JP2021156021A - Asbestos removal method - Google Patents

Abstract

To provide an asbestos removal method which is free from the risk of damaging the health of an operator, which can reduce work cost and which can improve work efficiency.SOLUTION: An asbestos removal method which removes asbestos sprayed on an inner surface of a chimney 10 prepares: a scattering inhibitor supply device 30 for supplying a scattering inhibitor for suppressing scattering of asbestos; and a removal device 25 for removing the asbestos by jetting high pressure water against the asbestos sprayed on the inner surface of the chimney 10. A converter 32 for making the scattering inhibitor supplied from the scattering inhibitor supply device 30 into a foam is provided at a tip of the chimney 10, the foamy scattering inhibitor is filled inside the chimney 10, and the removal device 25 is moved inside the chimney 10, thereby removing the asbestos.SELECTED DRAWING: Figure 1

Description

The present invention relates to an asbestos removing method for removing asbestos sprayed on the inner surface of a chimney.

The inner surface of the chimney is sprayed with a level 1 asbestos-containing spray material having the highest dust generation property. The level 1 asbestos-containing spray material is characterized in that the fibers are exposed more than other asbestos, the hardness and the specific gravity are small, and the single asbestos is brittle. Therefore, the dust is relatively easy to scatter and has a characteristic of being damaged by a small amount of external pressure.
In other words, when performing work to remove level 1 asbestos, strict exposure measures such as isolation of the work place and use of dust masks and protective clothing according to the amount of high-concentration dust are required.

Therefore, conventionally, as a method for removing level 1 asbestos sprayed on the inner surface of the chimney, for example, the method shown in FIG. 8 is known. As shown in FIG. 8, scaffolding 400 is assembled along the chimney 300 on the side of the chimney 300 provided in the building 900. Further, a scaffolding 401 is assembled on the roof of the building 900, and an isolated area 500 is provided above the scaffolding 400 and 401. The entire inner surface of the isolated area 500 is covered with a curing sheet. A high-pressure water supply device 200 is deployed on the ground, and a high-pressure hose 101 connected to the high-pressure water supply device 200 moves up and down inside the chimney 300 via pulleys 102 and 102 provided in the isolated area 500. It extends as much as possible. An asbestos removing device 100 is connected to the tip of the high pressure hose 101, and the asbestos removing device 100 can move up and down the inside of the chimney 300 via the high pressure hose 101.

An isolated area 700 is formed on the lower side of the chimney 300. The entire inner surface of the isolated area 700 is covered with a curing sheet. The isolated area 700 communicates with an opening 301 formed at the bottom of the chimney 300. In the isolated area 700, a suction device 600 for sucking asbestos discharged from the opening 301 is arranged. A security zone 800 is arranged next to the isolated area 700, and an air shower device 801 is arranged in the security zone 800.

The asbestos removing device 100 rotates horizontally while injecting high-pressure water supplied from the high-pressure water supply device 200 onto the inner surface of the chimney 300, and removes asbestos sprayed on the inner surface of the chimney 300. The operator enters the isolation area 500 and operates the high pressure hose 101 to raise and lower the asbestos removing device 100. In addition, the worker wears a dust mask and protective clothing, enters the isolation area 700, scrapes asbestos that has fallen under the chimney 300 from the opening 301 into the isolation area 700, and the scraped asbestos is scraped by the suction device 600. Suction. The worker who has performed the asbestos suction work enters the security zone 800 and blows air to the whole body by the air shower device 801 to remove the asbestos adhering to the whole body.

Utility Model Registration No. 3197063

However, in the conventional asbestos removing method described above, the worker may suck the removed asbestos by performing the work for a long time in the isolated area 700 in the closed room state.
In addition, when the temperature is high, wearing a dust mask and protective clothing and performing the work in a closed room is extremely harsh because it is a work in a space contaminated with asbestos and it becomes sweaty.
That is, the conventional asbestos removal method has a high risk of harming the health of workers.
Further, in the conventional asbestos removal method, in order to prevent the removed asbestos particles from scattering from the tip of the chimney 300 to the outside, an isolation area 500 is provided at the tip of the chimney 300, and the entire inner surface of the isolation area 500 is cured. Must be covered with a sheet.
Further, in the asbestos removal method described above, the security zone 800 and the air shower device 801 must be installed.
That is, the above-mentioned asbestos removal method has a problem that the work cost is high.
Further, in the above-mentioned asbestos removal method, it is difficult to perform long-time work in the isolated area 700 in a closed room state, so that the work must be interrupted or the workers must be replaced on a regular basis. There is also the problem of poor work efficiency.

Therefore, the present invention has been created as a result of diligent research in order to solve the above-mentioned problems, and an object of the present invention is to provide a method for removing asbestos that does not harm the health of workers. Another object of the present invention is to provide an asbestos removing method capable of reducing work costs and improving work efficiency.

