UA57400A - Screening device - Google Patents

Abstract

Screening device includes a casing with vertical channel formed by one vertical section in which there are zigzag mounted each under another vibroexcited grates and deflectors located on removable pivoted vertical sections connected in upper part with source of forced vibrations and device for loading and pipes for discharge of separated fractions.

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.

A well-known device for screening materials | Patent of Ukraine Mo 44591A. IPC" VO7B "/09, 15.02.2002| which includes a vertical channel in which gratings with deflectors are installed in a zigzag manner under one another, and the grating surfaces are concave along the arc of a sinusoidal curve and form a vertical channel, the shape of which is described by the equation of sinusoidal harmonic oscillations, a device for loading and nozzles for 70 output of fraction distribution.

The disadvantages of the known design are insufficient screening quality and productivity, as well as the reliability of the equipment during screening of wet, finely fractionated materials with a large number of sub-grating fractions.

When sieving materials with the listed properties, the kinetic energy of the falling material particles is not enough for effective vibration excitation of the sieving surfaces, which leads to a deterioration in the self-cleaning of the sieves, a deterioration in the quality of sieving and the reliability of the device. The execution of a vertical channel in the form of rigidly connected with each other by means of the case of vibration-exciting sieving surfaces and detectors does not involve the installation of auxiliary devices on it for intensifying the screening process and cleaning the sieving surfaces from sticking materials.

The closest technical solution, chosen as a prototype, is a device for screening materials |Patent 720 of Ukraine Mo 49715. МПК" ВО7В "/d0, 16.09.2002|, includes a vertical channel formed from two vertical variable sections, each of which consists of two hinged - fixed at the edges in the upper and lower parts of the springs, connected to each other by several inclined deflectors with vibration-excited grates fixed on them, which are placed one under the other with a step in the upper plane equal to the oscillation period of 25 sinusoidal channel curves, while the surfaces are concave grates of each section are directed towards the axis of the vertical channel and are offset relative to each other in the horizontal plane by an amount equal to half the oscillation period of the indicated sinusoidal curve, and the sections in the upper part are connected to the source of forced oscillations.

The disadvantages of the known design are the insufficient quality and performance of sifting of wet, finely fractionated 30 materials as a result of the fact that the design of the device lacks the efficiency of transmitting forced vibrations to the hinged sections, and the possibility of them oscillating along their length in a wave-like manner, and creating | "c) uniform oscillations of grates. In addition, the design of the device is difficult to manufacture and maintain. "

The basis of the invention is the task of creating a new device for screening materials by improving the known device, which has an increased quality of screening wet finely fractionated materials, increased productivity of the screening process and increased manufacturability of the structure during manufacture and repair.

A device for screening materials, which includes a body with a vertical channel, the shape of which is described by the equation of sinusoidal harmonic oscillations, in which vibration-excited grates and deflectors are installed in a zigzag manner, one under the other, which are located on replaceable hinged and fixed vertical "sections and connected in the upper part to a source of forced oscillations, as well as a device for loading and a nozzle for the output of distributed fractions. According to the invention, the vertical channel along the axis is formed with one vertical section, which consists of two flexible elements fixed at the edges in the upper and lower parts of the body and connected to each other on two sides by several inclined deflectors with gratings fixed on them, which are placed one under the other with a step in the vertical plane equal to the oscillation period 415 of the sinusoidal curve of the channel, while the concave surfaces of the grates located on both sides of the section sl are directed towards the axis of the vertical channel and are displaced relative to each other in the horizontal plane by an amount equal to half of the oscillation period of the indicated sinusoidal curve, and the section in the upper part is connected to the source of forced oscillations and to the stabilizer of the vertical position of the section relative to the axis of the channel and has the ability to oscillate along its length together with the vibrating grates.

Comparison of the claimed device with the prototype shows that what is new is the formation of a vertical channel ("in") by one vertical section, which consists of two flexible elements fixed at the edges in the upper and lower parts of the body and connected to each other on both sides by several inclined deflectors with vibration-excited grates attached to them, which are placed one under the other with a step in the vertical plane equal to the oscillation period of the sinusoidal curve of the channel. Execution of the channel in the form of one vertical variable section allows to increase the manufacturability of the device design during its manufacture and operation.

Due to the fact that the concave surfaces of the grates are located on two sides of the section, directed towards the axis of the vertical channel and shifted relative to each other in the horizontal plane by an amount equal to half the oscillation period of the specified sinusoidal curve, a more effective separation of the material into fractions is ensured, i.e. increasing the contact area of the sorting material with the sieving surfaces along the length of the vertical channel.

