CN102284358A

CN102284358A - Superconducting magnetic separation continuous separation device

Info

Publication number: CN102284358A
Application number: CN2011102077663A
Authority: CN
Inventors: 陈文华; 栾兆坤; 马仲英; 易钢; 王军
Original assignee: JIANGSU JINGKAI ZHONGKE SUPERCONDUCTING HIGH TECHNOLOGY Co Ltd
Current assignee: JIANGSU JINGKAI ZHONGKE SUPERCONDUCTING HIGH TECHNOLOGY Co Ltd
Priority date: 2011-07-25
Filing date: 2011-07-25
Publication date: 2011-12-21

Abstract

The invention discloses a superconducting magnetic separation continuous separation device, which comprises a superconducting magnet, a magnetic separation belt, a belt driving device and a belt pulley, wherein the superconducting magnet is provided with a first magnetic pole which is close to a substance subjected to magnetic separation and a second magnetic pole which is far away from the substance subjected to the magnetic separation; the magnetic separation belt is arranged on the belt pulley; the belt driving device is in driving connection with the magnetic separation belt; the magnetic separation belt passes through an adsorption section, a desorption section and a transitional connection section of a magnetic substance sequentially; one end of the desorption section of the magnetic substance is directly connected with one end of the adsorption section of the magnetic substance; the other end of the desorption section of the magnetic substance is connected with the other end of the adsorption section of the magnetic substance by the transitional connection section; and the adsorption section of the magnetic substance is positioned between the first magnetic pole and the substance subjected to the magnetic separation. When subjected to the magnetic separation, the substance can be subjected to the magnetic separation continuously, and the adsorption, separation and collection of the magnetic substance are performed simultaneously to improve the work efficiency and separation speed of the superconducting magnetic separation continuous separation device and reduce energy consumption.

Description

The superconducting magnetic separation continuous separation device

Technical field

The present invention relates to magnetic separating device, particularly a kind of can be continuously, the superconducting magnetic separation continuous separation device of non-stop run operation.

Background technology

As shown in Figure 1, magnetic separating device of the prior art is a batch (-type), when the magnetisable material of adsorption plate 101 absorption on being installed in field generator for magnetic 201 reaches a certain amount of, with field generator for magnetic 201 integral body from moved on to magnetisable material gatherer 6 tops by the magnetic separation material, make field generator for magnetic 201 outages then, so that field generator for magnetic 201 does not temporarily produce magnetic field, the magnetisable material that adsorb on the adsorption plate 101 this moment is fallen in the magnetisable material gatherer 6 voluntarily.Then field generator for magnetic 201 is moved on to by on the magnetic separation material, and make field generator for magnetic 201 energisings, make adsorption plate 101 continue the absorption magnetisable material ... so repeatedly.There is following technological deficiency in this magnetic separating device: 1, the separated and collected of the absorption of magnetisable material and magnetisable material is intermittently carried out, and makes that the operating efficiency of magnetic separating device is very low, and separating rate is slow; 2, need to make continually field generator for magnetic 201 energisings or outage in the course of work, energy loss is big, and inconvenient.

Summary of the invention

At the deficiencies in the prior art, the superconducting magnetic separation continuous separation device that the object of the present invention is to provide the separated and collected of a kind of absorption of magnetisable material and magnetisable material to carry out simultaneously, improve the operating efficiency and the separating rate of superconducting magnetic separation continuous separation device, reduce energy loss.

Technical scheme of the present invention is achieved in that the superconducting magnetic separation continuous separation device, comprise superconducting magnet, the magnetic separation belt, belt drive and belt pulley, described superconducting magnet has closes on by first magnetic pole of magnetic separation material with away from by second magnetic pole of magnetic separation material, described magnetic separation belt is installed on the described belt pulley, described belt drive is connected with described magnetic separation belt drives, described magnetic separation belt passes the magnetisable material adsorption section successively, magnetisable material desorption section and transition linkage section, one end of described magnetisable material desorption section directly is connected with an end of described magnetisable material adsorption section, the other end of described magnetisable material desorption section is connected with the other end of described magnetisable material adsorption section by described transition linkage section, described magnetisable material adsorption section at described first magnetic pole and by the magnetic separation material between.

Above-mentioned superconducting magnetic separation continuous separation device, the left and right sides of described superconducting magnet is respectively arranged with described belt drive.

Above-mentioned superconducting magnetic separation continuous separation device, the part of described transition linkage section is positioned at the top of described second magnetic pole.