(First invention)
In order to achieve the above-mentioned object, the asbestos removing method according to the first invention of the present application is
This is an asbestos removal method for removing asbestos sprayed on the inner surface of the chimney (10).
A scattering inhibitor for suppressing the scattering of asbestos and a removing device (25) for removing asbestos by injecting high-pressure water onto the asbestos sprayed on the inner surface of the chimney (10) are prepared.
A filling step (step 2) in which the scattering inhibitor is foamed and filled inside the chimney (10), and
After the filling step (step 2), the removing device (25) for injecting high-pressure water is moved inside the chimney (10) while injecting high-pressure water to remove asbestos (step 5). ,
It is characterized by having.

(Second invention)
The second invention of the present application is the asbestos removing method according to the first invention described above.
At the lower part of the chimney (10), an opening (12) communicating with the inside and the outside of the chimney (10) is formed.
A suction recovery device (51, 81) that sucks and collects asbestos removed from the inner surface of the chimney (10), and
An insertion hole (72) through which a suction hose (52) connected to the suction recovery device (51, 81) can be inserted is formed, and a closing member (70) capable of closing the opening (12). Prepare,
The removal step (step 5) is
A suction hose that removes asbestos and inserts the removed asbestos (As) accumulated in the lower part of the chimney (10) into the insertion hole (72) of the closing member (70) that closes the opening (12). It is characterized in that it is a step of sucking according to (52).

(Third invention)
The third invention of the present application is the asbestos removing method according to the second invention described above.
The closing member (70) is formed with first and second through holes (73,74).
A first glove (75) that can be inserted through the first through hole (73) and is attached to the left arm,
A second glove (76), which can be inserted through the second through hole (74) and is to be attached to the right arm, is prepared.
The removal step (step 5) is
While removing asbestos, the left arm equipped with the first glove (75) is inserted into the chimney (10) through the first through hole (73), and the second glove (76) is attached. Insert the asbestos right arm into the chimney (10) through the second through hole (74).
Further, a left arm having the first glove (75) attached and inserted into the chimney (10) through the first through hole (73) and a second glove (76) having the second glove (76) attached to the inside of the chimney (10). Using the right arm inserted into the chimney (10) through the through hole (74), the suction hose (52) inserted through the insertion hole (72) is operated and accumulated in the lower part of the chimney (10). It is characterized in that it is a step of sucking asbestos (As).

(Fourth invention)
The fourth invention of the present application is the asbestos removing method according to the second or third invention described above.
The closing member (70) is
A vent (77) that communicates with the inside and outside of the chimney (10),
The vent (77) is provided with a filter (78) for filtering asbestos particles removed by the removal step (step 5).

(Fifth invention)
The fifth invention of the present application is the asbestos removing method according to any one of the first to fourth inventions described above.
The removal step (step 5) is
The tip of the chimney (10) is covered with a lid (26).

The symbols and phrases in the parentheses indicate the correspondence with the specific means described in the embodiments described later.

(Effect of the first invention)
According to the first invention of the present application, since there is a filling step of foaming the scattering inhibitor and filling the inside of the chimney, the scattering inhibitor permeates the asbestos, so that the asbestos removed is suppressed from scattering. You can also.
Moreover, even when asbestos that has not been impregnated with the scattering inhibitor is removed and asbestos particles that can be scattered are generated, the inside of the chimney is filled with the foam-like scattering inhibitor, so that the asbestos particles are filled. Since the foam-like scattering inhibitor adheres to the asbestos particles, it is possible to prevent the asbestos particles from scattering from the tip of the chimney to the outside of the chimney.
In addition, asbestos particles can be prevented from scattering when the removed asbestos is recovered.
Therefore, there is no risk that the worker who collects the removed asbestos will inhale the asbestos particles and harm his / her health.
Further, unlike the conventional case, it is not necessary to provide an isolation area at the tip of the chimney and cover the entire inner surface of the isolation area with a curing sheet, so that the work cost can be reduced accordingly.
Moreover,

(Effect of the second invention)
According to the second invention of the present application, the opening formed in the lower part of the chimney can be closed by a closing member, and asbestos can be sucked by a suction hose inserted through the closing member.
Therefore, there is no risk that the worker who collects the removed asbestos will inhale the asbestos particles and harm his / her health.
Further, as in the conventional case, there is no need for an isolated area communicating with the opening formed at the lower part of the chimney, a security zone provided next to the isolated area, and an air shower device provided in the security zone. Therefore, the work cost can be reduced.
Moreover, since it is not necessary to periodically interrupt the work in the isolated area or change the worker, the work efficiency can be improved.

(Effect of the third invention)
According to the third invention of the present application, asbestos accumulated in the lower part of the chimney can be sucked by operating the suction hose inserted through the closing member with the gloves attached to both arms.
Moreover, since the operator who operates the suction hose wears gloves on both arms, there is no risk of asbestos touching the operator's skin, so that the safety of the operator can be ensured.
Therefore, there is no risk that the worker who collects the removed asbestos will inhale the asbestos particles or the asbestos adheres to the skin, which will harm the health.
Further, asbestos can be sucked efficiently as compared with the case where the work is performed by fixing the suction hose without operating it, so that the work efficiency can be improved.

