JP2000117138A - Method and apparatus for separation treatment of waste fiber heat insulating material covered with or reinforced by metal wire - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily separate a metal net and rock wool by adapting a waste fiber heat insulating material covered with or reinforced by a metal wire (e.g.; rock wool waste material fitted with a metal net) to recycling treatment. SOLUTION: A rock wool waste material fitted with a metal net preliminarily subjected to dehydration treatment is sent into a roller compression machine B to be ground so that rock wool is easily separated from the metal net and the metal net among the metal net and ground rock wool falling on an obliquely arranged vibration screening machine C is discharged toward a receiving stand 8. The ground rock wool is allowed to fall through the vibration screening machine to be recovered in a vinyl bag 10 through a hopper 9.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement in a separation method and a separation apparatus suitable for recycling various kinds of fiber insulation material with wire mesh including rock wool with wire mesh.

[0002]

2. Description of the Related Art In a thermal power plant and the like, a large amount of rock wool with a metal mesh is generated as waste material when replacing or repairing a heat insulating structure installed in various facilities such as a boiler, a turbine, and a tank.

[0003] The above-mentioned waste rock wool with a wire mesh depends on the storage state during installation or removal from the equipment.
There is a large amount of water containing a large amount of water.

[0004] Conventionally, as a method of treating the above-mentioned waste rock wool with a wire mesh, rock wool with a wire mesh is finely cut by a cutting machine such as a shredder, dried, and the cut material is passed through a blower device to remove light rock wool and heavy wire mesh pieces. There is known a method of separating and recovering.

There is also known a method in which the cut material is melted by an electric furnace or the like and separated into wire mesh iron and rock wool by a difference in specific gravity to be recovered.

[0006]

Since the cutting machine used in the above-mentioned processing method cuts not only soft rock wool but also hard wire mesh at the same time, the blade used for cutting is easily damaged and has a long service life. short. This requires a great deal of labor and time to replace the blade. Also, the latter processing method
The cut material must be transported to a place where the melting furnace is installed, and the transport requires extra trouble. There is also a problem that a large amount of energy is required for melting the cut material.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem, and a simple method is used to remove a large amount of water-containing rock wool with a wire mesh which is generated when replacing or repairing a heat insulating structure. A main object of the present invention is to provide a separation processing method and a separation processing apparatus which can be separated and recovered into rock wool.

[0008]

In order to achieve the above object, a method for separating waste fiber insulation material coated or reinforced with a metal wire according to the invention of claim 1 of the present application is provided with a method of coating or reinforcing a metal fiber coated or reinforced material. A dewatering step of dewatering the waste fiber insulation material, and a step of compressing the waste fiber insulation material covered or reinforced with the metal wire dehydrated in the above-described step to pulverize the fiber material into a state in which the fiber material can be easily separated from the metal wire. And a step of separating the metal wire and the pulverized fibrous material that have passed through the above steps.

Further, the method for separating waste fiber insulation material covered or reinforced with a metal wire according to the second aspect of the present invention,
A step of compressing waste fiber insulation material covered or reinforced with a metal wire to squeeze out moisture and pulverizing the fiber material into a state in which the fiber material can be easily separated from the metal wire; and Fiber material and metal wire
The gist of the present invention comprises a step of separating the pulverized fiber material into water and the pulverized fiber material, and a step of separating the water separated in the step and the pulverized fiber material into water and the pulverized fiber material.

According to a third aspect of the present invention, there is provided a method for separating waste fiber heat insulating material covered or reinforced with a metal wire according to the first or second aspect. The gist is to use rock wool waste with wire mesh.

Further, the present invention provides a dewatering apparatus for dewatering a fiber insulation material covered or reinforced with a metal wire, and a dewatering machine for dewatering the fiber heat insulation material reinforced or covered with a metal wire. A roller compressor that compresses the fiber insulation waste material coated or reinforced with the material and pulverizes the fiber material into a state that can be easily separated from the metal wire; and a roller compressor under the roller compressor and passed through the roller compressor. The gist comprises a means for separating the metal wire and the pulverized fiber material.

Further, according to a fifth aspect of the present invention, there is provided an apparatus for separating waste fiber insulation material covered or reinforced by a metal wire, wherein the fiber insulation material waste material coated or reinforced with a metal wire is compressed to extract water and to squeeze out moisture. A roller compressor for pulverizing the fiber material into a state in which the fiber material is easily separated from the metal wire; and
Means for separating the metal wire and the crushed fiber material into the metal wire and the moisture / crushed fiber material, and separating the passed water and the crushed fiber material under the means, And an inclined endless conveyor.

[0013] Further, according to a sixth aspect of the present invention, there is provided an apparatus for separating waste fiber insulation material covered or reinforced with a metal wire.
The gist of the present invention is that the pressure roller of the roller compressor is a corrugated roller.

