JP2006075793A - Crushing method and facility of waste material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a crushing method and facility of a waste material capable of appropriately crushing a waste material without wastefully removing a usable material while preventing the damage to a crusher and avoiding the lowering in operating rates when crushing the waste material into a predetermined size by the crusher. <P>SOLUTION: A weak magnetism sorting machine 3 which is set at low sensitivity with respect to the waste material supplied sorts and separates lightweight magnetic materials which are easily crushed by a crusher 5, and supplies the easily crushable magnetic materials to the crusher 5. At the same time, a strong magnetism sorting machine 4 which is set at high sensitivity with respect to the waste materials whereafter the easily crushable magnetic materials are sorted and separated, removes heavy magnetic materials which are hard to crush with the crusher 5, and the waste material from which the hardly crushable heavy magnetic materials are removed is supplied to the crusher 5. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a crushing method and equipment for crushing waste into a predetermined size.

When recycling waste, for example, when producing solid waste fuel (RDF) from waste (general waste) that comes from ordinary households, including paper, plastic, cloth, wood chips, firewood, metal, etc. An object is finely crushed into a predetermined size by a crusher (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 10-46165

  When the waste is finely crushed into a predetermined size by a crusher with a blade having a narrow blade width (for example, a blade width of about 25 mm), the heavy irons that are difficult to crush into the waste by the crusher ( For example, if bolts, nuts, iron pipes, etc.) are included, there is a risk of damaging the crusher. Moreover, an operation rate will fall for repair of a crusher. Therefore, before crushing with a crusher, it is conceivable to remove heavy irons that are difficult to crush from waste with a magnetic separator beforehand. Thin cans, irons attached to clothes, etc.) are unnecessarily sensed, and there is a problem that a large amount of flammable useful substances are unnecessarily removed. On the other hand, if the sensitivity (magnetic force) of the magnetic separator is lowered, the heavy irons that are difficult to crush cannot be removed, and the crusher cannot be damaged.

  The present invention has been made in view of the circumstances as described above, and when crushing waste to a predetermined size by a crusher, while preventing damage to the crusher and avoiding a decrease in operating rate, An object of the present invention is to provide a waste crushing method and equipment capable of appropriately crushing waste without wastefully removing useful materials.

  In order to solve the above problems, the present invention has the following features.

[1] A weak magnetic separation process for separating lightweight magnetic materials from waste,
A strong magnetic force sorting step for separating heavy magnetic materials from the waste from which light magnetic materials have been separated in the weak magnetic force sorting step;
A waste crushing method comprising: a crushing step of crushing the lightweight magnetic material separated in the weak magnetic force sorting step and the waste from which the heavy magnetic material is removed in the strong magnetic force sorting step.

[2] A strong magnetic force sorting step for separating magnetic materials from waste,
A weak magnetic force sorting step for separating a lightweight magnetic material from the magnetic material separated in the strong magnetic force sorting step;
A waste crushing method comprising: a crushing step of crushing the waste from which the magnetic material has been separated in the strong magnetic force sorting step and the lightweight magnetic material separated in the weak magnetic force sorting step.

[3] Weak magnetic force sorting means for separating lightweight magnetic material from waste,
A strong magnetic force separating means for separating heavy magnetic material from waste from which light magnetic material is separated by the weak magnetic force separating means;
A waste crushing facility comprising: a lightweight magnetic material separated by the weak magnetic force sorting means; and a crushing means for crushing the waste from which the heavy magnetic material is separated by the strong magnetic force sorting means.

[4] Strong magnetic force sorting means for separating magnetic materials from waste,
Weak magnetic force sorting means for separating the light magnetic material from the magnetic material separated by the strong magnetic force sorting means,
A waste crushing facility, comprising: crushing means for crushing the waste from which the magnetic material is separated by the strong magnetic force sorting means and the lightweight magnetic material separated by the weak magnetic force sorting means.

  In addition, the said subject is also solved by the following means.

[5] Magnetic separation process for separating magnetic material from waste,
A crushing step of crushing the waste from which the magnetic material has been separated in the magnetic separation step;
A waste crushing method comprising: a sorting step of sorting magnetic material from waste after mixing the magnetic material separated in the magnetic sorting step and the waste crushed in the crushing step.

[6] Magnetic separation means for separating magnetic material from waste,
Crushing means for crushing the waste from which the magnetic material is separated by the magnetic force sorting means;
A waste crushing facility, comprising: a sorting unit that sorts the magnetic material from the waste after mixing the magnetic material separated by the magnetic sorting unit and the waste crushed by the crushing unit.

