CN205462702U - Respond well ore pulp slag separation sieve removes gred - Google Patents

Abstract

The utility model provides a respond well ore pulp slag separation sieve removes gred, belongs to magnet separator mineral processing equipment technical field for the quick -witted ore pulp of strong magnetism separated the sediment during the ring type was found to high gradient. Its technical scheme is: the ore pulp enters the ore deposit for the ore deposit case through the plansifter and manages and give the ore deposit case for going into the plansifter, can cross overflow plate and give the plansifter after the ore pulp liquid level exceedes overflow plate, and the ore pulp flows in the magnet separator and gives the ore deposit case after the plansifter slagging -off, and the rethread magnet separator is managed for the income magnet separator for the ore deposit. The utility model discloses an overflow plate can guarantee the plansifter and give the stability and the homogeneity in ore deposit, and the sieve piece of plansifter divide into the part in three different sieve mesh clearances, coarse grain and detonator onal in can not only the effective isolation ore pulp, the concentrated wear that can also avoid sieving the piece simultaneously, the whole life of extension sieve piece. The utility model discloses simple structure, slagging -off are respond well, can prevent effectively that magnet separator medium box from blockking up, can reduce the washing of medium box simultaneously, have saved plenty of time and manpower, have guaranteed going on smoothly of production, have apparent economic benefits.

Description

A kind of respond well ore pulp that removes the gred is every ballast screen

Technical field

This utility model relates to a kind of high gradient that is suitable for and founds the ore pulp of strong magnetomechanical in ring type and, every ballast screen, belong to magnetic separator preparation equipment technical field.

Background technology

It is flat every ballast screen slagging-off to all using before ore deposit that current high gradient founds strong magnetomechanical in ring type, but majority is unsatisfactory every ballast screen slagging-off effect.Existing every undesirable main reason is that of ballast screen effect, bigger than normal every ballast screen screen size, most at 3mm 5mm, result in and enter magnetic separator cartridge to the detonator onal carried in the coarse granule of below 5mm in ore deposit and part mining process, thus blocking medium box, not only affect operating rate, and cartridge cleans extremely difficult, taking considerable time and manpower, impact is normal to be produced.And select the sieve of less sieve aperture can cause race ore deposit, spatter ore deposit problem.

Meanwhile, the usable floor area of currently used most sieves is only within to 1/3 sieve area of ore deposit end, therefore also result in the waste problem that sieve concentrated wear is serious and major part is not utilized effectively.

In sum, currently used ore pulp can not meet the needs of production every the effect of slagging tap of ballast screen, it is quite necessary to is improved.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of respond well ore pulp that removes the gred every ballast screen, this ore pulp can be effectively isolated coarse granule and detonator onal in ore pulp every ballast screen, preventing these coarse granules and foreign material from entering blocking medium box after magnetic separator cartridge, what impact produced is smoothed out.

The technical scheme solving above-mentioned technical problem is:

A kind of respond well ore pulp that removes the gred is every ballast screen, it is entered pipe by plansifter to ore deposit case, plansifter is to ore deposit case, overflow plate, plansifter, magnetic separator is to ore deposit case, magnetic separator mineral-feeding pipe forms, plansifter is connected to ore deposit case with magnetic separator to ore deposit case, plansifter enters pipe to ore deposit case and is arranged on the plansifter feed end to ore deposit case, magnetic separator mineral-feeding pipe is arranged on the magnetic separator discharge end to ore deposit case, overflow plate be vertically mounted on plansifter to ore deposit case and magnetic separator to ore deposit case between, plansifter is arranged on the magnetic separator top to ore deposit case, the feed end of plansifter is connected with overflow plate, the upper end of overflow plate is higher than the plane of plansifter.

The respond well ore pulp of above-mentioned slagging-off is every ballast screen, the sieve of described plansifter is divided into the part in three different sieve aperture gaps, three parts are along the length direction order arrangement of sieve, sieve is more than the sieve aperture gap of sieve mid portion near overflow plate to the anterior sieve aperture gap of ore deposit end, and the sieve aperture gap of sieve mid portion is more than the sieve aperture gap at sieve rear portion.

The beneficial effects of the utility model are:

By overflow plate, this utility model can ensure that plansifter is to the stability in ore deposit and uniformity, the sieve of plansifter is divided into the part in three different sieve aperture gaps, the coarse granule in ore pulp and detonator onal can not only be effectively isolated in process of production, the usable floor area of sieve can also be increased simultaneously, avoid the concentrated wear of sieve, extend the whole service life of sieve.

