KR101012141B1 - Asbestos-removing method - Google Patents

Abstract

PURPOSE: A method for removing asbestos from a building is provided to naturally remove asbestos using the weight of steam since high temperature steam is continuously supplied the asbestos. CONSTITUTION: A method for removing asbestos from a building comprises following steps. The steam of 60~130°C is provided through a steam feeder(60) to an asbestos removal region(30), so an asbestos structure(20) is boiled by steam. Quick freezing refrigerant is sprayed on a wet asbestos structure through a quick freezing refrigerant sprayer(70), so the asbestos structure is frozen. The hot air is supplied to the frozen asbestos structure through a hot air dryer(80). The asbestos structure is built. The asbestos structure is repetitively steamed, frozen, and boiled, so the asbestos structure is cracked by contraction and expansion and is separated from a slab(10).

Description

Asbestos removal method of buildings {ASBESTOS-REMOVING METHOD}

The present invention relates to an asbestos removal method of a building, and more particularly, to an asbestos removal method for separating an operator's work area and an asbestos removal area so that the worker is not contaminated with asbestos being removed. By continuously supplying the steam of the asbestos and the asbestos infiltrate the steam as it penetrates the asbestos, the weight of the asbestos structure itself is added to the weight of the steam infiltrated asbestos so that it can be naturally removed from the building by gravity In accordance with the present invention relates to a method for removing asbestos in buildings, which allows the asbestos to be naturally removed from the building by contraction / expansion by repeating the step of freezing and drying steam asbestos.

Conventionally, it is common to construct various types of buildings using asbestos having excellent insulation, non-combustibility, and flammability, and in particular, construction of insulating ceiling slabs by spraying asbestos materials mixed with asbestos and glue on building ceiling slabs has been widely used. .

However, drinking stone powder through breathing has been identified as a substance that can cause malignant tumors in lung cancer, pneumonia, pleura and pleura, and has been designated as a primary carcinogen by the International Cancer Institute (WRC) under the World Health Organization. In Korea, five asbestos, including blue asbestos, and mixtures containing 1% or more of them are managed as prohibited substances, and are prohibited from being manufactured, imported, sold, stored, stored, transported, or used for all purposes. It is prohibited to manufacture, import, sell, store, store, transport and use for asbestos cement products and asbestos friction products by controlling mixtures containing more than%.

In addition, in order to minimize the benefits of asbestos as described above, in the process of dismantling and repairing for reconstruction or remodeling, strict management of asbestos powder is prevented from being scattered, and related industries dismantle asbestos without scattering asbestos powder. It introduces various techniques for this.

For example, in Korean Patent Application Publication No. 2006-29573, "Preliminary investigation step to collect the sample as well as the structure of the work site, the structure of the building, asbestos-containing materials; to seal the vents, vents, windows of the work site, Preparatory steps to prevent asbestos scattering by spraying humectants; selectively spraying water, humectants or surfactants, surface penetrating agents, penetrants, etc. on the object to be removed; A post-treatment step of spraying an asbestos dust scattering agent and a coating agent on the wall, ceiling or floor which has undergone the removal step, and suction treatment of asbestos using a filter-vacuum cleaner; And a grinding step of grinding and sorting the same, and solidifying the solidified mixture by mixing the crushed asbestos-containing material with cement and water. It discloses a method to remove asbestos "as ranging.

However, the above technique is because the worker directly sprays water, humectant, etc. to the asbestos structure, the worker may be contaminated with asbestos powder scattered from the asbestos structure, and thus may not be a preferable construction type. That is, since the worker's work area and the asbestos removal area are the same area, even if the worker wears dustproof clothing or a dust mask, the worker can be a direct asbestos victim. Moreover, in order to prevent the asbestos particles from scattering, the high pressure spraying of water is an illegal act in practice because the current labor law cannot spray water on the asbestos structure at high pressure.

In addition, in the case of asbestos structure formed by spraying asbestos material mixed with asbestos and glue, even if there are few voids in the structure and spraying water on the asbestos structure at low pressure for a long time, only the surface of the asbestos structure is wetted, There is a problem in that it is virtually impossible to dismantle the asbestos structure in a short time without scattering due to infiltration.

The present invention has been made to solve the above problems, the object of the present invention is to provide an asbestos removal method of a building that can be separated from the work area and asbestos removal area of the worker so that the worker is not contaminated with scattered asbestos generated during the removal process. It is.

