JPH0975903A - Device and method for recovering magnet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To lower the intrusion of magnets into iron to be recovered by providing the downstream side of a crushing stage with a classifying and recovering stage for classifying and recovering the magnets included in used household electrical appliances in the stage of crushing the household electrical appliances, then recovering metals from the crushed materials. SOLUTION: The crushed materials 1 in a hopper 2 are delivered from the lower part and roll down on a slope 3 when the crushed materials 1 of the used household electrical appliances are charged into this hopper. This slope 3 is formed of an aluminum sheet of a blank to which the magnets do are attracted and adhered. A metallic roll 4 which its surface made of steel is installed thereon and is rotated in a direction reverse from the falling direction of the crushed materials 1. As a result, the crushed materials 1 on the slope 3 come into contact with the roll 4 surface and the magnets are attracted to the roll 4 and are pulled upward together with the rotation of the roll 4. The magnets are separated from the roll 4 by a scraper 5 and are recovered into a container 6. The crushed materials which are not attracted are recovered into a container 7 and are transferred to an iron recovering stage.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for separately collecting magnets used in used electric appliances, etc., and relates to separate collection and recycling of waste.

[0002]

2. Description of the Related Art Various methods for recycling electric appliances such as used home electric appliances have been proposed. For example, Japanese Patent Laid-Open No. 5-1470
As seen in Japanese Patent Publication No. 4, a system has been proposed in which a material to be crushed is previously removed from a material to be crushed in a pretreatment step and then crushed by a crusher to separately collect metals, foaming agents, plastics and the like. In this system, electric appliances can be crushed and iron, copper, aluminum, foaming agents, various plastics, etc. can be separated and collected to facilitate recycling.

[0003]

In the conventional crushing / separating and collecting system for electric appliances and the like, it has been a problem to establish a method for collecting magnets used for fixing motors and doors of refrigerators. If the magnet is directly introduced into the crushed and separated collection process of the used electric appliances, it will be mixed in the separated collection process of iron or adhered to the steel member in the equipment to be difficult to collect. Therefore, when crushing used electric appliances, it is necessary to manually remove the magnet in advance, which is a factor of lowering processing efficiency.

The present invention is intended to solve the above-mentioned problems by providing a magnet recovery device and method corresponding to a crushed and separated recovery system for electric appliances and the like.

[0005]

[Means for Solving the Problems] Means for solving the above-mentioned problems are as follows, after crushing used electric appliances in a crushing process,
In a system for recovering at least iron from an object to be crushed in a separation recovery process, by using an apparatus and method in which a separation recovery process for magnets contained in electrical appliances is provided downstream of the crushing process and upstream of the iron separation recovery process. is there.

[0006] In the recycling system for used electric appliances, in the pretreatment step, those which are inappropriate to be crushed, such as freon and oil, are removed, and then the electric appliances are decomposed or crushed by the crushing step and the sorting step. Valuable materials will be collected and reused from the crushed materials. In particular, metals such as iron, copper, and aluminum can be reused more easily than plastics and urethanes, and the higher the purity at the time of recovery, the more advantageous the recycling.

Among the above-mentioned systems, iron is separated and collected,
Using an electromagnet to suck and recover iron from crushed electrical appliances,
Magnetic sorting methods can be used. By the way, if magnets are mixed in this magnetic sorting process, they will be separated and collected together with iron. However, at that time, it is extremely difficult to remove the magnet attached to the iron.

As a result of a detailed examination of each step of the recycling system for used electric appliances, the present inventors have found that, as shown in FIG. 1, it is located downstream of the pretreatment / crushing step and upstream of the iron fraction recovery step. , It was found that the separation of the magnets contained in the electric appliances can be separated to reduce the mixture of magnets into the recovered iron, and the recycling efficiency can be achieved without lowering the processing efficiency of the entire system.

When the magnet separation and collection process is installed upstream of the crushing process, it is necessary to separate and collect the magnets from electric appliances of various shapes before crushing, which makes automatic processing difficult and requires manual labor. I have no choice. However, it is not preferable to newly provide a manual process because it causes a reduction in the efficiency of recycling of used electric appliances.
On the contrary, when it is installed downstream of the iron separation and recovery process, it is necessary to remove the magnet attracted to the iron.
This is also technically difficult and is not preferable.

