UA59194C2 - Device for screening of materials - Google Patents

Abstract

The invention relates to the devices for separation of materials into fractions, and may be used in metallurgical, mining and chemical industries. The screening device includes a frame, bar screens, avibrator, a loading device and pipes for withdrawal of separated fractions. The frame is made of two inclined springs, which abut by the sides against the shock-absorbers and have a device for fixed change of angle of inclination of springs toward horizontal plane, and on the springs the vibrator and several bar screens are fixed located in cascade and in series under loading devices, said bar screens are made in the form of flexible cylindrical bars, their loading ends are cantilevered on the transverse rod with permanent clearance and may be excited by vibration and oscillate in vertical plane. Moreover, the upper bar screen is displaced in the length relative to the lower bar screen for the length of grate-bars, and in the width the grate-bars of upper screen are displaced with respect to the lower screen for a half-pitch. The invention allows increasing the quality and output of screening of humid fine materials.

Description

Description of the invention

The invention relates to devices for screening materials, intended for separating materials into 2 fractions, and can be used in the metallurgical, mining, and chemical industries.

The well-known sieve I (ЗО1570791А1, МПК 580781/00, 15.06.90, Bul. Mo22), which includes several inclined grates installed in series under the loading device, the loaded ends of which are fixed on rectilinear slats.

The disadvantage of the known design is the insufficient screening quality and productivity, as well as the reliability of 70 equipment when screening wet finely fractionated materials with a predominant amount of sub-grating fractions.

When grating materials with the listed properties, due to the lack of vibration of the grates, their self-cleaning deteriorates, which leads to a deterioration in the quality and reliability of the device.

The closest technical solution chosen as a prototype is a sieve (ZO 344901, IPC вО781/40, 11.01.1979, Bull Mo22), which includes a frame, cascade-mounted grate sieves, a vibrator, a loading 12 device and nozzles for the output of distributed fractions. In the known device, the grate sieves are cantilevered on hinges and connected to the vibrator by means of a lever and a rod.

The disadvantage of the known design is the insufficient quality and performance of sifting wet fine fraction materials due to the fact that in the design of the screen the insufficient efficiency of transmitting forced vibrations to the hinged frame, and the possibility of undulating vibration of the grate sieves along the length of the frame, in addition, the lack of uniform vibrations of the grates along the length leads to deterioration of the self-cleaning of grates from sticking of fine-grained materials and deterioration of the quality, productivity and reliability of the screen. Also, the design of the screen does not provide for the regulation of screening performance of materials with different amounts of screened fractions.

The invention is based on the task of improving the known device to create a new device for sieving materials, which has an increased quality of sieving wet fine-fraction materials, increased productivity of the sieving process and increased manufacturability of the structure during manufacture and repair.

A device for screening materials, which includes a frame that is made of two inclined springs, which are supported from the edges on shock absorbers, and have a device for fixedly changing the angle of inclination to the horizontal plane, and on the springs a vibrator is fixed along the length and several cascaded and sequentially Fd ) located under the loading device of grate sieves, which are flexible cylindrical rods, the loading ends of which are cantilever fixed on a transverse rail with a constant gap, and which have the ability to vibrate and oscillate in the vertical plane, while the upper grate sieve is displaced along its length relative to the lower one the length of the grates, and in terms of width, the grates of the upper sieve are shifted relative to the grates of the lower one by half a step. at

A comparison of the claimed device with the prototype shows that the new design of the device frame consists of two inclined springs, which are supported from the edges on shock absorbers, and have a device for fixedly changing the angle of inclination to the horizontal plane, and on the springs a vibrator and several cascaded and " grate sieves located in series under the loading device. With this constructive Z 50 solution, the quality and productivity of sifting wet fine-fraction materials increases due to more effective transmission of forced vibrations to the grate sieves, and the ability to oscillate like a wave with the grate sieves along their length and create uniform vibrations of the grates with an optimal frequency and amplitude. When using the device for a fixed change of the angle of inclination of the springs coaxially with the grating sieves, a reliable adjustment of the screening performance of materials with different amounts of grating fractions is carried out. i-th Thanks to the fact that the grate sieves, which are flexible cylindrical rods, the loading ends of which are (se) cantilever fixed on a transverse rail with a constant gap, and which have the ability to vibrate and oscillate in the vertical plane, ensure a more stable quality and reliability of wet screening - fine-fraction materials due to more effective self-cleaning of grates from sticking

Te) 20 small-fraction materials.