Another object of the present invention is to continuously supply high-temperature steam to the asbestos removal zone, and the asbestos structure weight is added to the weight of the steam infiltrated asbestos by allowing the supplied steam to penetrate deeply into the asbestos structure so that asbestos is submerged in steam. Facilitates asbestos in buildings by allowing them to be naturally removed from buildings by gravity and freezing and drying asbestos steamed as needed, allowing them to be naturally removed from buildings by contraction / swelling. It is to provide a method for asbestos removal of buildings that can be removed in a short time.

The object of the present invention is a method for removing asbestos structure constructed on the slab of the ceiling of the building, asbestos removal area for removing asbestos and collecting asbestos for the interior space in which the asbestos structure is constructed on the ceiling slab of the building, The indoor space is separated by a blocking vinyl so as to be divided into a work area capable of working in a space separated from the asbestos removing area, and the steam supply duct connected to the steam supply disposed in the work area of the worker passes through the blocking vinyl. After entering the asbestos removal zone, the steam supply duct continuously supplying steam at a temperature of 60 to 1300 degrees Celsius to the asbestos removal zone, and the steam supplied to the asbestos removal zone penetrates into the asbestos structure and asbestos structure The weight of the asbestos structure itself is added to the weight of the steam in which By can be achieved by providing a method of removing asbestos building, it characterized in that the to be separated and removed from the slab.

Asbestos removal method of the building according to the present invention has the effect that it is possible to separate the work area and the asbestos removal area of the worker so that the worker is not contaminated with scattering asbestos generated during the removal process. In addition, by continuously supplying high-temperature steam to the asbestos removal area, the supplied steam penetrates deeply into the asbestos structure so that the asbestos is submerged in the steam, so that the weight of the asbestos structure itself is added to the weight of the steam infiltrated by the gravity. Asbestos can be naturally removed from the building, and as necessary, the asbestos can be removed naturally from the building by contraction / expansion by freezing and drying steamed asbestos. It can be removed.

1 and 2 is a view showing a preferred construction form that can be implemented asbestos removal method of the building according to the invention,
3 is a view showing a construction form to remove the remaining asbestos according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the asbestos removal method of the building according to the present invention.

1 is a view showing a preferred construction form that can be implemented asbestos removal method of the building according to the invention.

Referring to the drawings, the asbestos removal method of the building according to the present invention is a method for removing the asbestos structure 20 constructed in the slab 10 of the building ceiling, as shown in the ceiling slab 10 of the building Asbestos removal area 30 for removing asbestos and collecting the asbestos structure 20 for the interior space, and the work area 40 for a worker to work in a space separated from the asbestos removal area 30. Separating the indoor space with a blocking vinyl (50) to be divided into.

More specifically, the blocking vinyl 50 is a member that separates the interior space into the asbestos removal area 30 and the work area 40, and the asbestos removal area 30 is asbestos as an upper space of the blocking vinyl 50. The structure 20 is an area where the slab 10 is separated from the slab 10 and the work area 40 is a lower space of the blocking vinyl 50, in which a worker monitors the asbestos removal area 30 or manipulates the equipment. do.

On the other hand, the present invention is provided with a steam supply duct installed in the work area 40 of the worker and the steam supply duct penetrated into the asbestos removal area 30 through the blocking vinyl (50) ( 61) to continuously supply the steam of 40 degrees to 80 degrees Celsius through the steam supply duct 61 to the asbestos removal region (30).

When the steam is supplied to the asbestos removal area 30 as described above, the steam penetrates into the asbestos structure and the asbestos structure is immersed in the steam, and the asbestos structure 20 immersed in the steam is applied to the weight of the infiltrated steam and the asbestos structure itself. It is separated from the slab 10 by gravity. Here, the asbestos structure 20 may be separated little by little depending on the weight of the steam and asbestos structure, or a gap may be generated between the asbestos structure and the slab so that the asbestos structure may be separated at once.

Here, the present invention is to supply steam, rather than spraying water directly to the asbestos structure as in the prior art, during the water spraying only the surface of the asbestos structure is wetted and the sprayed water can not penetrate to the inside of the asbestos structure as a whole Although wetting was difficult, the continuous supply of steam as in the present invention has the advantage that the entire wetting of the asbestos structure is possible because steam penetrates in a manner that the asbestos structure is slowly wetted to the inside.

According to the experiments of the present inventors, the asbestos structure 20 has an area of 100 m ² When the thickness of about 2cm to 5cm, the continuous supply of steam at 100 degrees Celsius for 2 hours was confirmed that the steam penetrates into the interior of the asbestos structure, after 3 hours asbestos structure is separated from the slab by the steam weight It was confirmed to separate.