The system according to the present invention described above does not depend on the method of crushing used electric appliances. Any crushing method can be used as long as the magnet is crushed and separated from the used electric appliances and separated from other crushed materials. The crushing process consists of coarse crushing and secondary crushing.
It can be carried out in stages and is independent of the type of crusher. Similarly, it does not depend on the method for separately collecting iron from the crushed material.

The above-mentioned method according to the present invention can also be applied to a used electric appliance recycling system having a step of separately collecting copper and aluminum. For the separation and recovery of copper and aluminum, it is possible to use a method of separating by the difference in the specific gravity of the metal or a method of separating by the electromagnetic force generated by generating an eddy current inside the metal with a magnetic force. Even when a magnet is mixed, the purity of the recovered metal is lowered as in the case of iron, which is not preferable. By installing the magnet recovery process of the present invention downstream of the crushing process and upstream of the copper and aluminum separation recovery process, it is possible to reduce the amount of magnets mixed in the recovered copper and aluminum and to recover efficiently. Becomes

Various methods can be used for the magnet recovery step. In the first method, a rotating roll having a surface made of a metal such as iron that can be attracted by a magnet, for example, is installed downstream of the crushing process and upstream of the iron separation and recovery process to remove the crushed product from the roll. This is a method of bringing the magnets into contact with each other to attract and attach the magnets, and then mechanically separating and collecting the attracted deposits. At least a part of the surface of the roll needs to be a metal that can be attracted to the magnet, and for example, a roll made of steel can be used. The roll is rotated to bring the crushed material into contact with the surface, collect only the magnet attracted and adhered to the surface, and the material not adhered is circulated to the downstream processing step. After that, the magnets collected on the rolls are mechanically separated and collected.

As a method for mechanically separating and recovering the magnet from the roll, for example, a method of separating the magnet from the roll by using a plate made of a component such as plastic or aluminum that is not attracted to the magnet can be used.

Various methods can be used for the method of contacting the rotating roll and the crushed product of the electric appliance.

A rotating roll is installed in the vicinity of the conveying path by the belt conveyor to suck and collect the magnets, or a place where the crushed material falls on the inclined surface is provided on the conveying path, and the roll is installed in the middle of the inclined surface. It is possible to suck and collect the magnet. Further, at that time, by controlling the supply amount of the crushed material to be constant per time, it is possible to further improve the separation efficiency of the magnet.

The second method used in the magnet recovery step is the downstream of the crushing step and the upstream of the iron fraction recovery step.
The method is characterized in that a sieve made of a metal whose surface can be attracted to a magnet is installed, the sieve is brought into contact with a crushed product of an electric appliance to attract and attach a magnet, and then the attracted deposit is mechanically separated and collected. A device and method for collecting magnets from used electric appliances. For example, a sieve having a steel net can be used. It is possible to use one having a different mesh size according to the application, or to use a plurality of sieves together.

[0017]

In the apparatus and method according to the present invention, a magnet capable of attracting a magnet, such as iron, is placed in the flow path of a crushed product of an electric appliance and brought into contact therewith, whereby only the magnet is attracted and recovered. At that time, the flow rate of the crushed material can be controlled to further improve the recovery efficiency.

[0018]

【Example】

Embodiment 1 Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 2 is a principle explanatory diagram when the magnet recovery device of the present invention is applied to a used electric appliance recycling system.

The crushed material 1 of used home electric appliances is put into a hopper 2. The crushed material 2 in the hopper is discharged from the lower part and rolls and falls on the slope 3. The amount of crushed material discharged from the hopper was set to be almost constant per hour. An aluminum plate, which is a material to which the magnet is not attached by suction, is used on the slope. A metal roll 4 having a steel surface is installed on the slope, and the slope is rotated in the direction opposite to the falling direction of the crushed material. The angle α between the metal roll and the slope was 45 degrees, and the gap 5 between the roll and the slope was made as small as possible.

The crushed material rolling down on the slope contacts the surface of the roll, the magnet attracts the roll, pulls it up as the roll rotates, separates it from the roll by the scraper 6, and collects it in the container 7.

