DE2143817A1 - PROCEDURE FOR THE CLASSIFICATION OF SCHUETTGUETERN ACCORDING TO GRAIN SIZE TO SMALL GRAIN FRACTION AND COMMERCIAL GOODS - Google Patents

Description

Description of the patent application relating to methods of classification from bulk goods according to grain size to small-grain fraction and commercial goods.

The invention relates to the technology for producing Bulk goods, in particular to methods for the classification of bulk goods Grain size on small-grain fraction and commercial goods, for example, during manufacture of mineral fertilizers.

Methods for the classification of bulk goods are known Grain-sized to fine-grained fraction and commercial goods by blowing out the small-grained Fraction by means of a powder liquefying agent or vortex fluid, hereinafter briefly referred to as fluid, the consumption of which depends on the ratio of the actual to the given Consumption is regulated (for example, USA patent No.

3102092, class 209.14u, 1963).

However, in the known method, it is guaranteed to be constant the fluid consumption at the given level does not affect the stability of the speed this fluid in the classification zone due to partial plugging of the holes of the lattice of the fluidized bed and uneven distribution of the flow of the fluid over the cross-section of the hpparates (classifier) as a result of the change in the porosity of the Layer, uneven turbulence (bubble formation, channel formation) and so on.

In addition, the stabilization is only the speed of the fluid in the classification zone is not a sufficient condition to reach the specified percentage to ensure the small-grain fraction in the commercial product, as the maximum size of the particles that are carried away with the fluid flow, except for the velocity the same in the classification zone, from the specific weight, the forehead resistance constant of the particles, and the blow-out time - the time the particles stay in the Apparatus - determined wL.rd The degree of inflation of the small-grain fraction depends on their content of bulk material to be classified, which in practice is essential deviate from its mean value canoe1 At the same time becomes ordinary to meet the requirements of the maximum permitted percentage the small-grain fraction in the commodity the fluid consumption on a certain Kept a level that is consciously allowed to exceed the minimum necessary value, which leads to unnecessary Bluid consumption.

The aim of the invention is to create a classification method from bulk goods to small-grain fractions and commercial goods that are free from the listed Disadvantages is.

The invention is based on the object of the classification method for bulk goods to small-grain fraction and goods to be changed in such a way that the stability of the percentage of the small-grain fraction in the commodity at minimal possible fluid consumption is guaranteed.

This object is achieved in that in the classification method from bulk goods according to grain size to small-grain fraction and commercial goods Commercial goods are sieved according to the classification into small-grain and commodity fractions, the percentage of the small-grain fraction in the commodity is determined, then the found percentage is compared with its default value, and that when it occurs a deviation of the found percentage of the small-grain fraction from the specified Percentage of the predetermined fluid consumption in the direction of reducing specified deviation is changed.

In the following, the invention is based on a specific exemplary embodiment and the accompanying drawing explains on which a classifier according to the invention for bulk goods on small-grain fractions and commercial goods with the control loops schematically is shown.

The proposed method is based on the classification of granulated fertilizers explained.

The device for carrying out the present method consists from a pipeline 1 through which the bulk material enters a classifier 2 of the fluidized bed (granulated fertilizer) is specified, for example after separating the large-grain Fraction (granules with a diameter greater than 4 mm), and a grid 3 for the fluidized bed, through which from another pipe 4 through a chamber 5 the fluid (air) enters the classifier 2.

In the pipeline 4 there is a transmitter for measuring the consumption of the air 6 (for example a disc diaphragm), and to regulate the consumption of inft a rotary valve 7 is arranged.

The slide 7 is controlled by a controller 8 with a setpoint adjuster 9 controlled for fluid consumption. The small-grain fraction (granules, the diameter of which less than 1 mm) is the fluid flow to the outside through the open upper part of the classifier carried, the trade well gets into a pipe 10, which in the the lower part of the classifier 2 is attached, and then on a seven-sieve vibrator 11.

To regulate the unloading of the goods from the classifier 2 is in the pipeline 10 a control member 12 (for example a rotary valve or a double focal plane shutter) arranged, which is controlled by the controller 13, which is connected to a setpoint adjuster 14 and a differential pressure meter 15, which in turn is connected to two transmitters 16 (pressure gauges), the pressure measure the air under the grille 3 and above the fluidized bed; the pressure gradient the transmitter 16, which is measured by the differential pressure meter 15, is practically equivalent the weight of the layer of substance in the classifier 2.

Under the vibrator 11, which is used to sieve out the commercial goods on small-grained and goods fraction is determined, there are two scales 17 and 18 (for example belt scales) arranged, which are used to output signals proportional to the weight of the cited fractions are. The goods are transported behind the scales 17 and 18 in the subsequent processing stages, for example for cooling and air conditioning, which is indicated by the arrow A in the drawing. The signals from the outputs the scales 17 and 18 reach a summator 19, the output of which is sent to a divider 20 is connected. In addition, a signal comes directly from the output of the scale 17 to the other input of the divider 20.

The divider 20 is connected with its output to one of the inputs of the comparison unit connected, on whose second input a signal from the setpoint adjuster of the percent set of small-grain fraction in the commodity. The exit a comparison unit 21 is connected to the input of the setpoint adjuster 9 for the Fluid connected.

The facility works as follows. When changing the fraction content of the trade good that arrives at the vibrator 11, the signals change the outputs of the scales 17 and 18 and correspondingly at the output of the divider 20, which determines the percentage of the small-grain fraction in the commodity. When the signal at the output of the divider 20 not the signal from the setpoint adjuster 22 of the predetermined Percentage of the small-grain fraction in the commodity is the same, it arises on Output of the comparison unit 21 is a deviation signal, which the consumption specification of the fluid to the controller 8 via the soltwerteinsteller 9 changes.

A deviation signal also appears at the output of controller 8, which causes the change in position of the rotary valve 7, which regulates the fluid consumption. The change in fluid consumption takes place in the direction of reducing the deviation the actual percentage of the small grain fraction in the domestic good from face value and ends when the deviation is equal to zero.

The controller 13 compares the actual value of the pressure difference on the fluidized bed with the nominal value. If these values do not match, it is generated he a control signal which reaches the control element 12 and its adjustment until the stated values match To the advantages of the invention one can use a pulse of the main parameter for the Quality of the work of the classifier (percentage of the small-grain fraction in the commodity) count, whereby any changes in the content of the small-grained Fraction in the product before the classification of the density of the particles of the material, the flow resistance of the grid, the porosity of the fluidized bed and the like more can be compensated, this compensation by changing the Fluid consumption is effected, the value of which is constantly equal to the value of the given Working conditions of the apparatus actually necessary consumption-is kept.

This includes an increased consumption of energy for blowing out Reduction of the content of the small-grain fraction in the product prior to classification and at the same time ensures that the percentage of small grains is kept constant Fraction in the Kandelsgut not higher than the maximum permitted, even at substantial increase in the content of the small fraction in the product before Classification.

Claims (1)

Claim: Method for the classification of bulk materials according to grain size small-grain fraction and commercial goods by blowing out the small-grain fraction by means of a fluid, the consumption of which depends on the ratio of the actual Consumption is regulated to the specified consumption, which is not possible notices that the commodities are sieved into small-grain and commodity fractions that the percentage of the small-grain fraction in the commodity is determined, that then the percentage found is compared with its default value, and that when there is a discrepancy in the percentage of small grains found Fraction in proportion to the specified percentage of the specified consumption of the fluid is changed in the direction of reducing the stated deviation.