(Effect of Fourth Invention)
According to the fourth invention of the present application, since the closing member includes a vent that communicates with the inside and the outside of the chimney, the inside of the chimney can have a negative pressure.
Therefore, the asbestos suction efficiency of the suction device can be improved, so that the work efficiency can be improved.
Moreover, since the vent is provided with a filter that filters the asbestos particles removed by the removal process, it is possible to prevent asbestos from leaking from the vent to the outside of the chimney, thus ensuring safety. Can be done.

(Effect of Fifth Invention)
According to the fifth invention of the present application, asbestos can be removed by covering the tip of the chimney, so that all possible measures can be taken to prevent the removed asbestos particles from scattering from the tip of the chimney.
Further, since the negative pressure inside the chimney can be increased, the asbestos suction efficiency of the suction device can be further improved, so that the work efficiency can be further improved.

It is explanatory drawing of the asbestos recovery system for carrying out the asbestos removal method which concerns on embodiment of this invention. It is explanatory drawing of the suction device provided in the asbestos recovery system shown in FIG. It is explanatory drawing of the closing member provided in the asbestos recovery system shown in FIG. 1, (A) is the front view of the closing member, (B) is the plan view of the closing member. It is a plane explanatory view which shows the use method of the closing member shown in FIG. It is a side explanatory view which shows the usage method of the closing member shown in FIG. It is a process drawing of the asbestos removal method which concerns on embodiment of this invention. It is a flowchart which shows the flow of the process executed by the control part provided in the suction device shown in FIG. It is explanatory drawing which shows the conventional asbestos removal method.

[Asbestos recovery system configuration]
The configuration of the asbestos recovery system for executing the asbestos removal method of the present embodiment will be described with reference to FIG. FIG. 1 is an explanatory diagram of the asbestos recovery system 1.

The building 90 is provided with a chimney 10. The chimney 10 has a cylindrical wall 11 with an open tip. Level 1 asbestos is sprayed on the inner surface of the wall 11. A scaffolding 91 is built on the side of the chimney 10, and a scaffolding 92 is built on the roof of the building 90. A work room 40 is provided on the scaffold 92. Pulleys 23 and 24 are provided in the work room 40. A work vehicle 20, a work vehicle 50, and a work vehicle 80 are arranged in the vicinity of the chimney 10. The work vehicle 20 is equipped with a high-pressure water supply device 21 and a scattering inhibitor supply device 30. A converter 32 that converts a liquid scattering inhibitor into bubbles is connected to the tip of a hose 31 connected to the scattering inhibitor supply device 30. The converter 32 is inserted through the lid 26 that closes the tip of the chimney 10 without a gap. The liquid scattering inhibitor supplied from the scattering inhibitor supply device 30 is converted into bubbles by the converter 32, and the bubbles 33 of the scattering inhibitor converted into bubbles are supplied to the inside of the chimney 10. It takes a predetermined time to fill the inside of the chimney 10.
The type of the scattering inhibitor is not limited as long as it can effectively suppress the scattering of asbestos particles, for example, a water-soluble resin containing polyvinyl alcohol, a urethane resin, an acrylic resin as a main component, or the like. Can be used.

The high-pressure hose 22 connected to the high-pressure water supply device 21 extends into the chimney 10 via the pulleys 23 and 24, and a removal device 25 for removing asbestos is connected to the tip of the high-pressure hose 22. There is. The removing device 25 injects high-pressure water supplied from the high-pressure water supply device 21 onto the inner surface of the wall 11 of the chimney 10, and removes asbestos sprayed on the inner surface by peeling it off by the pressure of water. As the removing device 25, a known device (for example, a tubular structure inner wall cleaning device described in JP-A-2008-149264) can be used. The removing device 25 includes a base portion, an injection nozzle extending radially from the base portion toward the wall 11 of the chimney 10, and an air motor for rotating the base portion in the horizontal direction. Each injection nozzle injects high-pressure water supplied from the high-pressure water supply device 21 via the high-pressure hose 22 onto the inner surface of the wall 11 of the chimney 10, and removes asbestos sprayed on the inner surface of the wall 11 by water pressure. The capacity of the removing device 25 is, for example, to inject high-pressure water of 245 MPa and to have a maximum discharge flow rate of 50 liters / minute. Further, the work vehicle 20 is equipped with a compressed air supply device (not shown) that supplies compressed air to the air motor provided in the removal device 25.