Since the crushed materials other than the magnet are not sucked by the roll, the sloping surface rolls down along the surface of the roll, is collected in the container 8, and is further transferred to the iron collecting step downstream.

By the above method, the magnet in the crushed material of the used electric appliance can be recovered before the iron recovery step, and the amount of magnet mixed in the recovered iron scrap can be reduced.

Embodiment 2 FIG. 3 is a diagram for explaining the principle of the apparatus in which the metal roll of FIG. 2 is embedded in the slope.

The crushed used home appliances are discharged from the lower part of the hopper 2 and roll on the slope 3 and fall as in the first embodiment. The metal roll 4 made of steel is rotated in the direction of the arrow on the slope while being partially embedded in the slope. The angle α between the metal roll and the slope was 45 degrees, and the gap A between the roll and the slope was made as small as possible.

The crushed material rolling down on the slope comes into contact with the surface of the roll, and the magnet attracts and adheres to the roll. Further, it is pulled up as the roll rotates, separated from the roll by the scraper 5, and then collected in the container 6.

Since the crushed material other than the magnet is not sucked by the roll, it rolls down the slope along the surface of the roll and is collected in the container 7.

By the above method, the magnet in the crushed material of the used electric appliance can be recovered before the iron recovery step, and the amount of magnet mixed into the recovered iron scrap can be reduced. Further, by embedding the roll in the slope, the magnet can be efficiently collected even when the particle size of the crushed material is small.

Embodiment 3: An embodiment of the present invention will be described below with reference to FIG.

The crushed used home appliances are discharged from the lower part of the hopper 2 as in the first embodiment, and roll down on the belt conveyor 8 to fall. The surface of No. 8 was made of steel to which a magnet could be attached by suction, and the angle of the slope was 30 degrees with respect to the horizontal plane.

Of the crushed material that has rolled down on the belt, the magnet attracts and adheres to the belt. Further, the belt is pulled up as the belt rotates, separated from the belt by the scraper 5, and then collected in the container 6. The crushed materials other than the magnet are collected in the container 7.

[0031]

INDUSTRIAL APPLICABILITY The apparatus and method according to the present invention crushes used electric appliances and the like, and collects magnets and then separates metals such as iron, so that the magnets are recovered even when the magnetic separation method is applied. There is no danger of mixing with metal.

[Brief description of drawings]

FIG. 1 is a flow chart showing an embodiment of a system according to the present invention.

FIG. 2 is a perspective view showing an embodiment of the device according to the present invention.

FIG. 3 is a perspective view showing an embodiment of the device according to the present invention.

FIG. 4 is a perspective view showing an embodiment of the device according to the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Crushed used electrical appliances, 2 ... Hopper, 3 ... Slope (aluminum), 4 ... Steel roll, 5 ... Scraper, 6 ... Magnet recovery container, 7 ... Crushed material recovery container, 8 ... Belt conveyor.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Yuichi Yamamoto Inventor Yuichi Yamamoto 794 Azuma Higashitoyo, Shimomatsu City, Yamaguchi Prefecture Hitachi Techno Engineering Co., Ltd. Kasado Plant (72) Inventor Takeshi Nemoto 2-9 Misaki-cho, Chiyoda-ku, Tokyo −18 In Hitachi System Technology Co., Ltd. (72) Inventor Nobutaka Michida 2-9 Misaki-machi, Chiyoda-ku, Tokyo 2-18 In Hitachi System Technology Co., Ltd. (72) Tsutomu Hasegawa 4th Kanda Surugadai, Chiyoda-ku, Tokyo 6 In Hitachi Ltd. (72) Inventor Chihiro Fukumoto 4-6, Kanda Surugadai, Chiyoda-ku, Tokyo Inside Hitachi Ltd. (72) Inventor Masakatsu Hayashi, 502 Kintachimachi, Tsuchiura City, Ibaraki Prefecture In the Mechanical Research Laboratory (72) Inventor Yoshiyuki Takamura 794 Azuma Higashi-Toyoi, Kudamatsu City, Yamaguchi Prefecture Stock Company Hitachi Ryuto in the factory

Claims (12)

