JPH07178349A - Magnetic material removing method for nonmagnetic metal separator - Google Patents

Abstract

PURPOSE:To easily remove fragments of a magnetic material stuck on a rotating roller into which a magnetic rum of a nonmagnetic metal separator is incorporated by a simple and inexpensive means to prevent an accident that the surface of the roller is damaged. CONSTITUTION:Fragments of a magnetic material attracted by magnetic force of a magnetic drum 5 consisting of a strong permanent incorporated into a rotating roller 3 of a nonmagnetic metal separator are attracted by a removing means in which a nonmagnetic rod 14 is fitted to an ferromagnetic adhesive tape 13, and moved to the end of the roller by sliding them on the surface of the roller, and removed from the roller at a place where the effect of magnetism is weak.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic substance removal device for efficiently removing a magnetic substance adsorbed on the surface of a magnetic drum of a non-magnetic metal sorting device for sorting non-magnetic metal such as aluminum from municipal solid waste or bulky waste. Regarding the method.

[0002]

2. Description of the Related Art Scraps of municipal waste, bulky waste, automobiles, etc. are roughly classified into magnetic metals such as iron and non-magnetic metals such as aluminum, and combustible and non-combustible substances such as wood chips and plastics. In the case of separating these wastes into small pieces, the pieces are previously crushed into some small pieces, the magnetic material is first removed by a magnetic separator, and then the non-magnetic metal and other materials are sorted by a non-magnetic metal sorting device.

The non-magnetic metal sorting device is generally composed of an endless belt conveyor which is wound between a pair of rotating rollers provided at a predetermined interval. The rotating roller on the downstream side has an N pole and an S pole inside. It has a magnetic drum in which permanent magnets magnetized to are alternately arranged along a depth position of a predetermined thickness from the circumferential surface.

In this non-magnetic metal sorting apparatus, when the non-magnetic metal sent on the belt conveyor approaches the magnetic drum,
An induced electromotive force due to an eddy current is generated inside the metal by the moving magnetic field generated by rotating the magnets of different polarities described above,
Due to the repulsive force due to this, the non-magnetic metal is blown farther than other combustible substances, non-combustible substances and the like.

As a general rule, most of the magnetic material is removed by the magnetic separator before it is sent to the non-magnetic metal sorting device, but if small magnetic material is contained, it is adsorbed on the magnetic drum and the magnetic material is most It is carried to the lower position and drops at the position where the influence of the magnetic drum becomes weaker. The material thus sorted is separated into at least non-magnetic metal and other materials, and is received by the discharge unit and discharged.

[0006]

By the way, the permanent magnet of the magnetic drum is generally a strong magnet using a rare-earth magnet, which sorts out non-magnetic metal, but in the unlikely event that a small magnetic material is sent. As described above, when it comes, it is attracted by the permanent magnet and most of it falls at the lowest position of the drum. However, there is a part of the rotating roller vortex part on the surface of the magnetic drum that does not fall and wraps around and remains adsorbed.

[0007] When the amount of the magnetic substance that remains adsorbed increases,
It may get into the bearing of the rotating roller and cause a failure.Therefore, the sorting device is stopped to remove it.However, since the magnetic flux density of the permanent magnet is large, it must be removed manually. Is extremely difficult and the removal work takes a long time.

As a method for lightening the work of removing the magnetic material, a method is currently used in which an adhesive tape such as gum tape is attached to the adsorbed magnetic material, and auxiliary work such as grasping by hand is added. Has been taken.

However, this method is uneconomical because the adhesive tape used once cannot be reused, and there is a problem that the adhesive tape cannot be attached to a narrow portion where the hand is inaccessible. The magnetic substance of cannot be completely removed.

For this reason, an accident may occur in which the surface of the rotating roller is damaged or the belt is damaged, and the entire apparatus may be forced to stop for a long period of time.

In view of various problems of the above-mentioned conventional non-magnetic metal sorting apparatus, the present invention provides a method for easily removing a magnetic substance attached to a rotating roller of such a sorting apparatus by using a simple auxiliary tool. The challenge is to provide.

[0012]

As a means for solving the above-mentioned problems, the present invention is directed to bringing a ferromagnetic adsorption chip into contact with a rotating roller having a built-in magnetic drum of a non-magnetic metal sorting apparatus and sliding the roller surface to make the roller. The method is to remove the magnetic metal dust from the rotary roller by moving the magnetic metal dust to the end to remove the magnetic material from the non-magnetic metal sorting apparatus.