  In the present invention, the magnetic material that is difficult to crush is separated from the waste in advance, and the crusher is used to crush waste that does not contain magnetic material that is difficult to crush. The waste can be appropriately crushed while preventing the above.

  As an embodiment of the present invention, the present invention is applied to the production of solid waste fuel (RDF) from waste (general waste) including paper, plastic, cloth, wood chips, firewood, metal, etc. This will be described as an example.

(First embodiment)
A first embodiment of the present invention will be described with reference to FIGS.

  FIG. 1 is a flowchart of crushing processing in this embodiment, FIG. 2 is a layout diagram of crushing equipment used in this embodiment, FIG. 2 (a) is a side view, and FIG. 2 (b) is FIG. It is an AA arrow directional view.

  As shown in FIG. 2, the crushing equipment used in this embodiment includes a receiving hopper 1 for receiving the general waste stored in the garbage bag, a garbage bag storing the general waste, and a bag from the garbage bag. A bag-breaking machine 2 for roughly crushing the taken-out waste (blade width is about 50 mm), a weak magnetic separator 3 for sorting and separating predetermined magnetic substances from the roughly crushed waste, and a primary magnetic force A strong magnetic separator 4 for separating and separating magnetic substances from waste that has passed through the sorter 3 and a crusher 5 (the blade width is about 25 mm) for finely crushing the waste into a predetermined size are provided. .

  Further, the waste material taken out from the garbage bag by the bag breaker 2 and roughly crushed, the supply conveyor 11 for supplying the weak magnetic separator 3 and the strong magnetic separator 4 and the weak magnetic separator 3 to sort and separate the waste. Bypass supply chute 12 for bypassing the strong magnetic separator 4 to supply the magnetic material to the crusher 5, and supplying the waste from which the magnetic substance has been separated by the strong magnetic separator 4 to the crusher 5 A supply chute 13 for discharging, a discharge chute 15 for discharging the magnetic material sorted and separated by the strong magnetic separator 4, and a waste material crushed by the crusher 5 for conveying to a dryer (not shown). And a crushed material transport conveyor 14.

  The weak magnetic separator 3 sorts and separates light magnetic materials (easy to crush lightweight magnetic materials) that can be easily crushed by the crusher 5, such as thin cans and irons attached to clothes, A magnetic material such as a nut or an iron pipe that is difficult to be crushed by the crusher 5 (a magnetic material that is difficult to crush) is passed through as it is, and the magnetic force is reduced and the sensitivity is set low.

  Further, the strong magnetic separator 4 is set to have higher sensitivity and higher sensitivity than the weak magnetic separator 3 so that the hard-to-crush magnetic substance that has passed through the weak magnetic separator 3 can be separated and separated.

  A processing procedure for crushing general waste using the crushing equipment configured as described above will be described with reference to FIG.

  First, in step S1 (acceptance process), the general waste stored in the garbage bag is received by the acceptance hopper 1.

  Next, in step S2 (bag breaking process), the bag breaking machine 2 breaks the garbage bag containing the general waste, and the general waste taken out of the garbage bag has a predetermined size (for example, about 100 mm). Crush roughly. The roughly crushed waste is supplied to the primary magnetic separator 3 by the supply conveyor 11.

  Next, in step S3 (weak magnetic sorting process), the weak magnetic sorter 3 sorts and separates easily crushed lightweight magnetic materials from the roughly crushed waste. The easily crushed and lightweight magnetic material that has been sorted and separated is supplied to the crusher 5 via the bypass supply chute 12. At that time, since the magnetic force of the weak magnetic separator 3 is set to be low, the ratio of non-magnetic waste that is caught in an easily crushed lightweight magnetic material is reduced, but the easily crushed lightweight magnetic material is reduced. When the non-magnetic waste is separated by being caught, the waste is also supplied to the crusher 5 via the bypass supply chute 12. On the other hand, the waste after the easy-crushing lightweight magnetic material is separated and separated is supplied to the strong magnetic separator 4.

  Next, in step S4 (ferromagnetic sorting process), the strong magnetic separator 4 sorts and separates difficult-to-crush heavy magnetic materials from the waste after the easy-crushing lightweight magnetic materials are separated. The hard-to-crush heavy magnetic material that has been sorted and separated is discharged via the discharge chute 15. On the other hand, the waste after the hard-to-crush heavy magnetic material is sorted and separated is supplied to the crusher 5.

