, is from poured into the cylindrical container 1 above, after previously through Lowering of the lever 9 of the closure cone Ii on the lower opening of the funnel space 3 is in place. After filling in the material sample to be divided, the lever 9 guided upwards. here the cone 11 rises from its lower seat, whereupon the fabric pattern over the edge of the cone into the cylinder-shaped one below Room 12 expires. It is distributed evenly over the individual chambers and runs through the slot-shaped openings 16 through the intermediary of the tubes 17 into the individual containers 18 below. For further preparation of the for the average pattern determined by the analysis becomes the contents of one of the containers 18 used. The contents of the remaining containers 18 can be returned to the wagon load will.

To further reduce the number of samples, the content of one of the Containers 18 are gelled again by a part device according to the invention. whereby these are measured correspondingly smaller.

The pattern dividing apparatus according to the invention is for all powdery Substances suitable that have sufficient fluidity. z. 13. for nitrogen fertilizers, Potash salts. Phosphorus fertilizers, lime powder, catalysts. Cereal grains and others Types of seeds, etc.

The contents of the individual sub-containers t8 differ only slightly on the average composition of the given initial sample.

In the case of calcium ammonium nitrate, for example, the difference was found in the nitrogen content of the individual, with the help of the dividing apparatus according to the invention received partial quantities to + o, o6 to 0.16% N.

This result is extremely favorable when it is noted that the partial unit is of simple construction and works without mechanical mixing devices.

P A T E N T A S P R Ü C H E: 1. Device for division and reduction of powdery material samples in compliance with their average composition, characterized in that eiii with a conical locking device (10, lt) provided funnel (1) at its lower end into a cylindrical container (12) passes over, which by a star-shaped insert (14) in the same individual spaces (15) and is closed off by a base plate (13) for each sub-chamber (1) has a hole (16) provided with a drain pipe (17) through which the Nimaterial after opening the funnel closure (X I) into individual containers (I8) below can expire.

2. Device according to claim i. characterized in that the Openings (16) of the base plate (13) are slit-shaped and uniformly uni the center of the base plate (I3) are arranged.

Claims (1)

3. Device according to. \ Nsl) odor 1 and 2, characterized in that that the funnel closure consists of a cone (1 1) and at the end of a lifting and lowerable rod (IO) sits, which is guided in two cross rods (5, 6) and can be operated by a lever (9).