KR100508892B1 - Magnetic separator for construction waste - Google Patents

Abstract

The present invention relates to a magnetic separator for building waste that separates the ferrous metal contained in the construction waste carried by the conveyor using a magnetic force, the magnet body (1) having an electromagnetic force is disposed inside the circulation belt (3) In the process in which the circulation belt (3) is circulated around the magnet body (1) by the main roller (5) and the auxiliary roller (7) by the magnetic force contained in the building waste of the circulation belt (3) In the magnetic sorting device for the construction waste that is pulled up to the lower surface, it is characterized in that the auxiliary magnet device 11 in which the permanent magnet is built in the side of the magnet body (1).

Description

Magnetic separator for construction waste

The present invention relates to a magnetic separator for building waste that separates the ferrous metal contained in the building waste carried by the conveyor using a magnetic force.

In the applicant's Korean Patent No. 432535 (registered May 12, 2004), a "magnetic separator" is introduced.

The magnetic separator is supported by a magnet body incorporating an electromagnet, and a circulation belt is circulated around the magnet body by a main roller and an auxiliary roller, and scrapers are mounted on the circulation belt at regular intervals.

However, in order to increase the carrying distance of the ferrous metal, which is attached to the lower surface of the circulation belt and the conventional magnetic separator as described above, the size of the magnet body must be increased accordingly, and the size of the magnetic separator itself must be considerably increased. The nonwoven fabric has a disadvantage in that the circulating belt is torn when the ferrous metal is attached to the circulating belt by a strong force by the electromagnetic force.

Accordingly, an object of the present invention is to arrange an auxiliary magnet device in which permanent magnets are built into the side of the magnet body, thereby transporting ferrous metal attached to the lower surface of the circulation belt without increasing the size of the magnet body and the magnetic separator itself. It is to provide a magnetic separator for construction waste that can extend the distance.

Another object of the present invention is to provide a magnetic waste sorting machine for construction waste which can be prevented from tearing the circulation belt by being covered with a plurality of stainless plates, and the iron belt is attached to the stainless plate.

Preferred embodiments of the present invention for achieving the above object will be described in detail with reference to the drawings.

Referring to FIG. 1, the magnetic separator for building waste according to the present invention includes a magnet body 1 having an electromagnetic force disposed inside the circulation belt 3, and the circulation belt 3 is connected to the main roller 5 and the auxiliary. In the process of circulating around the magnet body 1 by the roller 7, the ferrous metal (not shown) included in the construction waste (not shown) is lifted up to the lower surface of the circulation belt 3 by magnetic force. As the auxiliary magnet device 11 having the permanent magnet embedded therein is disposed at the side of the magnet body 1, the transport distance d of the ferrous metal attached to the lower surface of the circulation belt 3 by an electromagnetic force is conveyed. Increased by the auxiliary magnet device 11.

Thereby, in order to separate the ferrous metal from the construction waste transported along the conveyor (not shown) disposed below the magnetic separator for building waste, a strong force is used to pull up the ferrous metal to the circulation belt 3 by magnetic force. A force is required to be pulled up to the magnet body 1 having the electromagnetic force, but once the ferrous metal attached to the endless belt 3 is moved in the direction of the arrow in Fig. 1, a strong force is not required. It was found that the magnet device 11 alone was sufficient.

When the auxiliary magnet device 11 is arranged on the side of the magnet body 1 in this way, as shown in FIG. 1, the conveying distance d of the ferrous metal attached to the lower portion of the end of the circulation belt 3 is increased, so that the conveyor While there is an advantage that can be conveniently adjusted the interval of the arrangement (not shown) disposed on the side of the, there is an advantage to reduce the consumption of electrical energy.

Referring to FIG. 2, in the auxiliary magnet device 11, a plurality of permanent magnets 15 are disposed at the center of the casing 13, and the permanent magnets 15 are filled in the resin 17 filled in the casing 13. It is fixed to the casing 13, the lower opening of the casing 11 is covered by a stainless cover 19.