  Next, in step S5 (crushing step), the waste after the hard magnetic material difficult to be crushed in step S4 is separated by the crusher 5 including the easily crushed lightweight magnetic material separated in step S3. Crush finely into dimensions. The finely crushed waste is transported to the dryer by the crushed material transport conveyor 14.

  Next, in step S6 (drying process), the finely crushed waste is adjusted to a predetermined moisture content by a dryer.

  After that, although not shown in the figure, after passing through a sorting step for sorting and separating unsuitable materials that are not suitable for solid fuel, a mixing step for mixing lime, etc., finally, the solid fuel is solidified in a molding step for molding into a predetermined size and solid fuel. Become.

  As described above, in this embodiment, the magnetic substance (crushing) that can be easily crushed by the crushing machine 5 such as thin cans and irons attached to clothing by the weak magnetic separator 3 with low sensitivity. Easily and lightly magnetic materials) are separated and supplied to the crusher 5, and the strong magnetic separator 4 removes the waste that has passed through the weak magnetic separator 3 from the waste, such as bolts, nuts and iron pipes. Since the heavy magnetic material that is difficult to be crushed by the crusher 5 is removed and supplied to the crusher 5, the crusher 5 is damaged by the crushing heavy magnetic material. The waste can be appropriately crushed without wasteful removal of useful materials while preventing and lowering the operating rate.

(Second Embodiment)
A second embodiment of the present invention will be described with reference to FIGS.

  FIG. 3 is a crushing process flow diagram in this embodiment, FIG. 4 is a layout diagram of crushing equipment used in this embodiment, FIG. 4 (a) is a side view, and FIG. 4 (b) is FIG. It is a BB arrow line view of).

  As shown in FIG. 4, the crushing equipment used in this embodiment breaks the receiving hopper 1 for receiving the general waste stored in the garbage bag, the garbage bag storing the general waste, and from the garbage bag. A bag-breaking machine 2 for roughly crushing the taken out waste (blade width is about 50 mm), a strong magnetic separator 4 for sorting and separating magnetic substances from the roughly crushed waste, and a strong magnetic separator 4 includes a weak magnetic force sorter 3 for sorting and separating a predetermined magnetic material from a magnetic material sorted and separated by 4 and a crusher 5 (blade width is about 25 mm) for finely crushing waste into a predetermined size. Yes.

  Furthermore, the supply conveyor 11 for supplying the general waste taken out from the garbage bag by the bag breaker 2 and roughly crushed to the strong magnetic separator 4, and the waste from which the magnetic substance has been separated by the strong magnetic separator 4 A supply chute 16 for supplying the material to the crusher 5, a supply chute 17 for supplying the magnetic material sorted and separated by the strong magnetic separator 4 to the weak magnetic separator 3, and a selection by the weak magnetic separator 3 A supply chute 18 for supplying the separated predetermined magnetic substance to the crusher 5, and a discharge chute 19 for discharging and removing the magnetic substance after the predetermined magnetic substance is separated and separated by the weak magnetic separator 3; And a crushed material transport conveyor 14 for transporting the waste crushed by the crusher 5 to a dryer (not shown).

  The strong magnetic separator 4 is a lightweight magnetic material that can be easily crushed by the crusher 5 (a light magnetic material that is easy to crush) and a heavy magnetic material that is difficult to crush by the crusher 5 (a heavy magnetic material that is difficult to crush). ) Is also set so that they are separated together.

  The weak magnetic separator 3 sorts and separates light magnetic materials (easy to break light magnetic materials) that can be easily crushed by the crusher 5, such as thin cans and irons attached to clothes, The magnetic force, such as nuts and iron pipes, that is difficult to be crushed by the crusher 5 (difficult-to-crush heavy magnetic material) is allowed to pass as it is, and the magnetic force is reduced compared to the strong magnetic separator 4 and the sensitivity is set to be dull. ing.

  The process sequence which crushes a general waste using the crushing apparatus comprised as mentioned above is demonstrated based on FIG.

  First, in step S11 (receiving process), the general waste stored in the garbage bag is received by the receiving hopper 1.

  Next, in step S12 (bag breaking step), the bag breaking machine 2 breaks the garbage bag containing the general waste, and the general waste taken out from the garbage bag has a predetermined size (for example, about 100 mm). Crush roughly. The roughly crushed waste is supplied to the strong magnetic separator 4 by the supply conveyor 11.

