JPH03293043A - Method and apparatus for treating plate type heat insulation waste material - Google Patents

Abstract

PURPOSE:To usefully utilize each base material as resources by carrying out sand blast treatment to a plate type heat insulation waste material disposed with reinforcement nets in its inner part to separate the heat insulation material from the nets, and then separating the heat insulation material from the blast material through air separation to recover them. CONSTITUTION:Sand blast treatment or steel blast treatment is carried out to the plate type heat insulation material 20 disposed with reinforcement nets 21 in its inner part to blow off the heat insulation material to separate from the reinforcement nets 21. Then, the heat insulation material and the blast material 25 are separated each other by the wind force separation with an air spouted from opening 17 and discharged from opening 18, etc. As a result, the plate type heat insulation material is separated into each base material which is usefully utilized as resources.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a method and an apparatus for processing a plate-shaped thermal insulation waste material (also referred to as a blanket with lath) having a reinforcing net arranged inside and recovering thermal insulation material, etc. .

[Conventional technology]

In recent years, in order to improve the thermal efficiency of buildings, buildings have been constructed by placing heat-insulating waste material in the form of plates inside walls or ceilings.

Alternatively, in general industrial equipment, a tank or the entire device is wrapped in a plate-shaped heat-insulating waste material for the purpose of improving thermal efficiency.

The above-mentioned plate-shaped thermal insulation waste material has reinforcement 14 (also called lath) inside, and is formed into a plate shape using rock wool, slag wool, or glass wool.

[Problem to be solved by the invention]

However, there are cases where the insulation work needs to be redone due to deterioration of the building or equipment, etc. In this case, the above-mentioned waste plate insulation material will be removed and a new insulation material will be installed. It was treated as industrial waste and was disposed of in landfills, but as there is no landfill space in urban areas, it is currently difficult to dispose of it.

The present invention was made in view of the above circumstances, and an object of the present invention is to provide a method and apparatus for processing waste plate-shaped heat-insulating materials, which can separate plate-shaped heat-insulating waste materials into various materials and use them effectively as resources.

[Means to solve the problem]

The method for disposing of plate-shaped thermal insulation waste material according to claim 1, which meets the above object, is to perform sandblasting or steel blasting on the plate-shaped thermal insulation waste material in which a reinforcing net is arranged inside, and to remove the insulation material and remove the reinforcing net. The heat insulating material is separated from the heat insulating material, and then the heat insulating material and the blasting material are separated and recovered by air sorting.

In addition, the method for disposing of plate-shaped thermal insulation waste material as described in claim 2 is to crush plate-shaped thermal insulation waste material without a reinforcing net inside by sandblasting or steel blasting, and then performing wind sorting. , and is configured to collect the crushed heat insulating material.

The apparatus for processing heat-insulating waste materials according to claim 3, which achieves the above object, includes a plurality of blast nozzles and conveys the heat-insulating waste materials as the object to be treated, and the blast nozzles have an opening at the front end thereof. A heat-retaining plate-shaped waste material conveyor, a blasting material conveyor placed below the above-mentioned conveyor for conveying heavy blasting materials, and a processing chamber surrounding these, equipped with an air jet port on one side and an air exhaust port on the other. , a dust collector and a fan that send air to the processing chamber and collect heat insulating material from the discharged air.

Here, the blast nozzle refers to a nozzle that performs sandblasting or steel blasting.

[Effect]

In the method for disposing of plate-shaped thermal insulation waste material according to claim 1, the plate-shaped thermal insulation waste material is subjected to sandblasting or steel blasting to remove relatively soft wool and leave a reinforcing wire mesh.

Next, in the method for treating plate-shaped thermal insulation waste material according to claim 2, in which wind sorting is carried out to distinguish heavy sandblast material and light wool content, the plate-shaped thermal insulation waste material is
By performing sandblasting or steel blasting, the heat insulating material is pulverized, and then the pulverized heat insulating material, the blast material, and the wool are separated by air sorting, and the heat insulating material can be recovered.

In the apparatus for treating plate-shaped thermal insulation waste according to claim 3, a plate-shaped insulation waste material conveyor for conveying the plate-shaped thermal insulation waste is prepared, an opening is provided at an appropriate location on the conveyor, and a blast nozzle is directed to the opening. Then, blasting material is sprayed onto the plate-shaped thermal waste material being transported.

As a result, the plate-shaped heat insulation waste material is separated into the reinforcing wire mesh and the heat insulation material, and is about to fall onto the blast material conveyor that conveys the heavy blast material.

On the other hand, these devices are carried out in a processing chamber, and the processing chamber has an air outlet and an air outlet, so the blown air is used for wind separation, and light wool flies upwards and is collected as dust. collected by the device.

〔Example〕

Next, the present invention will be explained with reference to the attached drawings.
It will be explained to provide an understanding of the present invention.

As shown in FIGS. 1 and 2, the processing apparatus IO for plate-shaped heat-insulating waste materials according to an embodiment of the present invention is an example of a plate-shaped heat-insulating waste material conveyor disposed in a processing chamber 11 that is generally hermetically sealed. a roller conveyor 12 that is
A sandblasting nozzle 13, which is an example of a blasting nozzle, placed at a predetermined position on the top, a belt conveyor 14, which is an example of a blasting material conveyor at the bottom, an external sandblasting device 15, and a bag, which is an example of a dust collector. The filter 16 is configured to include a filter 16. These will be explained in detail below.

The processing chamber 11 is constructed of an iron plate, and has an inlet for receiving plate-shaped thermal insulation waste material (for example, a blanket) and an outlet for carrying out the treated reinforcing net. It has an outlet 17 and an outlet 18 on the other side, a fan 19a is connected to the air outlet 17, and is connected in series with a bag filter 16 connected to the air outlet 18 to circulate the air current. It looks like this.