According to the asbestos removal method according to the present invention, since the interior space is separated into the asbestos removal area 30 and the work area 40 by the blocking vinyl 50, the operator performs the work in the work area 40, Workers are not exposed to asbestos by-products or asbestos chunks present in the asbestos removal area 30, thereby eliminating asbestos damage. In addition, when the indoor space is separated by the blocking vinyl 50 as described above, only the asbestos removal area 40 is supplied to the steam, not the entire indoor space, so that the steam supply amount can be reduced and the same efficiency can be achieved even with the same steam. Can exert.

On the other hand, the asbestos removing method according to the present invention so that the asbestos structure falling to the blocking vinyl 50 can be easily discarded, as shown in the edge portion of the blocking vinyl 50 of the asbestos structure 20 It is fixed to the side wall of the interior space of 30cm to 1m below and the center portion is seated on the floor of the interior space and disposed in a U shape as a whole, so that the portion between the edge portion and the center portion of the blocking vinyl goes from the edge to the center portion. It is preferable to arrange so as to be inclined downward. Blocking vinyl as described above is manufactured in a hollow shape such as a plastic bag can be arranged in a U-shape as described above by fixing the edge to the side wall of the interior space, if necessary to install a support rope for supporting the blocking vinyl Could be.

Accordingly, the asbestos structure 20 dropped from the slab 10 is dropped into the blocking vinyl 50 and then loaded into the central portion of the blocking vinyl.

Here, the blocking vinyl is made of a material having a durability that is not torn or damaged by falling asbestos structure and heat resistance that is not deformed by steam, preferably made of polyethylene terephthalate (PET), The upper surface is preferably coated with lubricating oil so that the falling asbestos structure slides well from the down-tilted barrier vinyl and is loaded to the center.

In addition, the fixing rope 51 is fixed to a portion adjacent to the indoor side wall to draw the edge of the blocking vinyl 50 between the indoor side wall and the fixing rope 51, and then the fixing plate 52 is not supported by the blocking vinyl 50. It is preferable to seal the edge of the blocking vinyl 50 to the side wall by fixing 53 and the like on the side wall.

On the other hand, Figure 2 is a view showing another construction form of the asbestos removing method according to the present invention, the asbestos structure 20 in accordance with the above-described asbestos wetted with steam and then freezing and drying step repeatedly performed As a result, the asbestos structure 20 is cracked by repeated contraction and expansion so that it can fall apart from the slab.

That is, when the thickness of the asbestos structure 20 is about 2cm to 5cm, the asbestos structure can be easily dismantled only by supplying steam. When the thickness of the asbestos structure is more than 20cm and longer than 5cm, the time to steam the asbestos structure with steam is increased. Since the construction takes a long time because it takes a long time, this embodiment is an advantageous method for the rapid removal of thick asbestos structures.

In order to implement the present embodiment, as shown in the operator's work area 40, the quick-cooling refrigerant supplier 70 and the hot air dryer 80 is further installed and the fastening refrigerant supplier 70 in the blocking vinyl (50) Connect the refrigerant supply nozzle 71 introduced into the asbestos removing region 30 by passing through it, and the hot air supply duct penetrating the blocking vinyl 50 to the hot air dryer 80 to enter the asbestos removing region 30. Connect (81).

Thus, the step of supplying steam to the asbestos removal region 30 through the steam supplier 60 so that the asbestos structure 20 is immersed in steam; Freezing the asbestos structure 20 by spraying a quench refrigerant onto the asbestos structure moistened with steam through the quench refrigerant sprayer 70; The hot air is supplied to the asbestos structure 20 frozen through the hot air dryer 80 to repeat the step of drying the asbestos structure.

Here, the temperature of the supplied steam is about 60 degrees to 130 degrees Celsius, the rapid refrigerant is a liquid nitrogen or liquid carbonate, such as when the rapid refrigerant is injected into the wet asbestos structure through the rapid refrigerant supply supply (70) instantaneously Asbestos structures are frozen, the volume expands. Then, when hot air is supplied through the hot air dryer 80 to 60 degrees Celsius or more with respect to the volume-expanded asbestos structure, the asbestos structure is melted and dried.