Further, according to a seventh aspect of the present invention, there is provided an apparatus for separating waste fiber insulation material covered or reinforced with a metal wire,
The gist of the present invention is that a wire mesh is used as the metal wire.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in FIGS. 1 and 3, a lock with a wire mesh housed in a bag P having a large number of drain holes is shown in FIGS. The waste wool is put into a dewatering machine as a bag to dehydrate the water contained in the rock wool.
The roller mesh is deformed into a plate shape by compression, and rock wool is pulverized so as to be easily separated from the wire mesh. Then, the vibration is disposed obliquely below the roller compressor. The wire mesh discharged from the roller compressor B is crushed by the sieving machine C, and of the crushed rock wool, the wire mesh is discharged onto the receiving table 8, and the crushed rock wool is passed through the vibration sieving machine. Is stored in a plastic bag 10 via the hopper 9, and the plastic bag 10 is conveyed on the roller conveyor 11 and taken out of the gantry.

[0016]

FIG. 1 shows a flow sheet of a method for separating rock wool waste with wire mesh according to an embodiment of the present invention.
2 and 3 show the separation processing apparatus.

"Waste material bag" in the flow sheet of FIG.
This is a plastic bag P that stores rock wool waste materials with wire mesh generated during replacement or repair of the heat insulating structure. This bag P has a large number of drain holes (diameter 10 mm).

The "dewatering step" is a step of, as a pretreatment, putting the plastic bag P into, for example, a centrifugal dehydrator to dewater rock wool containing water.

In the "roller compression step", a roller compressor constituting the separation processing apparatus shown in FIG. 2 is used, and in the "rock wool / wire mesh separation step", the vibration sieving machine shown in FIGS. Used. In addition to the vibration sieving machine, a separation method using a disk conveyor, a method using a magnet, and the like can be used.

In FIG. 2, A is a gantry constituting a separation processing apparatus, B is a roller compressor, and C is a vibration sieving machine.

The roller compressor B is provided with a pair of motor driven pressure rollers 2 in a box body 1 and has independent rollers so that pressure can be applied even if the gap between the rollers is uneven. A spring member and a hydraulic member are provided to support the left and right shafts, and each shaft has a large clearance.The length of the spring member is adjusted to change the amount of clearance, and the absolute pressure to be applied by hydraulic pressure can be set. Is configured. In this case, the same operation can be performed by hydraulic pressure, but it is difficult to adjust the hydraulic pressure, and a mechanism for adjusting the length of the spring member is more convenient for on-site use.

The vibration sieving machine C is provided with a vibration motor 4 on both sides of a rectangular sieving main body 3 having a required mesh size.
The main body 3 is supported on the gantry side via a coil spring 5 at a required inclination angle.

Next, a description will be given of a method of separating waste rock wool with wire mesh using the separation apparatus having the above-described structure. First, wire mesh rock wool waste material is taken out of the dewatered plastic bag P and sent to the roller compressor B. At this time, the generated dust is sucked into a dust collector (not shown) through the hood 6 and the duct 7.

In the roller compressor B, the wire mesh is deformed into a plate shape by compression, and only the rock wool is subjected to a compression action.
The powder is pulverized into a state that can be easily separated from the wire mesh, and discharged together with the wire mesh outside the roller. In this case, if a corrugated toothed roll is used as the compression roll, the crushed rock wool is formed into pellets (for example, about 10 mm × 10 mm × 5 mm) and discharged.

The wire mesh discharged from the roller compressor B and the crushed rock wool fall onto the sieving body 3 of the vibrating sieving machine C, where the wire mesh is vibrated to tilt the sieving body 3 in a lower direction. Is discharged onto the cradle 8 provided at the end of the
It is stored in a container (not shown) installed below.

On the other hand, the pulverized rock wool or pellets on the sieving main body 3 pass through the eyes of the sieving main body 3 by vibration and pass through a plastic bag 10 through a hopper 9 arranged at the lower part thereof. Is stored in. Plastic bag 10
Is conveyed on the roller conveyor 11 supporting it and taken out of the gantry.

FIG. 4 shows a flow sheet of a method for separating waste rock wool with wire mesh according to another embodiment of the present invention, and FIG. 5 shows the separation processing apparatus.

In the present embodiment, the above-mentioned dewatering treatment step is omitted, the rock wool waste material with wire mesh is directly fed to the roller compressor B, and the rock wool or pellet-like material pulverized at the lower portion of the vibrating sieving machine C is removed. The point that the motor-driven endless conveyor D for separating moisture is disposed obliquely.
It differs from the embodiment of FIGS.