An opening 12 communicating with the inside and the outside of the chimney 10 is formed in the lower wall 11 of the chimney 10, and a closing member 70 for closing the opening 12 is attached to the opening 12. A suction hose 52 that is accumulated in the lower part of the chimney 10 and sucks asbestos Asbestos mixed with water and a scattering inhibitor is inserted into the closing member 70. The suction hose 52 is connected to the asbestos recovery device 51 mounted on the work vehicle 50. The asbestos recovery device 51 is connected to the suction device 81 mounted on the work vehicle 80 via a suction hose 53. The suction device 81 has a function of removing asbestos and the scattering inhibitor from the asbestos mixed with the sucked water and the scattering inhibitor. The suction device 81 is provided with an exhaust pipe 82 for exhausting the gas sucked together with asbestos to the atmosphere.

In this embodiment, a hepa filter (not shown) is attached to the exhaust pipe 82. The hepa filter is defined in JIS Z8122, and is an air filter having a particle collection rate of 99.97% or more and an initial pressure loss of 245 Pa or less with respect to particles having a particle size of 0.3 μm at a rated air volume. .. That is, by using a hepa filter as the filter 78, asbestos particles of 0.3 μm or less can be filtered by 99.97% or more, so that the worker may inhale the asbestos particles discharged into the atmosphere from the vent 77 and harm the health. Is gone.

As described above, the asbestos recovery system 1 of the present embodiment has a removal device 25 that injects high-pressure water onto the inner surface of the chimney 10 to remove asbestos, and a high-pressure water supply device 21 that supplies high-pressure water to the removal device 25. And, the scattering inhibitor supply device 30 that supplies the scattering inhibitor that suppresses the scattering of asbestos, and the scattering inhibitor supplied from the scattering inhibitor supply device 30 is converted into a foam-like scattering inhibitor to form the chimney 10. The converter 32 supplied to the inside, the closing member 70 that closes the opening 12 formed in the lower part of the chimney 10, the suction hose 52 inserted through the closing member 70, and the asbestos recovery to which the suction hose 52 is connected. A device 51 and a suction device 81 connected to the asbestos recovery device 51 are provided. The asbestos recovery device 51 and the suction device 81 are examples of the suction recovery device of the present invention.

(Closing member)
Here, the structure of the closing member 70 will be described with reference to FIG.
The closing member 70 is formed in a shape that matches the opening 12 formed in the lower wall 11 of the chimney 10. In the present embodiment, the opening 12 is formed in a rectangular shape, and the closing member 70 is formed in a rectangular plate shape matching the opening 12. The closing member 70 includes a rectangular plate-shaped main body 71 that matches the opening 12. The main body 71 is attached to an insertion hole 72 formed through for inserting the suction hose 52, a first through hole 73, a second through hole 74, a vent 77, and the vent 77. It is provided with a filter 78. In this embodiment, the filter 78 is the hepa filter described above. Further, the main body 71 is transparently formed of a synthetic resin such as acrylic.

A first glove 75 to be attached to the left arm of the worker P protrudes from the first through hole 73, and a second glove 76 to be attached to the right arm of the worker P is projected from the second through hole 74. It is protruding. The first glove 75 and the second glove 76 have a structure that seals at least a portion closer to the shoulder than the elbow to the fingertip. Further, the periphery of the first glove 75 is in close contact with the periphery of the first through hole 73, and no gap is formed between the first glove 75 and the first through hole 73. Further, the periphery of the second glove 76 is in close contact with the periphery of the second through hole 74, and no gap is formed between the second glove 76 and the second through hole 74.

That is, the main body 71, the first glove 75, and the second glove 76 can be constructed by utilizing the structure of the so-called glove box. A glove box is a closed container designed so that only hands can be put inside so that work can be performed in a situation where it is shielded from the outside air. Further, from the peripheral edge of the insertion hole 72, a skirt portion 72a having a diameter smaller than the diameter of the insertion hole 72 is formed. In the present embodiment, the skirt portion 72a is made of rubber and is in close contact with the outer peripheral surface of the suction hose 52 inserted through the insertion hole 72 so that a gap is not formed between the suction hose 52 and the insertion hole 72.
That is, the closing member 70 has a structure in which asbestos does not leak to the outside of the chimney 10 through the opening 12 when asbestos is sucked.
Further, since the main body 71 is transparent, the position of the suction hose 52 can be visually recognized from the outside of the closing member 70 during the asbestos suction work.

(Asbestos recovery device)
Here, the configuration of the asbestos recovery device 51 will be described with reference to FIG.
The asbestos recovery device 51 is a device that collects asbestos sucked by the suction hose 52. The asbestos recovery device 51 includes a hopper 54, a first sensor 55, a valve device 56, a sealing device 57, a coagulant supply device 58, a filter 59, a recovery bag 61, a second sensor 62, and a control unit. It has 64 and.