This utility model simple in construction, remove the gred respond well, can effectively prevent the coarse granule in ore pulp and detonator onal from entering blocking medium box after magnetic separator cartridge, the cleaning of cartridge can be greatly reduced simultaneously, save plenty of time and manpower, decrease maintenance cost, ensure that being smoothed out of production, there is significant economic benefit.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the sieve schematic diagram of plansifter.

In figure, labelling is as follows: plansifter enters pipe 1, plansifter to ore deposit case 2, overflow plate 3, plansifter 4, magnetic separator to ore deposit case 5, magnetic separator mineral-feeding pipe 6 to ore deposit case.

Detailed description of the invention

This utility model is entered pipe 1 by plansifter to ore deposit case, plansifter forms to ore deposit case 5, magnetic separator mineral-feeding pipe 6 to ore deposit case 2, overflow plate 3, plansifter 4, magnetic separator.

Fig. 1 shows, plansifter enters pipe 1 to ore deposit case and is arranged on the plansifter feed end to ore deposit case 2, and ore pulp enters pipe 1 by plansifter to ore deposit case and feeds plansifter to ore deposit case 2.

Fig. 1 shows, plansifter is connected to ore deposit case 5 with magnetic separator to ore deposit case 2, overflow plate 3 be vertically mounted on plansifter to ore deposit case 2 and magnetic separator to ore deposit case 5 between, plansifter 4 is arranged on the magnetic separator top to ore deposit case 5, the feed end of plansifter 4 is connected with overflow plate 3, the upper end of overflow plate 3 is higher than the plane of plansifter 4, it is ensured that stability and the uniformity in ore deposit given by plansifter 4.Can cross overflow plate 3 after mineral pulp level exceedes overflow plate 3 and feed plansifter 4, ore pulp flows into magnetic separator to ore deposit case 5 after plansifter 4 removes the gred.

Fig. 1 shows, magnetic separator mineral-feeding pipe 6 is arranged on the magnetic separator discharge end to ore deposit case 5, and ore pulp flows into magnetic separator to ore deposit case 5 after plansifter 4 removes the gred, then feeds magnetic separator to the magnetic separator mineral-feeding pipe 6 bottom ore deposit case 5 by magnetic separator.

Fig. 2 shows, the sieve of plansifter 4 is divided into the part in three different sieve aperture gaps, three parts are along the length direction order arrangement of sieve, sieve is more than the sieve aperture gap of sieve mid portion near overflow plate 3 to the anterior sieve aperture gap of ore deposit end, and the sieve aperture gap of sieve mid portion is more than the sieve aperture gap at sieve rear portion.

Sieve aperture Interval selecting about the 1mm, sieve aperture Interval selecting about the 2mm in the middle part of sieve, sieve aperture Interval selecting about the 3mm at sieve rear portion that the sieve of an embodiment of the present utility model is anterior.

Plansifter 4 of the present utility model need to select stainless steel, and plansifter enters pipe 1 and magnetic separator mineral-feeding pipe 6 choosing multiple material to ore deposit case, and other parts all can use 1cm steel plate to be welded.

Claims (2)

1. the respond well ore pulp that removes the gred is every ballast screen, it is characterized in that: it is entered pipe (1) by plansifter to ore deposit case, plansifter is to ore deposit case (2), overflow plate (3), plansifter (4), magnetic separator is to ore deposit case (5), magnetic separator mineral-feeding pipe (6) forms, plansifter is connected to ore deposit case (5) with magnetic separator to ore deposit case (2), plansifter enters pipe (1) to ore deposit case and is arranged on the plansifter feed end to ore deposit case (2), magnetic separator mineral-feeding pipe (6) is arranged on the magnetic separator discharge end to ore deposit case (5), overflow plate (3) be vertically mounted on plansifter to ore deposit case (2) and magnetic separator to ore deposit case (5) between, plansifter (4) is arranged on the magnetic separator top to ore deposit case (5), the feed end of plansifter (4) is connected with overflow plate (3), the upper end of overflow plate (3) is higher than the plane of plansifter (4).

The respond well ore pulp of slagging-off the most according to claim 1 is every ballast screen, it is characterized in that: the sieve of described plansifter (4) is divided into the part in three different sieve aperture gaps, three parts are along the length direction order arrangement of sieve, sieve is more than the sieve aperture gap of sieve mid portion near overflow plate (3) to the anterior sieve aperture gap of ore deposit end, and the sieve aperture gap of sieve mid portion is more than the sieve aperture gap at sieve rear portion.