Displacement of the upper grating sieve relative to the lower one along the length of the gratings, and displacement of the gratings

T" of the upper sieve relative to the grates of the lower one by half a step ensures a more effective separation of the material into fractions due to an increase in the contact area of the sorting material with the sieving surfaces, as well as a more intensive mixing of the sorted material on the grate sieves. 29 Fig. 1 shows a longitudinal section of the device for screening materials; Fig. 2 shows the device

GF) top view. yuyu The device for screening materials contains a body 1, in which there is a frame, which is made of two inclined springs 2, which are supported from the edges on shock absorbers 3, and have a device for fixedly changing the angle of inclination of the springs to the horizontal plane 4, which is located on hinges 5 On the springs 2, the vibrator b and several grate sieves located in cascade and sequentially under the loading device 7, which are flexible cylindrical rods 8, the loading ends of which are cantilever fixed on the transverse rail 9, are fixed on the springs 2. The upper grate sieve is offset in length relative to the lower one by grates, and in width, the grates 7 of the upper sieve are offset relative to the grates of the lower one by half a step. Also, the device has nozzles for the output of distributed fractions 10. Because when the device is working, the material for sorting is sent through the loading device 7 to the grate sieves arranged in cascade and in sequence. The material moves along the grate sieves due to the forces of gravity and the forces of forced dynamic influence of the image-excited grates 8 on the material flow.

The vibrator 6 through the springs 2 transmits vibrations to the grating sieves, which begin to oscillate in a wave-like manner with a certain amplitude and frequency. The material moving through the grate sieves will also receive wave-like oscillations, which cause the material to mix more effectively during its movement. In addition, with the wave-like oscillations of the grating sieves, the gratings 8, in which the loading ends are cantilever fixed on the transverse rail 9, begin to vibrate and oscillate in the vertical plane. At the same time, a more efficient distribution of the material into fractions is ensured by reducing the coefficient of friction between the 7/0 Koposniks and the material. , which is sorted, and also ensures more effective self-cleaning of grates 8 from the sticking of small-fraction materials.

Particles of material that are smaller in size than the gaps between the grates of the sieve pass through the sieving surface and, under the action of their own weight, move along the surfaces of the outlet to the nozzles for the exit of the distributed fractions 10.

Particles of material that are larger than the gaps between the grates of the sieve, as well as particles of a small fraction that did not have time to separate on the first grate sieve, enter the lower grate sieve, where the described screening process is repeated. Displacement of the grates of the upper sieve relative to the grates of the lower one by half a step provides for more effective mixing of the material when it falls from the upper grate sieve to the lower one.

The number of grating sieves and the angle of their inclination to the horizontal plane depends on the required screening quality, the initial composition of the sorted material and the required screening performance.

The proposed use of a stand for sieving materials allows for effective sorting into fractions of wet fine-fraction materials with a content of pre-grating fractions from 1095 to 9095, at the same time, the sieving productivity increases two to three times and the probability of cluttering the grating surfaces of the sieves with small fractions decreases , as well as a two- to three-fold increase in the manufacturability of the device design during its manufacture and repair. 2 m to, 6 "I

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Claims (1)

The formula of the invention GF) A device for screening materials, which includes a frame, cascade-mounted grate sieves, a vibrator, a cue loading device and nozzles for the output of distributed fractions, which is distinguished by the fact that the frame is made of two inclined springs, which are supported from the edges on shock absorbers, and have a device for fixedly changing the angle of inclination of the springs in the horizontal plane, and a vibrator is fixed along the length of the springs and 60 several cascaded and sequentially arranged under the loading device grate sieves, which are flexible cylindrical rods, the loading ends of which are cantilever fixed on a transverse rail with a constant gap and which have the ability to be vibrated and oscillate in the vertical plane, while the upper grate sieve is shifted along its length relative to of the lower sieve by the length of the grates, and the grates of the upper sieve are shifted by half a step relative to the grates of the lower sieve in width vv. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M Z, 15.03.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. s o " Fo "- (22) IS c) shi s ;" 1 se) - at 50 s» F) name) 60 b5