The hopper 54 is provided between the suction hose 52 and the suction hose 53 connected to the suction device 81 (FIG. 1). The suction hose 53 is attached to the upper part of the hopper 54. By doing so, the mixture of asbestos, water and the scattering inhibitor discharged from the suction hose 52 can be prevented from directly entering the suction hose 53 with the suction force. At the connection point between the hopper 54 and the suction hose 53, a filter 59 for filtering asbestos sucked inside the hopper 54 is provided. The type of the filter 59 is determined in consideration of the suction force and the filtration capacity, because the finer mesh of the filter 59 reduces the suction force and the coarser mesh means the larger particles of asbestos that are not filtered. For example, a wire mesh such as a demister can be used as the filter 59.
The first sensor 55 is a sensor that detects that the amount of asbestos accumulated in the hopper 54 has reached a predetermined amount. For example, the first sensor 55 is a proximity sensor. Further, a limit switch can be used instead of the proximity sensor. Normally, the bottom of the hopper 54 is open, and the asbestos accumulated in the hopper 54 falls into the collection bag 61 arranged at the bottom of the hopper 54.

The collection bag 61 is placed on a second sensor 62 that detects that the weight of the collection bag 61 has reached a predetermined amount. For example, the recovery bag 61 is made of a material that does not allow asbestos particles to leak, such as polyethylene. When the wall thickness of the collection bag 61 is thin, the collection bag 61 is doubled to prevent damage and prevent asbestos from leaking. Further, in the present embodiment, the capacity of the collection bag 61 is basically a capacity that allows the collected asbestos to be lifted, for example, 20 to 40 liters, because the operator basically lifts and collects the asbestos by hand. When using a recovery bag 61 having a larger capacity (for example, 1 cubic meter), the recovery bag 61 made of polyethylene or the like is commonly known as a flexible container under the registered trademark of Flexible Container Co., Ltd. You may put it in something called (abbreviation of bag) and transport it using a crane or the like.
A valve device 56 for opening and closing the bottom of the hopper 54 is provided at the bottom of the hopper 54. The valve device 56 is normally opened and closed when the second sensor 62 detects that the weight of the collection bag 61 has reached a predetermined amount, and closes the bottom of the hopper 54. For example, the valve device 56 includes a shutter type or butterfly type valve and an actuator such as a solenoid or a motor that opens and closes the valve. The second sensor 62 is, for example, a weight sensor.

Below the valve device 56, a sealing device 57 that seals the opening at the top of the collection bag 61 is provided. In the present embodiment, the sealing device 57 is a heat type or ultrasonic type welding device, and seals the opening of the recovery bag 61 to prevent asbestos from leaking. The sealing device 57 operates after the valve device 56 is closed, and seals the opening of the collection bag 61. Further, the sealing device 57 is configured so that the collection bag 61 can be attached and detached. The sealing device 57 may have a structure in which the collection bags 61 are set so that the longitudinal surfaces forming the opening of the collection bag 61 face each other, and the opposing longitudinal surfaces are welded to each other. Further, the sealing device 57 may have a structure in which the opening of the collection bag 61 is set so as to be circular, the opening is narrowed down, and then the collection bag 61 is bound by a binding member. Further, a structure may be used in which the narrowed portion of the opening is welded.

The coagulant supply device 58 is connected to the sealing device 57 by a hose 60. An injection nozzle 65 that injects a coagulant that coagulates asbestos mixed with water is attached to the tip of the hose 60. The injection hole of the injection nozzle 65 faces the inside of the collection bag 61 from a predetermined member constituting the sealing device 57. The coagulant supply device 58 injects the coagulant from the injection nozzle 65 into the inside of the recovery bag 61, and the asbestos accumulated in the recovery bag 61 and mixed with water is coagulated. The type and concentration of the coagulant are adjusted so that asbestos does not scatter into the atmosphere through the opening of the recovery bag 61. The second sensor 62 and the coagulant supply device 58 are arranged on the base 63. As the coagulant, for example, a high molecular polymer can be used.

The control unit 64 is connected to the valve device 56, the sealing device 57, the coagulant supply device 58, and the suction device 81, and controls each of the connected devices. The control unit 64 has a ROM in which a control program and a table for controlling each device are stored, a RAM in which the control program read from the ROM is expanded and stored, and a control program expanded in the RAM. It has a CPU to execute. In addition, the RAM temporarily stores the processing results of the CPU and the like.

[Asbestos removal method]
Next, the asbestos removal method will be described with reference to FIG.
(Step 1)
First, make preparations for removing asbestos. Specifically, as shown in FIG. 1, a scaffolding 91 is assembled on the side of the chimney 10, and a scaffolding 92 is assembled on the roof of the building 90 in which the chimney 10 is installed so as to surround the tip of the chimney 10. Further, a work room 40 is installed on the scaffold 92, and pulleys 23 and 24 are attached to the work room 40. In addition, work vehicles 20, 50, and 80 are arranged in the vicinity of the chimney 10. Further, the tip of the chimney 10 is covered with a lid 26 to close the tip of the chimney 10, and the converter 32 is inserted through the lid 26 without a gap. Further, the opening 12 formed in the lower wall 11 of the chimney 10 is closed by the closing member 70 without a gap.

