CS197147B1 - Meter of the fineness of the loose materials - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a fineness meter for bulk materials comprising a bulk flow stabilizer, a coarse fraction separator, and a coarse bulk flow meter.

For the known fineness measurements of bulk materials, a device is used in which the pneumatic resistance of a refined column of bulk materials, such as the Blaine system, is measured. In another known apparatus, automated screening is used; in another known apparatus, the two components are weighed after separation of the coarse and fine fracoes; this method is used, for example, in the Alpine system, which is a laboratory system requiring human operation. Automated sieve analyzes are too maintenance-intensive in operation, do not work continuously and evaluation of its results can be obtained after a long time. The Blaine system is not suitable for multi-constituent bulk materials, such as cellular concrete, as it registers mostly the finest component of the bulk material to be evaluated due to its principle.

These drawbacks do not have the bulk density meter according to the invention, which is characterized in that the bulk material stabilizer feed condenser is connected to an adjustable amplitude vibrator and provided at one end with a bulk material inlet located at the outlet of the electromagnetic vibratory feeder connected to the bulk container. The electrodes of the metering capacitor are coupled to the metering capacitance transducer having an output coupled through the first controller and the elec197.

197 147 a vibrating feeder, wherein the metering capacitor is provided with a bulk material outlet at the other end, opening into a separator which is the first part of the coarse fraction separator and connected to a separator equipped with a fine fraction outlet connected to the suction and coarse fraction a coarse fraction input connected to a coarse fraction flow meter, the coarse fraction inlet opening into one end of the evaluation capacitor provided at the other end with a coarse fraction output coupled to a controlled amplitude vibrator, wherein the capacitor evaluation electrodes are coupled to the evaluation capacitor capacity converter having an input connected via a second controller to a meter and an amplitude control vibrator input.

The fineness meter of the bulk materials according to the invention thus measures the fineness continuously, the fracoes do not have to be weighed, they are aware of the practice Only the coarsest components in the bulk material components do not need much maintenance, the mechanics are simple and reliable. high adhesion to metal.

The invention will be further explained by way of example of a specific embodiment of the fineness meter and by means of a drawing in which the fineness meter of bulk materials is schematically illustrated.

The bulk material fineness meter consists of a bulk material flow stabilizer, a coarse fraction separation device and a coarse fraction flow meter.

The bulk material stabilizer is formed by an inflow of 2 bulk materials from the bulk material container 1, which are fed via an electromagnetic vibration feeder 6 to the bulk material input capacitor 19 of the metering capacitor 21 of its electrode connected to the metering capacitor converter 4. 6. The bulk material separator enters the bulk material via the bulk material outlet 20 from the metering capacitor 2 ' via the separator 8 to the separator 2. Its fine fraction outlet 11 leads to a suction 17. The coarse fraction hole 10 of this the separator 2 opens into the inlet 2) of the coarse fraco, which forms the inlet part of the coarse fraco flow meter. The meter further comprises an evaluation capacitor 12, which is connected by its electrodes to the capacitor change converter 18, the output of which is connected via a second regulator 15 to the meter 12 and to the vibrator 14 of controlled amplitude. The coarse fraction is discharged from the evaluation capacitor 12 through the outlet of the coarse fraction.

In a capacitor metering capacitor 20, the amount of loose masses was determined by the capacitor change capacitor 4. Through the first regulator 2, it controls the bulk material inflow 2 by varying the vibrations of the electromagnetic vibratory feeder 6 so that the amount of bulk materials in the metering capacitor 2 is constant.

The size of the stabilized bulk flow is adjustable by the size of the vibrator in the 2 ° adjustable amplitude. The solids flow thus stabilized enters the separator 8, in which the solids are suspended and the coarse fraction is separated from the separator drum. The fine fraction is discharged with air stream into suction 17, and the coarse fraction falls through the orifice 10 in the separator 6 to the coarse fraction mass flow meter through the coarse fraction inlet. This consists of an evaluation capacitor 12 in which it is measured

197 147 the amount of crude product by the capacitor change capacitor 18 and the second regulator 15 controls a controlled amplitude vibrator 14 so that the vibration change capacitor vibration maintains a constant amount of coarse fraction in the capacitors. The evaluation capacitor 12 is coupled to a controlled amplitude 1a vibrator. Then, the current to the controlled amplitude vibrator 14 is an image of the amount of coarse fraction in the evaluation capacitor 12 and, at a stabilized flow of bulk material 2, actually a reflection of the resulting fineness of the measured bulk material.

The bulk meter of the present invention can be used to determine the fineness of a non-conductive bulk material having a relatively constant porosity whose variation does not affect the desired measurement accuracy.

Claims (1)

Loose fineness meter, consisting of a bulk flow stabilizer, a coarse fraction separator and a bulk flow meter, characterized in that the dosing capacitor (3) of the bulk flow stabilizer is connected to an adjustable amplitude vibrator (7). and provided at one end with a bulk material inlet (19) located at the outlet of the electromagnetic vibratory feeder (6) connected to the bulk container (1) with the bulk material inlet (2), the electrodes of the dosing capacitors (3) being connected to the converter 4) changing the capacity of the dosing capacitors having an output connected via a first regulator (5) to an electromagnetic vibration feeder (6), wherein the dosing capacitor (3) is provided on the second stage with a bulk material outlet (20) flowing into the separator (8); is the first part of the coarse fraction separator and is connected to the separator (9), provided with a fine fracoe outlet (11) associated with a suction (17) and a coarse fraco aperture (10) connected to a coarse fraco inlet (21) with a coarse fraction flow meter, the coarse fraco inlet (21) to one end of the evaluation capacitor (12) provided at the other end with a coarse fraction output (16) connected to a controlled amplitude vibrator (1a), wherein the electrodes of the evaluation capacitors (12) are coupled to the capacity change capacitor (12). ) having an output coupled via a second regulator (15) to a meter (13) and to a controlled amplitude input of a vibrator (14).