CZ2021321A3 - Equipment for increasing the efficiency of a screen sorting area - Google Patents

Abstract

The device for increasing the efficiency of the sorting area of the screen (1) of particulate materials is designed for screen sorting devices. Its design makes it possible to optimize the efficiency of the sorting area by means of targeted, spatially oriented and pressure- and flow-adjustable streams of gaseous pressure medium. In this way, several size fractions of particulate material can be obtained with one standard sieve (1).

Description

Equipment for increasing the efficiency of the screen sorting area

Field of technology

The additional construction of the device is designed for sorting systems of particulate materials with sieve technology. The device sorts particulate materials according to the size / weight parameter, on standard and special sieves. The device is designed to increase the efficiency of screening areas for particulate materials, used for example in additive 3D printing technologies, in the pharmaceutical industry, in agriculture, in the chemical industries and everywhere where it is necessary to sort particulate materials.

State of the art

When transporting and sorting particulate matter using classically arranged vibrating conveyors and sorters, only two fractions can be sorted using one standard sieve, ie. supersaturated and undersized fraction. This disadvantage is standardly solved by increasing the number of sieves, and thus increases the number of sorted fractions. The disadvantage of this solution is a significant increase in the weight of the part of vibrating conveyors and screens, which must be set in motion, and this leads to increased power requirements for vibrating exciters, increased power consumption, increased inertial forces and the related need for more robust damping and carrier reinforcement. construction of vibrating conveyors and screens.

The following documents dealing with separation by means of sound or ultrasonic waves are known from the patent literature on the subject. U.S. Pat. The device is intended only for very fine particulate materials or materials with a very different shape. Another possibility is an optical solution using electromagnetic waves, including sound, according to document JPH 06213645 A - this device does not allow to solve the sorting of layers of particulate material.

Another possibility for the separation of particulate materials is sorting by means of capillary waves generated by a sound wave, for example according to DE 102010017137 A1 - the solution is not suitable for screen technology and materials which must not come into contact with liquids. The last area of the solution is mechanical separation, which is solved by documents JP 2005021792 A, EP 1415717 A1 and RU 2174877 C2, which, however, do not allow to separate particulate materials close to shape or weight.

The essence of the invention

The above disadvantages are eliminated by the invention according to the present application. The device described below is connected to the classically arranged vibrating conveyors and screens, enabling an increase in the efficiency of the screening area.

The device placed under the screen is composed of a plate in which holes of specific cross-section V are formed, in which aeration nozzles are placed, which allows 360 ° movement around the vertical axis z and tilting given parameters of specific cross-section V and displacement of the moving member. Advantageously, a locking table operated manually or by means of stepping motors which are connected to the frame of the vibrating conveyor can be used to move the moving member. A pressurized gas distributor is attached to the moving member, which is connected to each aeration nozzle by a flexible pressure hose for conducting the pressurized gas medium: The moving member then allows, in a given ratio hoses, adjust the tilt of the aeration nozzle in reverse, and thus control the direction of the flowing pressurized gaseous medium from the aeration nozzles. The pressurized gaseous medium distributor ensures the supply of pressurized gaseous medium with a precisely defined flow and pressure to the flexible pressure hoses.

- 1 CZ 2021 - 321 A3

The specific setting of the position of the aeration nozzles and the setting of the parameters of the pressurized gaseous medium for each aeration nozzle make it possible to increase the efficiency of the sorting surface of the screen. Depending on the number of rows of aeration nozzles and on the knowledge of the required pressure and flow of pressurized gaseous medium of each row of aeration nozzles, the number of fractions separated on one sieve can be increased with respect to shape and weight parameters of sorted particulate material. The sorted material fractions are separated transversely in the "y" axis direction of the sieve. The "x" axis of the screen must be long enough to ensure optimal separation of the entire height of the material layer and at the same time to transport the separated material to the end of the screen.

Clarification of drawings

Giant. 1 is a view of a vibrating screen with a device.

Giant. 2 is a side view of a vibrating screen with a device showing the detail of section A.

Giant. 3 is a section A of an aeration nozzle housed in a hole of a specific cross section V.

Giant. 4 is a top view of the arrangement of the aeration rods in the specific cross-sectional openings V on the plate.

Giant. 5 is a functional diagram of a device with a transport function without separation.

Giant. 6 is a functional diagram of a device with a transport function and separation by tilting the sieve by an angle α.

Giant. 7 is a functional diagram of a device with conveying function and separation by tilting the screen by an angle α and separating by tilting aeration nozzles by an angle ε with a constant flow and pressure of the pressurized gaseous medium in all aeration nozzles.

Giant. 8 is a functional diagram of an apparatus with conveying function and separation by tilting the screen by an angle α and separating by tilting aeration nozzles by an angle ε with variable flow and pressure of the pressurized gaseous medium in three rows of aeration nozzles.

Examples of embodiments of the invention

Example 1

A plate 2 with holes 4 of a specific cross-section V forming rows of a given spacing is inserted into the frame of the screen 9 parallel to the screen 1. Spherical aeration nozzles 3 are slidably mounted in the openings 4 and are connected to the pressure gas distributor 6 by flexible pressure hoses 5. The pressure gas distributor 6 is mounted on a movement member 7 ensuring movement in the x and y axes, and thus through the flexible pressure hoses 5 tilting the aeration nozzles 3 by an angle ε. The pressurized gaseous medium distributor 6 distributes the pressurized gaseous medium with constant pressure and flow rate to the aeration nozzles 3 via flexible pressure hoses 5, and thus the two fractions of particulate material 8 are separated on the screen 1 as shown in FIG.

Example 2

Example 2 differs from Example 1 in that the pressure gas distributor 6 distributes a pressure gas medium with a specific pressure and flow value to each individual aeration hose 3 via flexible pressure hoses 5, thus creating specific pressure and flow schemes for separating multiple fractions. of particulate material 8 on the screen 1, as shown in Fig. 8.

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Industrial applicability

The device can be used for sorting particulate materials using sieves. It makes it possible to optimize the efficiency of the screen sorting area by targeted, spatially oriented and pressure- and flow-adjustable streams of gaseous pressure medium. The device, according to the settings, allows to increase the number of separated fractions of particulate matter on one sieve.

Claims (4)

PATENT CLAIMS Device for increasing the efficiency of a sorting surface of a screen (1) mounted in a screen frame (9), characterized in that under the screen (1) there is a plate (2) with openings (4) in which 5 aeration nozzles are slidably mounted (3) which are connected by flexible pressure hoses (5) to a pressurized medium (6) located below, the pressurized gas distributor (6) being mounted on a movement member (7) for tilting the aeration nozzles (3) by a specific angle. ε in the x and y axes. Device for increasing the efficiency of a screen (1) according to claim 1, characterized in that the openings ίο (4) in the plate (2) have a V-shaped cross section. Device for increasing the efficiency of a screen (1) according to claim 1, characterized in that the aeration nozzles (3) are spherical in shape. Device for increasing the efficiency of a screen sorting area according to claim 1, characterized in that the pressure gas medium distributor (6) is arranged to distribute the pressure gas medium 15 with specific pressure and flow parameters to specific flexible pressure hoses (5).