As described above, if the asbestos structure 20 is wetted by steam, and then freezing and drying are repeatedly performed, cracks are formed in the asbestos structure 20 during expansion / contraction, and asbestos lumps are dropped from the asbestos structure. Asbestos may fall into the vinyl 50 or cracks may occur between the asbestos structure and the slab so that the asbestos structure may be separated from the slab and removed.

On the other hand, when the asbestos structure removed from the slab is dropped into the blocking vinyl 50 and then loaded into the center portion of the blocking vinyl, the fixing plate 52 and the fixing rope 51 are dismantled and then the blocking vinyl 50 is removed. The asbestos removal method according to the present invention is completed by collecting the edges in the center and then binding and sewing the edges.

However, when the remaining asbestos structure is attached to the slab of the building, as shown in Figure 3, the steam is injected and the inner pipe 92 and the inner pipe for sucking the asbestos material attached to the end of the contact plate 91 ( The double pipe injector 90 composed of 93 is brought into close contact with the remaining asbestos structure 20 to inject steam through the outer pipe 92 to wet the asbestos structure 20, and then to the inner pipe 93. By sucking the moistened remaining asbestos structure 20, the remaining asbestos structure can be easily removed.

As described above, according to the asbestos removal method of the building according to the present invention, in the case of the thin asbestos structure, by supplying steam to the asbestos removal area so that the asbestos structure is wetted to the inside, the wet asbestos structure has its own weight Asbestos can be removed by slaying from the slab, and in the case of thick asbestos structures, asbestos is removed by repeating the wetting, freezing, and drying.

10: slab 20: asbestos structure
30: asbestos removal area 50: work area
50: blocked vinyl 60: steam supply
70: rapid cooling sprayer 80: hot air dryer

Claims (4)

As a method for removing the asbestos structure constructed on the slab of the building ceiling,
For the indoor space in which the asbestos structure is installed on the ceiling slab of the building, the asbestos removal area for removing asbestos and collecting the asbestos, and the work area for the worker to work in a space separated from the asbestos removal area, are blocked with vinyl. Separate the indoor space,
A steam supplier, a quick refrigerant cooler and a hot air dryer are installed in the work area of the worker, and the steam supplier is connected to the steam supply duct penetrating the blocking vinyl to the asbestos removal area, and the blocking vinyl is connected to the quick refrigerant cooler. Connect a refrigerant supply nozzle penetrating through the asbestos removal zone and a hot air supply duct penetrating the blocking vinyl to the asbestos removal zone to the hot air dryer,
Supplying steam at a temperature of 60 degrees Celsius to 130 degrees Celsius through a steam supplier to the asbestos removing region so that the asbestos structure is immersed in steam; Freezing the asbestos structure by spraying the quench refrigerant on the asbestos structure moistened with steam by the quench refrigerant sprayer; Repeating the step of drying the asbestos structure by supplying hot air to the frozen asbestos structure through the hot air dryer,
Asbestos removal method of a building, characterized in that the asbestos structure is cracked due to shrinkage and expansion as it is repeatedly weaved, frozen and dried to fall apart from the slab.
The method of claim 1,
The edge portion of the barrier vinyl is fixed to the side wall of the indoor space 30cm to 1m below the asbestos structure, and the center portion is settled on the floor of the interior space so that the portion between the edge portion and the center portion of the barrier vinyl is centered at the edge. It is arranged to be inclined downward toward the portion, and the fixing rope is fixed to the portion adjacent to the indoor side wall to draw the edge of the blocking vinyl between the indoor side wall and the fixing rope, and then the fixing plate is held by the blocking vinyl and the nail is fixed to the side wall to fix the blocking vinyl. So that the edges of the are sealed to the side walls,
The asbestos structure mass separated from the slab by gravity is dropped by the downwardly inclined blocking vinyl, and then loaded into the center portion of the blocking vinyl, and the lubricant is applied to the upper surface of the blocking vinyl to be dropped into the blocking vinyl. Asbestos removal method of the building, characterized in that the mass of asbestos structure to slide easily into the center portion.
delete The method of claim 2,
The asbestos structure mass loaded on the center portion of the blocking vinyl is collected by discarding the edges of the blocking vinyl to the center portion, then tying the edges together.
The remaining asbestos structure attached to the slab of the building is sprayed with steam, the double pipe injector composed of an inner pipe attached to the end and the inner pipe to suck the asbestos material in close contact with the remaining asbestos structure through the outer pipe A method for removing asbestos in buildings, characterized in that the asbestos structure is moistened with steam injected and the remaining asbestos structure moistened with internal pipes is removed to remove the remaining asbestos structure.

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