In this method, it is preferable that the ferromagnetic adsorption tip is a small piece of ferromagnetic metal, a non-magnetic rod is attached to the tip, and a handle is provided at the other end.

Alternatively, the shape of the ferromagnetic adsorption tip,
Different sizes may be attached to both ends of the magnetic rod in the method for removing the magnetic material of the non-magnetic metal sorting device.

[0015]

According to the magnetic material removing method of the present invention, which is the above-described method, a strong magnetic field is formed on the shell surface of the magnetic drum of the non-magnetic metal sorting device by the internal permanent magnet band.
Since this magnetic field is formed by the permanent magnet bands arranged so that the polarities of the adjacent magnetic poles are different from each other, the magnetic gradient in the vicinity of the shell surface is much larger than that of a normal magnetic separator. For this reason, the following magnetic force Fm acts on the magnetic small piece adsorbed on the shell surface.

Fm = V · M · H (dH / dx) (1) Where, V: volume of magnetic material small piece M: magnetic material small piece magnetic susceptibility H: strength of magnetic field dH / dx: magnetic gradient Due to the structure, there is a gap of at least about 10 m / m between the inner permanent magnet band and the shell surface, so that the absolute magnetic field and magnetic gradient on the surface are lower than those on the magnet surface.

On the other hand, when the ferromagnetic attraction tip approaches the surface of the shell, the ferromagnetic attraction tip itself is attracted to the inner permanent magnet band, and the magnetic flux near the surface is collected to reach its saturation value of 18,000 to 20,000 Gauss. Easy to reach.

Therefore, at that time, the magnetic piece adsorption force Fe on the surface of the ferromagnetic adsorption chip is Fe = V.M.H (dH / dx) e ... (2) (dH / dx) e: ferromagnetic adsorption It is the magnetic gradient on the surface of the chip.

The magnetic gradient dH / dx in (1) is a value when in air (permeability is about 1), and the magnetic gradient (dH / dx) e in (2) is a high magnetic permeability material (permeability of about 1).
0000).

Therefore, Fm << Fe due to dH / dx << (dH / dx) e.

Therefore, when the ferromagnetic adsorption tip is brought into contact with the surface of the magnetic drum of the non-magnetic metal sorting apparatus according to the present invention so that the shell surface is slidably moved, all the magnetic particles on the shell surface are adsorbed to the adsorption tip side. , Will be removed.

[0022]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory diagram of a magnetic material removing method of the embodiment. The non-magnetic metal sorting apparatus 1 includes a belt conveyor 3 that feeds the shredded dust that is thrown in from the throw-in port of the hopper 2 at a predetermined speed. The belt conveyor 3 is composed of an endless belt that is wound around a pair of rotating rollers 4 and 4 provided at a predetermined interval, and a magnetic drum 5 is built in the rotating roller 4 on the downstream side thereof.

The magnetic drum 5 is provided with N-pole and S-pole permanent magnets alternately arranged along the circumference. The permanent magnets are generally strong magnets using rare earth magnets and having a large magnetic flux density.
The rotating roller 4 including the magnetic drum 5 is driven by the rotational force of the motor 7 transmitted by another belt 6.

At the downstream rear side of the rotary roller 4, there is a discharge section 12 provided with a sorting section 11 composed of a chevron partition 9 and a partition plate 10.
Is provided. The partition plate 10 is installed so as to be freely rotatable by a horizontal rotating shaft 10a, and sorts the discharged dust into at least non-magnetic metal and other waste, and discharges it through the discharge port 1
2a and 12a 'are discharged respectively.

The non-magnetic metal sorting apparatus having the above-mentioned structure is a conventional general apparatus, and the sorting method will be briefly described. The dust introduced from the input port of the hopper 2 has been crushed to a certain size in advance, and after the input, it is sent by the belt conveyor 3 at a predetermined speed.

There are non-magnetic metals and other combustible materials such as wood chips and plastics, and other materials such as non-combustible materials as the components contained in the trash, but most of the magnetic substance components have been removed in advance by a magnetic separator. , It is not contained in a large amount, but may contain a very small amount.

The dust sent by the belt conveyer at a predetermined speed falls along the parabola A ₀ due to its own weight for the other dust, but for the non-magnetic metal, the repulsive force by the magnetic drum 5 is blown away to another place. Draw a parabola A ₁ and fall.

When a non-magnetic metal comes close to the N-pole and S-pole permanent magnets of different polarities of the magnetic drum 5 on the belt conveyor 3, an action of the permanent magnet causes an induced electromotive force due to an eddy current in the non-magnetic metal. The repulsive force of this causes non-magnetic metal to fly farther than others.