A roller conveyor 12 disposed inside the processing chamber 11 has a large number of rotationally driven rollers 19 arranged in parallel, and carries the plate-shaped heat-retaining waste material 20 on top and the processed reinforcement #14 (wire mesh) 21. It is designed to be transported.

Blast nozzles 13 are arranged in a straight line above a part of the opening of this roller conveyor 12, and the sand grains conveyed by compressed air are discharged from the blast nozzles 13 toward the plate-shaped thermal insulation waste material 20. There is.

Below the roller conveyor 12, a belt conveyor 14, which is an example of a blasting material conveyor, is placed on a freely rotatable guide roller 23, and is driven by a drive roller (not shown) provided at an end. Note that guide plates 24 are arranged on both sides of the belt conveyor 14 with a slight gap between them to guide the blast material 2 being conveyed.
5 is designed to prevent leakage to the outside.

Therefore, in this processing apparatus 10 for plate-shaped thermal insulation waste,
The plate-shaped heat insulation waste material 20 conveyed by the roller conveyor 12 is turned into a heat insulation material (for example, glass wool, rock wool,
Mineral wool (such as slag wool) is scattered and blown downward, but light wool is moved toward the air outlet 18 by the airflow from the spout 17 provided at the bottom of the roller conveyor 12, and is collected. The dust passes through the dust line 26 and is collected by the bag filter 16.

On the other hand, the remaining reinforcing net 21 rides on the roller conveyor 12 and is discharged to the outside as it is, and the heavy sand blown out from the blast nozzle 13 falls onto the belt conveyor 14 at the bottom and is discharged to the outside by the belt conveyor 14. be done.

In the above embodiment, it is assumed that the speed of the airflow jetted out from the air jetting port 17 is appropriately determined so as to separate the wool and sand.

In addition, in the above example, the wool content was removed from the plate-shaped thermal insulation waste material by sandblasting, but instead of sand, it is also possible to perform steelblasting using iron powder or fine iron particles as raw materials; in this case, By carrying out air sorting treatment or magnetic sorting, the wool component and the steel blast material can be separated more easily. In the above embodiment, the fan 19a
is attached to the air outlet 17 side of the processing chamber 11, but it can also be attached to the air exhaust port 18 side to make the pressure inside the processing chamber 11 a negative pressure and prevent dust from leaking to the outside.

In addition, the recovered wool can be used again as a heat insulator, or because it has a high density, it can be mixed with an appropriate amount of binder to produce non-combustible boards, and it can also be mixed with cement, sand, etc. It can also be mixed and used as a roadbed material.

On the other hand, the recovered reinforcing net can be recycled as a raw material for steelmaking.

Further, in the above embodiment, a plate-shaped thermal insulation waste material having a reinforcing net inside was used, but the present invention can also be applied to a plate-shaped thermal insulation waste material without a reinforcing net inside.

Furthermore, in the embodiment described above, it is also possible to install a motor-driven nozzle reciprocating device 28 that reciprocates the nozzles in the lateral direction, thereby reducing the number of nozzles.

〔Effect of the invention〕

As is clear from the above explanation, the method for processing waste heat-insulating plates according to claim 1 or 2 involves sandblasting or steel blasting to remove wool from the waste heat-insulating plates. Because there is, you can easily perform the process. In the method for processing a plate-shaped heat insulating material as set forth in claim 1, the internal reinforcing net can be recovered in its original shape, so it can be reused as a steelmaking raw material.

In the apparatus for treating plate-shaped insulation waste materials according to claims 1 and 3, the treatment of the plate-shaped insulation waste materials can be carried out continuously, and the entire process is carried out within the processing chamber, so that no dust is generated in the surrounding area. The problem of environmental pollution will also be reduced.

[Brief explanation of the drawing]

FIG. 1 is a schematic cross-sectional view of a processing apparatus for plate-shaped heat insulation waste material to which an embodiment of the present invention is applied, and FIG. 2 is a side view of the same portion. [Explanation of symbols] 10...- Processing device, 11...- Processing chamber, 12...- Roller conveyor, 13--
---Sandblasting nozzle, 14--Belt conveyor (blast material conveyor), 15--Sandblasting device, 16--Bag filter (dust collector), 17--・−・−・Air outlet, 9・・−・−・・Roller, l −・−Plate heat insulation waste material, 2 Guide roller, 2 ・・・−Blast material 8・−・−11− - Air exhaust port, 1 a - - - Fan, 20 - - - - Reinforcement net, 23 - - - - - Guide plate, 25

Claims (3)

[Claims] (1) Sandblasting or steel blasting is performed on the plate-shaped thermal insulation waste material with a reinforcing net placed inside, and the insulation material is blown away to separate the reinforcing net and the insulation material, and then the insulation material and the insulation material are separated by air sorting. A method for processing plate-shaped thermal insulation waste material, which is characterized by separating and recovering blasting material. (2) A plate-shaped heat insulating waste material without a reinforcing net arranged inside is pulverized by sandblasting or steel blasting, and then subjected to wind sorting to collect the pulverized heat insulating material. How to dispose of thermal insulation waste. (3) A plurality of blast nozzles, a plate-shaped heat-insulating waste conveyor that conveys the plate-shaped heat-insulating waste material to be processed, and has an opening at the end of the blast nozzle, and a heavy blast material placed at the bottom of the conveyor. a blasting material conveyor for conveying the blast material, a processing chamber surrounding these and equipped with an air jet port on one side and an air exhaust port on the other side, and sending air to the processing chamber,
A processing device for plate-shaped thermal insulation waste material, comprising a dust collector and a fan for collecting thermal insulation material from exhausted air.