The invention has the beneficial effects as follows: superconducting magnetic separation continuous separation device of the present invention is to when being carried out magnetic separation by the magnetic separation material, non-stop run continuously, the absorption of magnetisable material and the separated and collected of magnetisable material are carried out simultaneously, improve the operating efficiency and the separating rate of superconducting magnetic separation continuous separation device, reduce energy loss.

Description of drawings

Fig. 1 is the structural representation of magnetic separating device in the prior art;

Fig. 2 is the structural representation of superconducting magnetic separation continuous separation device of the present invention.

Among the figure: 1-superconducting magnet, 2-magnetic separation belt, 21-magnetisable material adsorption section, 22-magnetisable material desorption section, 23-transition linkage section, the 3-belt drive, the 4-belt pulley, 5-is by the magnetic separation material, 6-magnetisable material gatherer, 201-field generator for magnetic, 101-adsorption plate.

The specific embodiment

The present invention is described further in conjunction with the accompanying drawings:

As shown in Figure 2, present embodiment superconducting magnetic separation continuous separation device comprises superconducting magnet 1, magnetic separation belt 2, belt drive 3 and belt pulley 4, described superconducting magnet 1 has closes on by first magnetic pole of magnetic separation material 5 with away from by second magnetic pole of magnetic separation material 5, described magnetic separation belt 2 is installed on the described belt pulley 4, described belt drive 3 drives with described magnetic separation belt 2 and is connected, described magnetic separation belt 2 passes magnetisable material adsorption section 21 successively, magnetisable material desorption section 22 and transition linkage section 23, one end of described magnetisable material desorption section 22 directly is connected with an end of described magnetisable material adsorption section 21, the other end of described magnetisable material desorption section 22 is connected with the other end of described magnetisable material adsorption section 21 by described transition linkage section 23, described magnetisable material adsorption section 21 at described first magnetic pole and by magnetic separation material 5 between; The part of described transition linkage section 23 is positioned at the top of described second magnetic pole.The left and right sides of described superconducting magnet 1 is respectively arranged with described belt drive 3.

Described magnetic separation belt 2 drives by described belt drive 3, the described magnetic separation belt 2 that is positioned at described magnetisable material adsorption section 21 is positioned at by magnetic separation material 5 tops and is positioned at first magnetic pole below of described superconducting magnet 1, therefore can will be adsorbed onto by the magnetisable material in the magnetic separation material 5 on the lower surface of described magnetic separation belt 2, when described magnetic separation belt 2 continues to move to described magnetisable material desorption section 22, magnetic field intensity weakens, and the magnetisable material on described magnetic separation belt 2 lower surfaces is shed in the magnetisable material gatherer 6.Along with described magnetic separation belt 2 moves continuously, can will constantly be sorted in the described magnetisable material gatherer 6 by the magnetisable material in the magnetic separation material 5.

The superconducting magnetic separation continuous separation device of present embodiment is to when being carried out magnetic separation by the magnetic separation material, constantly do not carry out rising magnetic and fall the magnetic process, non-stop run continuously, the absorption of magnetisable material and the separated and collected of magnetisable material are carried out simultaneously, improve the operating efficiency and the separating rate of superconducting magnetic separation continuous separation device, reduce energy loss.

Claims

1. superconducting magnetic separation continuous separation device, it is characterized in that, comprise superconducting magnet (1), magnetic separation belt (2), belt drive (3) and belt pulley (4), described superconducting magnet (1) has closes on by first magnetic pole of magnetic separation material (5) with away from by second magnetic pole of magnetic separation material (5), described magnetic separation belt (2) is installed on the described belt pulley (4), described belt drive (3) drives with described magnetic separation belt (2) and is connected, described magnetic separation belt (2) passes magnetisable material adsorption section (21) successively, magnetisable material desorption section (22) and transition linkage section (23), one end of described magnetisable material desorption section (22) directly is connected with an end of described magnetisable material adsorption section (21), the other end of described magnetisable material desorption section (22) is connected by the other end of described transition linkage section (23) with described magnetisable material adsorption section (21), and described magnetisable material adsorption section (21) is positioned at described first magnetic pole and by between the magnetic separation material (5).

2. superconducting magnetic separation continuous separation device according to claim 1 is characterized in that, the left and right sides of described superconducting magnet (1) is respectively arranged with described belt drive (3).

3. superconducting magnetic separation continuous separation device according to claim 2 is characterized in that, the part of described transition linkage section (23) is positioned at the top of described second magnetic pole.