The connection of the section in the vertical part with the source of forced vibrations ensures an increase in the quality and productivity of screening of wet fine fractional materials due to more effective transmission of forced vibrations of the fixed section, and the ability to oscillate the section along its length, and to create uniform vibrations of sieves with an optimal frequency and amplitude The connection of the section in the vertical part with the stabilizer of the vertical position of the section relative to the axis of the channel ensures the necessary position of the passage section of the channel relative to the loading device, which increases the quality of screening.

In Fig. a longitudinal section of the device for screening materials is shown.

The screening device includes a receiving hopper with a loading device 1, a body 2 with a vertical channel 3, which is formed by a vertical variable section 4, which consists of two fixed at the edges in the upper and lower parts of the flexible elements 5, connected to each other by several inclined deflectors 6 with vibration-excited grates 7 attached to them, which are placed one under the other with a step in the vertical plane equal to the oscillation period of the sinusoidal curve of the vertical channel 3.

At the same time, the concave surfaces of the gratings of the 7 sections are directed towards the axis of the vertical channel and are offset relative to each other in the horizontal plane by an amount equal to half the oscillation period of the indicated sinusoidal curve. The vertical variable section 4 is connected in the lower part with nozzles for the output of the distributed fractions 8 of the body 2. The section 4 is also connected in the upper part and is connected by two rods 9 to the source of forced oscillations 10, which transmits oscillations of the optimal frequency and amplitude of the section 4 and grates 7, as well as with stabilizers 11 that stabilize the position of sections 4 together with grates 7 7/5 Relative to the axis of the vertical channel C and the device for loading the material fed to screening 1.

The vertical section 4 in the lower part is connected to the nozzles for the output of the distributed fractions from the body 2.

As a result of the forced dynamic influence of the vibrating grates 7 on the flow of material flowing along the vertical channel Z due to the forces of gravity, the grates 7 begin to oscillate with a certain amplitude and frequency. The source of forced oscillations 10 through stabilizers 11 and rods 9 transmits oscillations to two flexible 2o elements along the length of which a wave of oscillation with a certain amplitude and frequency spreads. Section 4, together with the vibration-excited grates 7, also begins to oscillate, which ensures a more efficient distribution of the material into fractions due to the reduction of the friction coefficient between the grates and the material being sorted.

Particles of material that are smaller in size than the gaps of the sieving surface pass through the sieving surface of the grates 7 and, under the action of their own weight, move along the exit surfaces of the deflectors 6 to the nozzles for the exit of the distributed fractions 8.

Particles of material that are larger than the gaps of the sieving surface, as well as particles of a fine fraction that did not have time to separate on the first sieving surface, enter the next one, where the described sieving process is repeated. The number of sieves with sieving surfaces 7 depends on the required quality of Screening and this initial fractional composition. Large particles of material, passing under the influence of their own weight through the vertical channel C of the device, interact with all the surfaces of sieving grates 7 and go to the nozzles for the output of distributed fractions 8. "g

The use of the proposed device for sieving materials allows for effective sorting into fractions of wet, finely fractionated materials with a content of more than 9095 pre-grated fractions, at the same time, the sieving productivity increases by two to three times and the probability of cluttering the sieving surfaces with small fractions decreases. and also the manufacturability of the design of the device during its manufacture and repair increases two to three times.

The device for sieving materials can be obtained by upgrading existing sieving machines at enterprises of the metallurgical, mining, and chemical industries. " - with

Claims (1)

The formula of the invention;" A device for screening materials, which includes a body with a vertical channel, the shape of which is described by the equation of sinusoidal harmonic oscillations, in which vibrating grates and deflectors are installed in a zigzag manner, one below the other, which are located on replaceable hinged vertical sections, connected at the top to the source forced oscillations, as well as a device for loading and a nozzle for and output of separated fractions, which is distinguished by the fact that the vertical channel along the axis is formed by a single vertical section, which consists of two flexible elements that are fixed at the edges in the upper and lower parts of the housing and which are connected to each other on two sides by several inclined deflectors with vibration-excited grates attached to them, which are placed one under the other with a step in the vertical plane equal to the oscillation period of the sinusoidal curve of the channel, while the surfaces of the grates located on two sides are concave sections directed towards the vertical axis of the channel and are shifted relative to each other in the horizontal plane by an amount equal to half the oscillation period of the indicated sinusoidal curve, and the section in the upper part is connected by two rods to the source of forced oscillations and to the stabilizer of the vertical position of the section relative to the axis of the channel. 60 b5