KR200234312Y1 - Electromagnet separator - Google Patents

Abstract

The present invention is rotatable with an electromagnet sorter that can select a paramagnetic material from among contents that may contain particulate paramagnetic material in the process of processing or producing particulate or powdery raw materials for industrial raw materials. It is an electromagnet sorter that can easily separate paramagnetic material by attraction force with electromagnet by contacting the cylindrical electromagnet surface with a part of the contents stored in the hopper on the cylindrical electromagnet surface.

Description

Electromagnet selector {omitted}

The present invention relates to an electromagnet sorter capable of selecting magnetic bodies contained in powder or particle state.

Paramagnetic, for example, iron, the most common metal in our lives, is a very common element, widely present as fine particles.

In addition, iron is used throughout the industrial sites, and is used as a key material from steel structures, machinery, and parts, and it is also used as an important industrial alloy in combination with other elements. When processing or producing pure powders or granular products (ferrets, etc.) as raw materials with mechanical devices containing iron components, such as corrosive materials due to aging of machinery or physical kinetic energy of machinery, There was a problem that the fine particles separated from the device is added to the raw material, processed together and proceeded up to the packaging, without any special measures.

When grain is used as raw material, it is passed through the masonry machine and iron component is removed by contact with electromagnet, and in order to obtain powder state, the raw material is passed through magnetic field to select the iron component and transferred to the next process to obtain the pure content of powder. After the packaging is finally finished and passed through a metal detector to be detected by the metal detector, a method of screening a package containing iron is common in industrial sites.

However, limitations are limited by the particle size of paramagnetic bodies that can be detected by metal detectors, reducing the reliability of the product, providing an environment in which the metal detector can function, the cost of purchasing expensive metal detectors, and finally packaged products. The iron-based detection method can be a factor that deteriorates the competitiveness of industrial sites.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an electromagnet sorter capable of effectively selecting paramagnetic particles such as fine iron contained in powder or granular products.

1 is an exploded view of an electromagnet sorter of the present invention.

2 is a perspective view of an electromagnet sorter of the present invention.

Figure 3 is a perspective view from another side of the present invention.

Figure 4 is a side cutaway view showing the principle of the present invention to select the electromagnet.

5 is an electric supply circuit diagram of the present invention.

Figure 6 is an iron core of another shape that can be used in the present invention.

* Description of the symbols used in the main parts of the drawings *

10: support frame 11: stand

13: Solenoid fixing screw 15: Groove

20: motor 21: gearbox

21, 25: Pulley 27: belt

50: iron core 51: iron core shaft

53: solenoid 55: coil

57: removal film 59: induction plate

100: adhesive

In order to achieve the above object, the electromagnet sorter according to the present invention, the iron core 50 constituting the electromagnet is made of a cylindrical shape having a predetermined length, the solenoid 53, the side of the iron core 50 Is inserted and the solenoid 53 is fixed and supported by the iron core 50 and the play and the iron core 50 is rotatable by receiving the drive of the motor 20, the iron core 50 of the other one cylindrical surface of the hopper Part of the loaded raw material 110 of 100 is rotated in contact with the upper surface of the iron core (50) cylinder, the paramagnetic material of the iron component is the iron core 50 is 180 ° by the force of mutual attraction on the surface of the iron core (50) Even if it is rotated above, it is separated from the iron core 50 and cannot fall freely, and it is an electromagnet sorter which can separate the pure contents by the removal film 57 separately.

Hereinafter, with reference to the accompanying drawings, it will be described in detail the electromagnet sorter according to the present invention.

1 is an exploded view of an electromagnet sorter of the present invention,

2 is a perspective view of an electromagnet sorter of the present invention,

3 is a perspective view of another side with respect to FIG.

Figure 4 is a side view of the screening action of the present invention,

5 is an electrical circuit diagram of the present invention;

Figure 6 is another state diagram of the iron core constituting the electromagnet of the present invention.

Referring to the drawings,

The electromagnet sorter is composed of a solenoid 53 and an iron core 50 constituting the frame as the support frame 10 and the mount 11 and constituting the electromagnet, while one side of the iron core 50 is inserted into the solenoid 53. The end is fixed to the support frame 10 and the other end of the iron core 50 is fixed to the support frame 10 while being coupled to the pulley 23 to the outside of the support frame 10 and fixed to the support frame 10 ( 20) and the gearbox 21 and the pulley 23 in combination to transmit the rotational power by means such as the belt 27 is configured to rotate the iron core 50.

At this time, the iron core 50 and the solenoid 53 is preferably supported by the side of the groove 15 of the solenoid 53 with the solenoid fixing screw 13 so that the iron core 50 can be rotated smoothly.

That is, only the iron core 50 is rotated, the shape may be configured as a whole cylindrical in consideration of the magnetic field properties.

It is preferable to supply DC power to the coil 55 of the solenoid 53.

In the structure as described above, when a current is applied to the solenoid 53 coil 55, a magnetic field is generated, and the magnetic field has a strong magnetic force by the iron core 50.

Because of this

As shown in the screening action shown in Figure 4,

Iron core 50 rotates with a strong magnetic force.

At this time, when the contents stored in the hopper 100 or the contents transferred from the other transport device is moved along the direction of rotation while in contact with the surface of the iron core 50 against gravity,

The pure contents 111 start free fall under the influence of gravity and finally guide to the packaging process or the next process under the guidance of the guide plate 59. However, the contents 112 including the iron component are continuously attached to the surface of the magnetic core 50 having a magnetic property and continue to rotate so that the contents 112 can be separated from the surface of the iron core 50 by the removal film 57.

At this time, the removal film 57 should be in direct contact with the surface of the iron core 50, the hopper 100 should only send out the contents in the direction in which the iron core 50 rotates, the actual contents of the iron core 50 ( It is preferred that the jaw be formed to prevent the contents from moving to both edges at the surface to which the 110 contacts.

Since the actual effective length or width and the rotational speed (rpm) of the iron core 50 that can be screened depend on the amount that can be screened per unit time, when the amount of the content to be processed is large, it is shown in FIG. As the solenoid 53 and the iron core 50 is a plurality of, considering the strong magnetic field on the edge of the iron core 50 may be used to combine the positive pole of the iron core 50 with the adhesive 1000.

In this case, it is preferable that the poles close to the poles have mutual attraction.

5 shows an electric circuit of the present invention,

DC power through the converter to the solenoid 53 and AC power, which is commercial power, may be used to add a circuit that can change the rotational speed (rpm) of the motor.

As such, the present invention has been described with reference to one embodiment shown in the drawings, but this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. will be.

The electromagnet sorter having the structure as described above can effectively remove and remove paramagnetic particles such as fine iron contained in powder or particle state, thereby improving the quality of a product manufactured using the powder or particles.

Claims (2)

An electromagnet selector, comprising: an electromagnet structure in which cylindrical iron cores 50 are inserted and rotated in solenoids 53 supported on a frame, respectively; Rotating the iron core 50 by means of the motor 20, the gear box 21 installed on one side of the frame; Electromagnet separator characterized in that the iron component in contact with the surface of the iron core (50) can be removed and removed through the removal plate (57). The electromagnet sorter according to claim 1, wherein the electromagnets can be bonded in two to increase the treatment capacity.