DE1215611B - Device for sorting dolomite and limestone as well as hard burnt from soft burnt limestone - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

Number:
File number:
Registration date:
Display day:

B 03b

German class: 1 a - 31

1215 611
R34891VI a / la
April 6, 1963
May 5th 1966

Most of the dolomite deposits contain limestone inclusions, especially calcite. When processing the dolomite, for example into dolomite sinter for the refractory industry, there are impurities due to limestone or spar undesirable as they cause the. Magnesium content of the sinter Reduce. These limestone or calcite impurities are mostly either broken down separately, if they occur in larger veins, or by hand selection in the quarry or during removed after processing.

When burning limestone, especially if a soft-burned, high-quality lime is produced, in addition to quicklime in the discharge of the kilns, unburnt limestone as well as hard-burned limestone Calcium oxide pieces occur. For obtaining a uniformly reactive lime these parts must be removed.

The present invention therefore relates to an apparatus for sorting dolomite and limestone as well as hard-fired from soft-burned limestone using a reflection process under the previous one Separation of the pieces, through which the cumbersome and time-consuming selection of the undesired Shares can be mechanized.

Such mechanical readout methods and devices are known per se. The German patent specification 516130 recommends using a mixture to identify the minerals to be read instead Light to use other short-wave rays, possibly in combination. In the German Patent specification 958102 describes a combined measuring method that is used for the detection of ores the weight, the volume, the magnetic properties or others are taken into account. Finally describes the German patent specification 1146 462 a transmission method using Radio isotopes as a radiation source. With this device, the material to be discharged must first be cut into pieces be sorted as possible the same dimension and also pass a thick measuring device, there the absorption is known to be dependent on the thickness.

It has been shown that the intensity of the reflected radiation is not only dependent on the chemical composition and structure of the material to be measured, but very much depends on the shape of the surface and the grain size is influenced. Methods and devices that work according to the reflection method, can only produce imprecise results if shape and surface are not taken into account will. On the other hand, additional measurement

Device for sorting dolomite and
Limestone and hard burnt out
soft-burned limestone

Applicant:

Rheinische Kalksteinwerke G. m. B. H.,

Wülfrath (RhId.), Wilhelmstr. 77

Named as inventor:

Dipl.-Phys. Dr. Hans Dresia, Essen;

Dipl.-Ing. Dr. Peter Fischotter, Hamburg-Rissen; Rolf Lindemann, Bochum-Weitmar

ao solutions of properties further effort. The present invention has the disadvantages which adheres to the known devices and methods, avoided and largely independent of the piece size perfect detection of the goods to be read only due to the reflection enables.

Surprisingly, it has been found that at least one radiation source can be used as the measuring system 6 and reflectors 8 arranged in the manner of a wreath or umbrella above a conveyor 3 got to.

According to the invention, the arrangement of the detectors can be, for example, as shown in FIGS. 3 and 5 shown take place. The circular or ring-shaped arrangement, with the plane of the circle expediently parallel to the conveying level, it allows as well as the umbrella-like arrangement of the detectors according to according to FIG. 5, to determine the reflection of the pieces practically on all sides and to identify the pieces to be used, especially when several light sources are provided (FIG. 5). on this way, an error in the detection due to random positions of the pieces and due to eliminated by inhomogeneities. Of course, the circular or arc-like arrangements can be used of the detectors deviate from the circular shape and be elliptical or parabolic or similar Have shapes. In addition, the type of arrangement of several light sources of the type and Arrangement of the detectors differ.

Of course, it is possible to attach several measuring devices to wide conveyors.

609 567/89

genes that each measure a chain of the separated good pieces. For this purpose, it is useful to use the arched one Arrangement which is attached in the direction of the crop flow. It is not necessary, that the isolated pieces keep a greater distance from each other. Rather, you can be more direct Follow the measuring device.

The type of radiation used depends on the reflective properties of the material to be sorted Pieces. In addition to light rays of various wavelengths, you can also use infrared or Use short-wave radiation and, for example, microwaves. In addition, it is possible to use neutron sources to use and measure the scattered radiation. When using visible When separating dolomite stone and calcite, it is useful to moisten the material to be measured with light to obtain greater differences in intensity. To achieve a greater readout accuracy, it can It may be advantageous to use several types of radiation one after the other and to combine the measured values. ■ The separation of the test pieces can be done in in a known manner, for example by means of baffles or the like. The arrangement itself on the ground the measurement results are carried out mechanically or pneumatically by means known per se on the conveyor or at the dropping point. The discharge devices are controlled and regulated by means of control devices influenced on the basis of the measurement results.

FIGS. 1 to 5 are intended to illustrate the invention. In Fig. 1 and 2 shows how the intensity of the reflected radiation in dolomite and Calcite differs. The horizontal straight line 1 in the figure gives the measured variable for dolomite again, while the upper curves 2 relate to calcite.

In the cited F i g. 1 and 2, the lower horizontal straight line 1 shows the measured quantities for dolomite, while the upper curve 2 relates to calcite. The volume V is plotted in cm ³ on the abscissa, while a scale division on the ordinate is 1.4 · IO- ⁹ when the measurement is carried out with infrared light. The measurement curve of FIG. 1 was obtained with punctiform irradiation with a radiation source and a ring-shaped or circular arrangement of six detectors over the measured mineral. The measurement results of FIG. 2 were also obtained with a point radiation source, but with six detectors arranged in an arc.

3 shows a schematic representation of a measuring arrangement. That on a conveyor belt 3 transported material to be measured 4 is when passing through an arcuate measuring device S struck by the bundled beams 7 emanating from the source 6. The intensity of the in Radiation 9 scattered back from the material to be measured is measured in the direction of the detectors 8.

In Fig. 4 is a plan view and in Fig. 5 is a Section I-I of a bell-shaped radiation measuring device shown schematically. The material to be measured 4 is caused by rays that originate from several sources 6, met. The reflected radiation 9 is from several Detectors 8 measured.

Claims (3)

Patent claims: 1. Device for sorting dolomite and limestone as well as hard burnt from soft burnt limestone by means of a reflection process with prior separation of the pieces, characterized in that at least one radiation source is used as the measuring system and detectors (8) arranged in the manner of a wreath or umbrella are arranged above a conveyor (3) are. 2. Apparatus according to claim 1, characterized in that several radiation sources Are arranged like a wreath or umbrella. 3. Apparatus according to claim 1, characterized in that for sorting dolomite and calcite a radiation source for visible light and means for moistening the material to be measured are provided. Considered publications:
German Patent Nos. 516 130, 877 431;
German interpretative document No. 1146 462;
Austrian Patent No. 114 673;
French Patent No. 1215 118;
"Glückauf", 1956, H. 43/44, p. 1300. 1 sheet of drawings 609 567/89 4.66 © Bundesdruckerei Berlin