  Next, in step S13 (ferromagnetic selection process), the magnetic substance is selected and separated from the roughly crushed waste by the strong magnetic separator 4. The magnetic substance thus separated and separated is supplied to the weak magnetic force sorter 3 via the supply chute 17. On the other hand, the waste after the magnetic material is sorted and separated is supplied to the crusher 5.

  Next, in step S14 (weak magnetic force sorting step), the weak magnetic force sorter 3 sorts and separates easily crushed lightweight magnetic materials from magnetic materials. The lightly magnetic material that is easily separated and separated is supplied to the crusher 5. On the other hand, the magnetic material (the hard-to-crush heavy magnetic material) after the easy-to-crush lightweight magnetic material is separated and separated is discharged via the discharge chute 19.

  Next, in step S15 (crushing process), the waste after the magnetic material is sorted and separated in step S13 includes the easily crushed and lightweight magnetic material sorted and separated in step S14. Crush. The finely crushed waste is transported to the dryer by the crushed material transport conveyor 14.

  Next, in step S16 (drying process), the finely crushed waste is adjusted to a predetermined moisture content by a dryer.

  After that, although not shown in the figure, after passing through a sorting step for sorting and separating unsuitable materials that are not suitable for solid fuel, a mixing step for mixing lime, etc., finally, the solid fuel is solidified in a molding step for molding into a predetermined size and solid fuel. Become.

  As described above, in this embodiment, thin cans and clothes are formed by the weak magnetic separator 3 having a low sensitivity from the magnetic substance that has been selected and separated by the strong magnetic separator 4 having a high sensitivity. The magnetic material that can be easily crushed by the crusher 5 such as irons attached to the crusher (separate and light magnetic material) is separated and supplied to the crusher 5 and the weak magnetic separator 3 The magnetic material that has passed, that is, the magnetic material that is difficult to be crushed by the crusher 5 such as bolts, nuts, and iron pipes (difficult-to-crush heavy magnetic material) is discharged and removed so that it is not supplied to the crusher 5. Therefore, the waste can be appropriately crushed without wasteful removal of useful materials while preventing the crusher 5 from being damaged by heavy magnetic materials that are difficult to crush, and avoiding a decrease in operating rate.

  In this embodiment, the weak magnetic separator 3 separates and separates the magnetic material into an easily crushed light magnetic material and a hard to crush heavy magnetic material. Depending on the machine, it may be separated into a lightweight magnetic material that is easy to crush and a heavy magnetic material that is difficult to crush.

(Other embodiments)
In order to solve the above-mentioned problems, the following embodiments can be taken. The embodiment will be described with reference to FIGS.

  FIG. 5 is a flow chart of crushing processing in this embodiment, FIG. 6 is a layout diagram of crushing equipment used in this embodiment, FIG. 6 (a) is a side view, and FIG. 6 (b) is FIG. It is a CC arrow line view of).

  As shown in FIG. 6, the crushing equipment used in this embodiment includes a receiving hopper 1 for receiving the general waste stored in the garbage bag, a bag for storing the general waste, and the garbage bag. A bag-breaking machine 2 for roughly crushing the taken-out waste (blade width is about 50 mm), a magnetic separator 4a for sorting and separating magnetic materials from the roughly crushed waste, and a predetermined size of the waste And a crusher 5 (the blade width is about 25 mm) for finely crushing.

  Furthermore, the supply conveyor 11 for supplying the general waste taken out from the garbage bag by the bag breaker 2 and roughly crushed to the magnetic separator 4a, and the waste after the magnetic substance is separated by the magnetic separator 4a. Supply chute 20 for supplying a product to the crusher 5, a crushed material transport conveyor 14 for transporting the waste crushed by the crusher 5 to a dryer, and a magnetic material sorted and separated by the magnetic separator 4a And a bypass supply chute 21 for bypassing the crusher 5 and supplying it to the crushed material transport conveyor 14.

  The magnetic separator 4a is a lightweight magnetic material that can be easily crushed by the crusher 5 (easy to crush lightweight magnetic material) and a heavy magnetic material that is difficult to crush by the crusher 5 (hard magnetic material that is difficult to crush). Are set so that they are separated together.

  The process sequence which crushes a general waste using the crushing equipment comprised as mentioned above is demonstrated based on FIG.

  First, in step S21 (acceptance process), the general waste stored in the garbage bag is received by the acceptance hopper 1.

  Next, in step S22 (bag-breaking process), the bag-breaking machine 2 breaks the garbage bag containing the general waste, and the general waste taken out of the garbage bag has a predetermined size (for example, about 100 mm). Crush roughly. The roughly crushed waste is supplied to the magnetic separator 4a by the supply conveyor 11.