Since the resin 17 is solidified after being filled in the casing 13 in the molten state, the resin 17 may be attached to the casing 13 and the permanent magnet 15 may be fixed to the casing 13 at the same time.

3A and 3B, the permanent magnet 15 has only one polarity. As shown in FIG. 3A, when the permanent magnet has the polarity of the S pole, the casing 13 has the polarity of the N pole. As shown in FIG. 3B, when the permanent magnet 15 has the polarity of the N pole, the casing 13 has the polarity of the N pole, so that there is no repulsive force on the polarity of the magnet body 1.

Referring to FIG. 4, the circulation belt 3 is covered by a plurality of stainless plates 20 so that the ferrous metal, which is pulled up by the electromagnetic force, collides with the stainless plate 20, so that the circulation belt 3 is torn off. Can prevent losing.

The stainless plate 20 is disposed such that the vertical portion of one stainless plate 20a and the vertical portion of another stainless plate 20b disposed on the side of the stainless plate 20a abut on the lower surface of the circulation belt 3. The vertical portion 21 serves as a scraper.

The stainless plate 20 is fixed to the endless belt 3 by bolts or rivets.

Referring to FIG. 5, the stainless plate 20 ′ has a low height h of the vertical portion 21 ′, so that the vertical portion 21 ′ has a stainless plate 20 b different from any one of the stainless plate 20 a ′. It is in close contact. A scraper 25 is mounted on the stainless plate 20 ', and the scraper 25 is fixed to the circulation belt 3 together with the stainless plate 20' by bolts or rivets.

As described above, the magnetic separator for building waste according to the present invention increases the transport distance of ferrous metal that is attached to the lower surface of the circulation belt without increasing the size of the magnet body and the magnetic separator by the auxiliary magnet device. And, the circulation belt is covered by a plurality of stainless plates, there is an effect that can be prevented from tearing the circulation belt by the iron metal attached to the stainless plate.

1 is a schematic view showing a magnetic separator for building waste according to the present invention

FIG. 2 is a cross-sectional view illustrating the auxiliary magnet device of FIG. 1. FIG.

3A and 3B are schematic diagrams illustrating polarities of the magnet body and the auxiliary magnet device of FIG. 1;

Figure 4 is a perspective view showing an example of the endless belt according to the present invention

5 is a perspective view showing another example of the endless belt according to the present invention

Claims (6)

delete delete delete A magnet body 1 having an electromagnetic force is disposed inside the circulation belt 3, and the circulation belt 3 is circulated around the magnet body 1 by the main roller 5 and the auxiliary roller 7. In the magnetic sorting machine for the construction waste, which pulls up the ferrous metal contained in the construction waste to the lower surface of the circulation belt (3) by magnetic force in The circulation belt (3) is a magnetic separator for building waste, characterized in that it is covered by a plurality of stainless plates (20). The method of claim 4, wherein The stainless plate 20 is disposed such that the vertical portion of one stainless plate 20a and the vertical portion of another stainless plate 20b disposed on the side of the stainless plate 20a abut on the lower surface of the circulation belt 3. And, the vertical portion 21 serves as a scraper, magnetic separator for building waste, characterized in that fixed to the circulation belt (3) by bolts or rivets.  A magnet body 1 having an electromagnetic force is disposed inside the circulation belt 3, and the circulation belt 3 is circulated around the magnet body 1 by the main roller 5 and the auxiliary roller 7. In the magnetic sorting machine for the construction waste, which pulls up the ferrous metal contained in the construction waste to the lower surface of the circulation belt (3) by magnetic force in The circulation belt 3 is covered by a plurality of stainless plates 20 ', and the stainless plate 20' has a low height h of the vertical portion 21 ', so that the vertical portion 21' A magnetic force for construction waste, which serves to bring the stainless plate 20a 'into close contact with the other stainless plate 20b, and the scraper 25 is fixed to the circulation belt 3 together with the stainless plate by bolts or rivets. Selector.