In the present embodiment, the rock wool is pulverized by the roller compressor B and the water present in the rock wool is also squeezed out to perform a dewatering treatment. Accordingly, the wire mesh, the crushed rock wool, and the water fall on the sieving main body 3 of the vibrating sieving machine C, and the wire mesh is discharged onto the cradle 8 on the lower inclined side of the main body 3 to form the crushed lock. The wool and the water fall on the motor-driven endless conveyor D, where the water flows down the inclined downstream side of the conveyor D and is discharged, and the pulverized rock wool is carried upward with the conveyance of the conveyor, and the terminal end thereof And collected in the storage box 12.

The second embodiment is different from the first embodiment in that:
Although the separation between the crushed rock wool (or pellet-like material) and the squeezed water is poor, there is an advantage that the operation is easy and the labor is reduced.

[0031]

As described in detail above, when the present invention is applied to the separation of rock wool waste with wire mesh, the wire mesh is discharged from the roller compressor while maintaining the original shape.
By giving a vibration by the next vibration sieving machine, the wire mesh and the rock wool can be easily separated.

Further, since the rock wool waste material with a wire mesh can be separated and collected into a wire mesh and rock wool, the mixing of iron, which is a problem when recycling the rock wool waste material, can be minimized. INDUSTRIAL APPLICABILITY The present invention can be used not only for waste rock wool with a wire mesh but also for waste rock wool reinforced by sewn metal wires. Further, it can be used not only for rock wool but also for other fiber materials.

[Brief description of the drawings]

FIG. 1 is a flow sheet showing a method for separating waste rock wool with wire mesh according to an embodiment of the present invention.

FIG. 2 is a front view of the separation processing apparatus using the flow sheet.

FIG. 3 is a plan view of a vibration sieving machine.

FIG. 4 is a flow sheet of a method of separating rock wool waste material with a wire net according to another embodiment of the present invention.

FIG. 5 is a front view of the separation processing apparatus using the flow sheet.

[Explanation of symbols]

 P Plastic bag with holes containing rock wool with wire mesh A Frame B Roller compressor 1 Box 2 Pressure roller C Vibrating screen 3 Screening body 4 Vibration motor 5 Coil spring 6 Hood 7 Duct 8 Cradle 9 Hopper 10 Plastic bag for storing rock wool 11 Roller conveyor D Endless conveyor 12 Storage box

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4D004 AA16 AA21 AB01 AC04 BA05 CA03 CA04 CA07 CA12 CB13 CB15 CB50 4D067 DD02 DD08 DD11 DD12 DD17 EE02 EE04 EE18 GA20 GB10

Claims (7)

[Claims] 1. A dehydration step of dewatering a fiber insulation waste material covered or reinforced by a metal wire, and compressing the fiber insulation waste material covered or reinforced by the metal wire dehydrated in the step to convert the fiber material to a metal. A fiber insulation material coated or reinforced with a metal wire, comprising: a step of pulverizing the metal wire into a state easily separated from the wire; and a step of separating the metal wire and the pulverized fiber material passed through the step. Waste material separation method. 2. A step of compressing waste fiber insulation material covered or reinforced with a metal wire to squeeze out moisture and pulverizing the fiber material into a state in which the fiber material can be easily separated from the metal wire; A step of separating the wire and the pulverized fiber material into a metal wire and moisture / pulverized fiber material,
Separating the water and the crushed fiber material separated in the above step into the water and the crushed fiber material. Processing method. 3. The separation of the fiber insulation waste material covered or reinforced by the metal wire according to claim 1 or 2, wherein the fiber insulation waste material covered or reinforced by the metal wire is a rock wool waste material with a wire mesh. Processing method. 4. A dehydrator for dehydrating a fiber insulation material covered or reinforced with a metal wire, and separating the fiber material from the metal wire by compressing the dewatered metal insulation material covered or reinforced with the dehydrated metal wire. A roller compressor for pulverizing it into a state easy to
A fiber insulation material covered or reinforced with a metal wire, characterized by comprising means for separating a metal wire having passed through the roller compressor and a pulverized fibrous material under the roller compressor. Waste material separation processing equipment. 5. A roller compressor for compressing waste fiber insulation material covered or reinforced with a metal wire to squeeze out moisture and pulverize the fiber material into a state that can be easily separated from the metal wire. On the side, means for separating the moisture / metal wire and the crushed fiber material squeezed by the roller compressor into a metal wire and the moisture / crushed fiber material, and on the lower side of the means, An apparatus for separating waste fiber insulation material covered or reinforced with a metal wire, comprising a slanted endless conveyor for separating passed water and pulverized fiber material. 6. The apparatus for separating waste fiber insulation material covered or reinforced with a metal wire according to claim 4, wherein the pressure roller of the roller compressor is a roller with corrugated teeth. 7. The apparatus for separating waste fiber insulation material covered or reinforced with a metal wire according to claim 4, wherein a wire mesh is used as the metal wire.