In this way, the non-magnetic metal sorting apparatus is
The non-magnetic metal is sorted out from the others, but at that time, a small amount of small magnetic material pieces may be included in the dust, and these magnetic material pieces are part of the rotating roller containing the magnetic drum 5. It may be adsorbed and enter the surface of the rotating roller, the bearing portion or the like to damage the rotating roller or the like.

In this embodiment, the ferromagnetic attraction tip 13 is attached to the non-magnetic rod 14 in order to remove the minute magnetic particles attached to the rotary roller 4. An example of the structure of the suction tip 13 is shown in FIGS.

The size of the ferromagnetic adsorption tip 13 in FIG. 2 needs to be changed depending on the size of the magnetic material piece to be removed, but normally it is 30 to 50 m / m and the thickness is 2 to 2.
4m / m is preferable. FIG. 2B shows a non-magnetic rod 14 with ferromagnetic adsorption tips 13 having different shapes attached to both ends thereof.

This is designed so that iron objects of different sizes can be removed by the device body according to the present invention. It is necessary to arbitrarily select the shape of the ferromagnetic adsorption tip 13.

When the ferromagnetic attraction tip 13 is pressed against the shell surface of the magnetic drum of the non-magnetic metal sorting device, the ferromagnetic attraction tip 13 is magnetized by the internal magnet band. Since this ferromagnetic attraction chip 13 is a high magnetic permeability material, the magnetic gradient in the vicinity of its surface becomes extremely large. Therefore, the non-magnetic metal adsorbed on the shell surface near the ferromagnetic adsorption tip 13 is strongly adsorbed on the ferromagnetic adsorption tip 13.

When the non-magnetic rod 14 is pulled, the small piece of non-magnetic material adsorbed on the surface of the ferromagnetic adsorption tip 13 at the tip also moves together and can be pulled out of the magnetic field area of the permanent magnet inside the shell.

[0035]

As described above in detail, in the magnetic substance removing method of the first invention, the adsorption tip is brought into contact with the rotating roller to adsorb the small magnetic substance piece, and the roller surface is moved to be removed from the roller surface. Therefore, according to the present invention, it is possible to easily remove the magnetic material pieces adsorbed on the shell surface of the magnetic drum of the non-magnetic metal sorting device without adding new energy from the outside, and There is an advantage that it is possible to easily avoid the possibility of a serious accident such as damage to the belt and stopping the entire line for several days.

In the second invention, a non-magnetic rod is attached to the suction tip, and the magnetic chip can be easily removed by manually operating the suction tip, and the method of the first invention can be easily carried out. .

In the third aspect of the invention, since the adsorption tips having different shapes and sizes are attached to both ends of the non-magnetic rod, the size suitable for either end can be selected according to the size of the symmetrical magnetic piece to be removed. It is even more convenient if an adsorption tip is used.

[Brief description of drawings]

FIG. 1 is an explanatory view of a method for removing a magnetic substance from a non-magnetic substance metal sorting device.

FIG. 2 is a schematic view of a magnetic substance removing means of an embodiment

[Explanation of symbols]

 1 Non-Magnetic Metal Sorting Device 2 Hopper 3 Belt Conveyor 4 Rotating Roller 5 Magnetic Drum 6 Belt 7 Motor 9 Mountain Divider 10 Partition Plate 11 Sorting Unit 12 Ejection Unit 13 Ferromagnetic Adsorption Tip 14 Non-Magnetic Rod

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Akio Takahashi 2-35 Jimmucho, Yao-shi Kubota Co., Ltd. Hohoji Factory

Claims (3)

[Claims] 1. A magnetic metal dust is removed from a rotating roller by bringing a ferromagnetic adsorption tip into contact with a rotating roller having a built-in magnetic drum of a non-magnetic metal sorting device and sliding the roller surface to move it to the roller end. A method for removing a magnetic substance in a non-magnetic metal sorting device comprising. 2. The non-magnetic metal according to claim 1, wherein the ferromagnetic adsorption tip is a small piece of ferromagnetic metal, a non-magnetic rod is attached to the tip, and a handle is provided at the other end. Method of removing magnetic material of sorting device. 3. The non-magnetic metal according to claim 1, wherein the ferromagnetic adsorption tips having different shapes and sizes are attached to both ends of the magnetic rod for removing the magnetic material in the non-magnetic metal sorting production. Method of removing magnetic material of sorting device.