(Step 2)
Next, the high-pressure hose 22 is bridged to the pulleys 23 and 24, and the high-pressure hose 22 is connected to the removing device 25. Next, the removal device 25 is lowered to the bottom of the chimney 10.

(Step 3)
Next, the scattering inhibitor is supplied from the scattering inhibitor supply device 30 to the converter 32, the scattering inhibitor is converted into a foam by the converter 32, and the foam-like scattering inhibitor is filled inside the chimney 10. .. The time required for the foam-like scattering inhibitor to be filled inside the chimney 10 is determined in advance by experiments according to the volume of the chimney 10, the amount of the scattering inhibitor discharged by the converter 32 per unit time, and the like. Can be left. Step 3 is an example of the filling step of the present invention.

(Step 4)
Next, the foam-like scattering inhibitor waits for a predetermined time until it permeates the asbestos sprayed on the inner surface of the wall 11 of the chimney 10. This predetermined time can be determined in advance by experiment depending on the type or thickness of asbestos being sprayed.

(Step 5)
Next, the high-pressure water supply device 21 is operated to supply the high-pressure water to the removal device 25 via the high-pressure hose 22. Further, the compressed air supply device is operated to supply the compressed air to the air motor of the removal device 25. As a result, each injection nozzle of the removal device 25 injects high-pressure water onto the inner surface of the wall 11 of the chimney 10 while rotating in the horizontal direction to remove asbestos.

Further, the suction device 81 and the asbestos recovery device 51 are operated to suck asbestos Asbestos that has been removed and accumulated at the bottom of the chimney 10 and mixed with water and a scattering inhibitor, and is recovered by the asbestos recovery device 51. As described above, the worker P who performs the asbestos As suction work inserts the left arm into the first glove 75 (FIG. 3) and the right arm through the second glove 76. Then, as shown in FIGS. 4 and 5, the worker P operates the suction hose 52 with both hands and sucks asbestos As accumulated at the bottom of the chimney 10 by the suction hose 52.

Further, while removing asbestos, the removing device 25 is raised above the chimney 10 at a predetermined rising speed. The removal device 25 is raised by a worker who is in the work room 40 or a worker who is in the vicinity of the work vehicle 20 by pulling up the high pressure hose 22. Further, a wire for pulling up the removing device 25 is attached to the removing device 25, a winding device for winding the wire is placed in the work room 40 or on the ground, and the winding device is operated to raise the removing device 25. You can also. The asbestos rising speed of the removing device 25 can be determined in advance by an experiment according to the removing ability of the removing device 25, the type of asbestos, the thickness of asbestos, and the like. Step 5 is an example of the removal step of the present invention.

(Step 6)
Next, the inside of the chimney 10 is photographed to confirm the asbestos removal state. For example, a camera and a lighting fixture are attached to a wire suspending the removal device 25, the camera and the lighting fixture are raised and lowered inside the chimney 10, the inner surface of the chimney 10 is photographed, and the photographed image is provided at the work site. Check the asbestos removal status by displaying it on the monitor and looking at the image. As a result, when it is found that asbestos remains, steps 2 to 6 are executed again. In this case, if the scattering inhibitor has penetrated into the remaining asbestos, steps 3 and 4 may be omitted and only steps 2, 5 and 6 may be executed.

(Step 7)
Next, the scattering inhibitor is coated on the inner surface of the chimney 10. For example, the scattering inhibitor is injected onto the inner surface of the chimney 10 from each injection nozzle of the removing device 25. Further, it is also possible to attach an injection nozzle for injecting the scattering inhibitor to the removing device 25 and inject the scattering inhibitor from the injection nozzle onto the inner surface of the chimney 10. In this case, the injection speed of the scattering inhibitor does not have to be the injection speed as in the case of injecting high-pressure water to remove asbestos, as long as the injected scattering inhibitor reaches the inner surface of the chimney 10. good. Further, instead of the removing device 25, a method of suspending a dedicated device for injecting a scattering inhibitor inside the chimney 10 and raising and lowering the dedicated device while injecting the scattering inhibitor may be used.

[Processing content of control unit]
Next, the processing content executed by the control unit 64 (FIG. 2) in the above-mentioned step 5 will be described with reference to FIG. 7. In the following description, the processing step executed by the control unit 64 is abbreviated as S.

The control unit 64 outputs an operation command to the suction device 81 (FIG. 1) to start sucking asbestos (S1). The process of S1 starts when the suction switch (not shown) connected to the control unit 64 is turned on. The suction switch can also be arranged in the vicinity of the operator who operates the suction hose 52. Subsequently, the control unit 64 determines whether or not the first sensor 55 (FIG. 2) is turned on (S2), and if it is determined that the first sensor 55 (FIG. 2) is not turned on (S2: No), the valve device 56 (FIG. 2). ) Is closed to close the bottom of the hopper 54 (S3). That is, the control unit 64 keeps the valve device 56 closed until the asbestos accumulated in the hopper 54 reaches a predetermined amount that the first sensor 55 turns on, and the asbestos is accumulated in the hopper 54 in a predetermined amount. Control to be done.

