RU150691U1 - VIBRATION-CENTRIFUGAL SEPARATOR - Google Patents

Abstract

A vibration-centrifugal separator containing a frame on which a drum is mounted by means of a shaft in the form of a truncated cone facing down with a smaller base, the working surface of which is made with holes, a drum rotation drive and a vibrator for informing the drum of vibrations, characterized in that the drum with holes is made in the form interchangeable screens, and the vibrator, creating circular vibrations, is made in the form of several, at least three, cylinders with movable rods passing through their central hole and fixed in elastic tic toroids filled with fluid with pneumatic control of reciprocating motion in cylinders.

Description

The utility model relates to a device for separating bulk materials by particle size within the particle size distribution and can be used in agriculture, as well as in chemical, construction, metallurgical and other industries. The well-known "Centrifugal Separator" (SU 429852 M. Cl. B07b 1/22, 1974) containing a sieve made in the form of a truncated cone installed with a smaller base down, the working surface of which is made with holes, the sieve rotation drive and vibrator to communicate axial vibrations to the sieve.

The disadvantages of this separator are low productivity and low quality separation.

Closest to the proposed technical solution is the “Centrifugal Separator” (AS No. 880335, M. Cl. ³ A01F 12/44, 1981) selected as a prototype, which contains a frame on which a drum is installed through the shaft in the form of a smaller facing base down a truncated cone, the working surface of which is made with holes, the diameter of which increases from the lower base to the upper, a drum rotation drive and a vibrator for communicating axial vibrations to the drum, the drum openings being made in the form of two communicating channels, whose axes are located at an angle to each other.

The disadvantages of this separator are low productivity and low quality separation.

The purpose of the invention is improving work efficiency.

This goal is achieved in that a vibration-centrifugal separator containing a frame on which a drum is mounted by means of a shaft in the form of a truncated cone facing down with a smaller base, the working surface of which is made with holes, a drum rotation drive and a vibrator for communicating vibrations to the drum, the drum with holes made in the form of interchangeable screens, and the vibrator that creates circular vibrations is made in the form of several, at least three, cylinders with movable rods passing through their central hole and fixed in elastic toroids filled with fluid with pneumatic control of reciprocating motion in cylinders.

The utility model provides an increase in sieving efficiency due to purposeful programming of vibration functions, as well as stepless control and smooth regulation of the process.

In FIG. 1 shows a separator, general view; in FIG. 2 - vibration control system (top view).

The vibration-centrifugal separator contains a frame 1 on which a shaft 2 is vertically mounted, a drum 3 made in the form of a truncated cone facing down with a smaller base and mounted on the shaft 2, a drum rotation drive (not shown) with a pulley 4, a vibrator control unit 5 for communication a circular vibration drum 3 and a loading funnel 6. The drum 3 is closed by a casing 7, on which receiving trays 8 and 9 are attached for the passage and gathering fractions, respectively, rods 10 of cylinders 11 with elastic toroids 12, connecting hoses 13.

The working surface of the drum 3 is made in the form of removable sieves, the diameter of which depends on the separated mixture.

Vibration-centrifugal separator operates as follows.

The grain mixture, through the feed funnel 6 enters the working surface of the drum 3 and moves along it as a result of rotation and circular vibrations of the drum 3, due to which it is divided into two fractions. Small grains pass through the openings of the sieves and enter the receiving tray 8, and large grains go down the working surface of the drum 3 and enter the receiving tray 9. Circular vibrations of the drum 3 are provided by the control unit 5, in which the algorithm for feeding pneumatic pulses to the cylinders 11 is set. The control unit 5 allows you to receive multivariance settings of the amplitude and frequency of pneumatic pulses, the possibility of targeted programming of vibration functions, stepless control and smooth regulation. A pneumatic pulse, of a given frequency and amplitude, flows through a hose 13 into one of the cylinders 11, its elastic toroid 12 rolls up, moving up the rod 10 of its cylinder 11 and raising the edge of the frame 1. The next pneumatic pulse is supplied to the neighboring cylinder 11, similarly, the rod of which lifts adjacent edge of the frame 1. And so, alternately, pneumatic pulses are fed in a circle to the cylinders, raising their rods, and accordingly the frame moves with the separator. Creating periodically a sharp pressure drop in the cylinders 11, the drum 3 receives a shake through the frame 1, which increases the efficiency of sieving and self-cleaning of the sieve.

The proposed design of a vibration-centrifugal separator can increase the productivity and quality of separation, simplify the design, reducing its metal consumption and automate the process control of the resulting product.

Claims (1)

A vibration-centrifugal separator containing a frame on which a drum is mounted by means of a shaft in the form of a truncated cone facing down with a smaller base, the working surface of which is made with holes, a drum rotation drive and a vibrator for informing the drum of vibrations, characterized in that the drum with holes is made in the form interchangeable screens, and the vibrator, creating circular oscillations, is made in the form of several, at least three, cylinders with movable rods passing through their central hole and fixed in elastic tic toroids filled with fluid with pneumatic control of reciprocating motion in cylinders.

Images