[Claims] 1. A system for recovering metals from a crushed material after crushing a used electrical appliance, wherein the above-mentioned electrical appliances are provided on the downstream side of the crushing step and on the upstream side of the metal recovering step. A method for collecting magnets from used electric appliances, which comprises a separate collection process for separately collecting the included magnets. 2. A used electric appliance, comprising: contacting the crushed material with a metal that can be attracted to the magnet in the magnet separation and recovery step according to claim 1 to attract and recover the magnet in the crushed material. Magnet recovery method. 3. A system for recovering at least iron from an object to be crushed in a fractional recovery step after crushing a used electrical appliance in the crushing step, the surface of which is a magnet downstream of the crushing step and upstream of the iron fractional recovery step. A use characterized in that a rotating roll made of a metal capable of being sucked is installed in the roll, the roll and the crushed product of an electric appliance are brought into contact with each other to attract and attach a magnet, and then the attracted deposit is mechanically separated and collected. How to recover magnets from used electrical appliances. 4. The method for collecting magnets from a used electric product according to claim 3, further comprising a step of controlling a supply amount of the crushed electric products to a rotating roll. 5. A system for recovering at least iron from an object to be crushed in a fractional recovery step after crushing a used electrical appliance in the crushing step, wherein a surface is a magnet downstream of the crushing step and upstream of the iron fractional recovery step. A used sieve characterized in that a sieve made of a metal capable of being sucked is installed, the crushed material of an electric appliance is brought into contact with the sieve to attach a magnet by suction, and then the attached deposit is mechanically separated and collected. How to recover magnets from electrical appliances. 6. A system for recovering at least iron from an object to be crushed in a separation recovery process after crushing a used electrical appliance in a crushing process, wherein a surface is a magnet downstream of the crushing process and upstream of the iron separation recovery process. After installing a belt conveyor made of metal that can be attracted to, after contacting the conveyor and crushed electrical appliances to attract and attach a magnet,
A method for recovering a magnet from a used electric appliance, characterized in that the suction deposit is mechanically separated and recovered, and the remaining crushed material is recovered downstream. 7. A system for recovering metals from a crushed material after crushing used electrical appliances, in a downstream side of a crushing place for performing the crushing and an upstream side of a collecting place for recovering the metals. A method for collecting magnets from used electric appliances, characterized by comprising a separate collecting means for separating and collecting magnets contained in the electric appliances. 8. A used electric appliance characterized in that the crushed material is brought into contact with a metal which can be attracted to the magnet in the magnet separation and recovery means according to claim 7, and the magnet in the crushed material is suctioned and recovered. Magnet recovery method. 9. A system for recovering at least iron from an object to be crushed in a fractional recovery step after crushing used electrical appliances in a crushing step, wherein a surface is a magnet downstream of the crushing step and upstream of the iron fractional recovery step. A use characterized in that a rotating roll made of a metal capable of being sucked is installed in the roll, the roll and the crushed product of an electric appliance are brought into contact with each other to attract and attach a magnet, and then the attracted deposit is mechanically separated and collected. A magnet recovery device from used electrical appliances. 10. The magnet recovery device according to claim 9, further comprising means for controlling a supply amount of the crushed electrical products to the rotating roll. 11. A system for recovering at least iron from an object to be crushed in a fractional recovery step after crushing a used electrical appliance in the crushing step, wherein a surface is a magnet downstream of the crushing step and upstream of the iron fractional recovery step. A used sieve characterized in that a sieve made of a metal capable of being sucked is installed, the crushed material of an electric appliance is brought into contact with the sieve to attach a magnet by suction, and then the attached deposit is mechanically separated and collected. A magnet recovery device from electrical appliances. 12. A system for recovering at least iron from an object to be crushed in a fractional recovery step after crushing a used electrical appliance in the crushing step, wherein a surface is a magnet downstream of the crushing step and upstream of the iron fractional recovery step. After installing a belt conveyor made of metal that can be attracted to, after contacting the conveyor and crushed electrical appliances to attract and attach a magnet,
A magnet recovery device from used electric appliances, characterized in that the suction deposits are mechanically separated and recovered, and the remaining crushed products are recovered downstream.