When the control unit 64 determines that the first sensor 55 is turned on (S2: Yes), the control unit 64 opens the valve device 56 and opens the bottom of the hopper 54 (S4). That is, the control unit 64 opens the valve device 56 when the asbestos accumulated in the hopper 54 reaches a predetermined amount to be turned on by the first sensor 55, and collects the asbestos accumulated in the hopper 54 into the collection bag 61. Drop it. Subsequently, the control unit 64 operates the coagulant supply device 58 provided in the asbestos recovery device 51 to inject the coagulant from the injection nozzle 65 into the recovery bag 61 (S5). Subsequently, the control unit 64 determines whether or not the second sensor 62 (FIG. 2) is turned on (S6), and if it is determined that the second sensor 62 (FIG. 2) is turned on (S6: Yes), closes the valve device 56 (S6). S7). That is, when the control unit 64 determines that the asbestos collected in the collection bag 61 has reached a predetermined weight, the control unit 64 closes the bottom of the hopper 54 and the asbestos accumulated in the hopper 54 does not fall into the collection bag 61. To control.

Further, when it is determined that the second sensor 62 is not turned on (S6: No), the control unit 64 executes S1 to S5. That is, the control unit 64 continues sucking asbestos and injecting the coagulant until it is determined that the asbestos recovered in the recovery bag 61 has reached a predetermined weight.
Then, the control unit 64 stops the suction device 81 and the coagulant supply device 58 (S8), and stops the suction of asbestos and the injection of the coagulant. Subsequently, the control unit 64 operates the sealing device 57 (FIG. 2) (S9) to seal the opening of the collection bag 61. Subsequently, the control unit 64 notifies that the collection bag 61 is full of asbestos (S10). For example, a notification lamp and a notification speaker for notifying that the collection bag 61 is full of asbestos are connected to the control unit 64, the notification lamp is turned on, and a predetermined sound is output from the notification speaker. By doing so, the surrounding workers are notified that the collection bag 61 is full of asbestos. The notification lamp and the notification speaker can also be arranged in the vicinity of the operator who operates the suction hose 52.

The operator removes the collection bag 61 from the sealing device 57 and carries the collection bag 61 to a predetermined place. At this time, since the opening of the collection bag 61 is sealed by the sealing device 57, there is no risk of asbestos leaking from the collection bag 61 to the outside, so that the health of the worker carrying the collection bag 61 and the surrounding people is improved. There is no risk of being harmed.
Then, when continuing the asbestos collection work, the operator sets a new collection bag 61 in the sealing device 57, turns on the suction switch (not shown) connected to the control unit 64, and turns on the control unit 64. To execute the above-mentioned S1 to S10.

[Effect of Embodiment]
(1) According to the asbestos removing method of the above-described embodiment, since there is a step 3 (filling step) in which the scattering inhibitor is foamed and filled inside the chimney, the asbestos is removed because the scattering inhibitor permeates the asbestos. It is also possible to suppress the scattering of asbestos.
Moreover, even when asbestos that has not been impregnated with the scattering inhibitor is removed and asbestos particles that can be scattered are generated, the chimney 10 is filled with the foam-like scattering inhibitor, so that the asbestos particles are filled. Since the foam-like scattering inhibitor is attached to the asbestos particles, it is possible to prevent the asbestos particles from scattering from the tip of the chimney 10 to the outside of the chimney 10.
Further, there is no possibility that a person who works in the work room 40 arranged at the tip of the chimney 10 sucks asbestos and harms his / her health.
Therefore, there is no risk that the worker who collects the removed asbestos will inhale the asbestos particles and harm his / her health.
Further, unlike the conventional case, it is not necessary to provide the isolation area 500 at the tip of the chimney 300 and cover the entire inner surface of the isolation area 500 with a curing sheet, so that the work cost can be reduced accordingly.

(2) Moreover, according to the asbestos removing method of the above-described embodiment, the opening 12 formed in the lower part of the chimney 10 is closed by the closing member 70, and the asbestos Asbestos is removed by the suction hose 52 inserted through the closing member 70. Can be aspirated.
Therefore, there is no risk that the worker who collects the removed asbestos will inhale the asbestos particles and harm his / her health.
Further, as in the conventional case, the isolation area 700 communicating with the opening 12 formed in the lower part of the chimney 10, the security zone 800 provided next to the isolation area 700, and the air shower device 801 provided in the security zone 800. Is not required, so that the work cost can be reduced accordingly.
Further, since it is not necessary to periodically interrupt the work in the isolated area or change the worker, the work efficiency can be improved.

