SU1461506A2 - Method of producing analyzer - Google Patents

Abstract

The invention relates to the separation of materials into fractions according to magnetic properties and reduces the time of fractional analysis. The magnetic system of the analyzer is a series of permanent magnets (M) 1 with pole pieces 2 connected by a rod 3. M T are installed in order of increasing their magnetic energy. A series of grooves (G) 4 of non-magnetic material, fitted with longitudinal, reinforced in its bottom, induction strips 5, which are alternately connected to pole pieces 2, are cascade mounted over the magnetic system. Each Ж 4 is mounted with the possibility of rotation around a vertical axis 7 and vertical movement with respect to M 1 by means of screws 8. The test material is fed from the hopper 6 to the surface of the working body from the grooves 4 installed at an angle to the horizon. . . On each Ж 4 a fraction of magnetic material with magnetic properties determined by the energy Ml placed under the given Ж 4 is released. The nonmagnetic fraction rolls off the last Ж 4. The magnetic force acting on the material can be changed by turning screw 8. 2 or . S O)

Description

The invention relates to the separation of materials into fractions according to magnetic properties and can be used for fractional analysis of samples. $

Figure 1 shows a magnetic analyzer, side view; figure 2 is the same, a top view.

The magnetic analyzer consists of a magnetic system in the form of bipolar permanent magnets 1 sequentially arranged in ascending order of their magnetic energy 1 with pole tips 2 connected by a yoke 3 located above the nickel / working element, made in the form of cascading non-magnetic flat gutters 4, equipped with longitudinal, reinforced in its bottom, induction strips 5, part 20 of which is magnetically connected to the north, and the other to the south poles, and mutually alternating in the inter-pole gaps. The working body is equipped with a feed hopper 6, and each trough is connected 25 by means of vertical mounting axes 7 with adjusting screws 8. Screws 8 are mounted on the base 9, one end of which is pivotally connected to the bed 11 via the axis 10, and can be moved along the arcuate guides on the other 12 and secured with clamping screws 13.

The magnetic analyzer operates as follows. 25

The studied material from the feed hopper 6 enters the first trough 4 of the working body, where the magnetic fraction is held by the forces of the magnetic field both above the poles of the permanent magnets 1 and in the working gaps of the induction bands 5, and the non-magnetic fraction goes to the next trough 4 of the working body, being its source food. After passing the entire length of the working body, a magnetic product will be selected from the Source material, distributed according to its properties over various troughs. Non-magnetic product is unloaded at the bottom of the working body. After washing the non-magnetic fraction, each trough 4 of the working body is rotated 90 ° relative to the vertical axis 7 of its attachment and washed off from the trough of a fraction with different magnetic properties. After turning the troughs in the opposite direction (to the initial position), the magnetic analyzer is again ready for operation.

The magnetic analysis process is carried out for one sample of ore at different values of the magnetic field strength. In contrast to the prototype, where fractions are selected by repeatedly passing a sample of material at various values of the magnetic field strength on the surface of the working body, the proposed design of a magnetic analyzer allows these operations to be carried out in one or two steps. In this case, a change in the magnetic field along the length of the working body is carried out both by using bipolar permanent magnets with different magnetic energies, and by changing the position of the grooves relative to the pole tips of 2 magnets. The latter is produced by rotating the screws 8. Thus, the proposed design of the magnetic analyzer can reduce the time of analysis, lysis and at the same time obtain several fractions of the material with different magnetic properties.

Claims (1)

Claim Automotive Magnetic Analyzer No. 1319904,0, characterized in that, in order to increase productivity analysis due to the simultaneous separation of several magnetic fractions, the analyzer is equipped with additional bipolar permanent magnets having different magnetic energies, arranged sequentially along the material in succession in increasing energy order, and cascaded additional gutters made of non-magnetic material placed above the magnets, the gutters being mounted rotatably around the vertical axis of the mount.