  Next, in step S23 (magnetic separation process), the magnetic substance is selected and separated from the roughly crushed waste by the magnetic separator 4a. The magnetic material thus separated and separated is sent to the crushed material transport conveyor 14 by bypassing the crusher 5 by the bypass supply chute 21, and then supplied to the dryer. At that time, there is a possibility that the non-magnetic waste is also separated by being caught in the magnetic material. However, the non-magnetic waste that is wound and separated in the magnetic material is also conveyed by the bypass supply chute 21 by the crushed material. It is sent to the conveyor 14 and then supplied to the dryer. On the other hand, the waste after the magnetic material is sorted and separated is supplied to the crusher 5.

  Next, in step S24 (crushing step), the waste after the magnetic material is sorted and separated in step S23 is finely crushed to a predetermined size by the crusher 5. Then, the finely crushed waste is transported by the crushed material transport conveyor 14 and supplied to the dryer.

  Next, in step S25 (drying process), the waste finely crushed in step S24, the magnetic substance that is detoured around the crusher 5 and supplied to the drier, and the waste that has been caught and separated are To adjust the water content to a predetermined water content.

  Next, in step S26 (sorting step), the waste whose moisture has been adjusted by the dryer is sorted out by using a swing sorter, a wind sorter, or the like, which is not suitable for solid fuel. At that time, the magnetic material unsuitable for the solid fuel is also removed as an unsuitable material.

  Then, although not shown in figure, it passes through the mixing process etc. which mix lime, and is finally solidified in the shaping | molding process shape | molded to a predetermined dimension, and becomes solid fuel.

  As described above, in this embodiment, the magnetic substance is separated and separated from the waste by the magnetic separator 4a, and the magnetic substance thus separated and separated is bypassed by the crusher 5 and supplied to the dryer. Since the magnetic material is separated, the crusher 5 is prevented from being damaged by a heavy magnetic material that is difficult to crush, and while avoiding a decrease in the operation rate, it is possible to uselessly remove useful materials. , Can properly crush the waste.

It is a flowchart of the crushing process in the 1st Embodiment of this invention. It is an arrangement plan of crushing equipment in a 1st embodiment of the present invention. It is a flowchart of the crushing process in the 2nd Embodiment of this invention. It is an arrangement plan of crushing equipment in a 2nd embodiment of the present invention. It is a flowchart of the crushing process in other embodiment. It is an arrangement plan of crushing equipment in other embodiments.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Reception hopper 2 Bag breaker 3 Weak magnetic separator 4 Strong magnetic separator 4a Magnetic separator 5 Crusher 11 Supply conveyor 12 Bypass supply chute 13 Supply chute 14 Crushed material conveyance conveyor 15 Discharge chute 16 Supply chute 17 Supply chute 18 Supply Chute 19 Discharge chute 20 Supply chute 21 Bypass supply chute

Claims (4)

Weak magnetic separation process to separate lightweight magnetic material from waste,
A strong magnetic force sorting step for separating heavy magnetic materials from the waste from which light magnetic materials have been separated in the weak magnetic force sorting step;
A waste crushing method comprising: a crushing step of crushing the lightweight magnetic material separated in the weak magnetic force sorting step and the waste from which the heavy magnetic material is removed in the strong magnetic force sorting step. A strong magnetic separation process for separating magnetic materials from waste,
A weak magnetic force sorting step for separating a lightweight magnetic material from the magnetic material separated in the strong magnetic force sorting step;
A waste crushing method comprising: a crushing step of crushing the waste from which the magnetic material has been separated in the strong magnetic force sorting step and the lightweight magnetic material separated in the weak magnetic force sorting step. Weak magnetic force sorting means to separate lightweight magnetic materials from waste,
A strong magnetic force separating means for separating heavy magnetic material from waste from which light magnetic material is separated by the weak magnetic force separating means;
A waste crushing facility comprising: a lightweight magnetic material separated by the weak magnetic force sorting means; and a crushing means for crushing the waste from which the heavy magnetic material is separated by the strong magnetic force sorting means. A strong magnetic separation means for separating magnetic materials from waste,
Weak magnetic force sorting means for separating the light magnetic material from the magnetic material separated by the strong magnetic force sorting means,
A waste crushing facility, comprising: crushing means for crushing the waste from which the magnetic material is separated by the strong magnetic force sorting means and the lightweight magnetic material separated by the weak magnetic force sorting means.