(3) Further, according to the asbestos removing method of the above-described embodiment, the suction hose 52 inserted through the closing member 70 is operated with the gloves (75,76) attached to both arms, and the lower part of the chimney 10 is operated. Asbestos As accumulated in the can be sucked.
Moreover, since the worker who operates the suction hose 52 wears gloves (75,76) on both arms, there is no risk of asbestos touching the worker's skin, so that the safety of the worker should be ensured. You can also.
Therefore, there is no risk that the worker who collects the removed asbestos will inhale the asbestos particles or the asbestos adheres to the skin, which will harm the health.
Further, asbestos Asbestos can be sucked efficiently as compared with the case where the suction hose 52 is fixed and the work is performed without operating the hose 52, so that the work efficiency can be improved.

(4) Further, according to the asbestos removing method of the above-described embodiment, since the closing member 70 includes a vent 77 that communicates with the inside and the outside of the chimney 10, the inside of the chimney 10 is subjected to negative pressure. be able to.
Therefore, the suction efficiency of the suction device 81 can be improved, so that the work efficiency can be improved.
Moreover, since the filter 78 for filtering the asbestos As particles removed in the step 5 (removal step) is provided in the vent 77, the asbestos As is prevented from leaking from the vent 77 to the outside of the chimney 10. Therefore, safety can be ensured.

(5) Further, according to the asbestos removing method of the above-described embodiment, asbestos can be removed by covering the tip of the chimney 10 with a lid 26, so that the removed asbestos As particles are scattered from the tip of the chimney 10. You can take all possible measures not to do so.
Further, since the negative pressure inside the chimney 10 can be increased, the suction efficiency of the suction device 81 can be further improved, so that the work efficiency can be further improved.

(6) Further, according to the asbestos removing method of the above-described embodiment, the removed asbestos As can be sucked and recovered with the tip of the chimney 10 closed and the opening 12 closed. .. That is, the removed asbestos As can be recovered in a state where it does not leak from the chimney 10 at all.
Moreover, there is no risk of asbestos As coming into contact with the operator in the steps of asbestos removal, suction and recovery.
Therefore, according to the asbestos removal method of the above-described embodiment, the work can be performed at the work level of level 3, and it is not necessary to take measures such as level 1 and level 2, so that the worker can perform the work accordingly. There is no risk of harming your health.
Further, since it is not necessary to perform the work of curing and isolating the work site, and the worker does not need to wear a mask corresponding to level 1 or level 2, the work cost can be reduced. Further, since it is not necessary to cure and isolate the work site and construct a work environment, the work time can be shortened accordingly.

(7) Further, according to the asbestos removing method of the above-described embodiment, since the chimney 10 is provided with the step 7 of coating the inner surface of the chimney 10 with the scattering inhibitor after the step of removing the asbestos of the chimney 10 is performed. When disassembled, the asbestos remaining on the inner surface of the chimney 10 can be prevented from scattering.
Therefore, it is possible to prevent the worker who disassembles the chimney 10 from sucking asbestos and harming his / her health.

<Other Embodiments>
(1) External factors such as the type of asbestos sprayed on the inner surface of the chimney 10, the thickness of asbestos, the time for the foam-like scattering inhibitor to permeate the asbestos, the volume of the chimney 10, and the foam-like scattering inhibitor. The relationship with the capacity of the scattering inhibitor required to fill the chimney 10 can be obtained by experiments, and if the above external factors are known, the required capacity of the scattering inhibitor can be known.
For example, the correspondence relationship between the external factor and the capacity of the scattering inhibitor is stored in the RAM of the control unit 64 as a table, and the external factor (for example, a numerical input key or the like) connected to the control unit 64 is used to store the external factor. When each value of the factor is input, the control unit 64 refers to the above table of the RAM, and the capacity of the scattering inhibitor corresponding to the input external factor is displayed by a display unit (for example, a liquid crystal display device) connected to the control unit 64. Etc.) can also be configured to be displayed.
Further, when the capacity of the scattering inhibitor supplied by the scattering inhibitor supply device 30 reaches the required capacity described above, the scattering inhibitor supply device 30 is configured to automatically stop the supply of the scattering inhibitor. You can also do it.

(2) Before sucking asbestos As by the suction hose 52, a coating step may be added in which the scattering inhibitor is sucked by the suction hose 52 and the scattering inhibitor is coated on the inner surface of the suction hose 52. By adding this coating step, when the suction hose 52 is removed after sucking asbestos As, the asbestos As remaining inside the suction hose 52 is prevented from leaking to the outside from the tip of the suction hose 52. Therefore, there is no risk that the person at the work site will inhale asbestos and harm the health. Further, the inner surface of the suction hose 53 can be coated with a scattering inhibitor.

(3) A converter 32 is attached to the removing device 25, the removing device 25 is moved up and down inside the chimney 10 while injecting a foam-like scattering inhibitor from the converter 32, and the foam-like scattering inhibitor is applied to the inside of the chimney 10. Can also be filled. Further, it is also possible to inject a scattering inhibitor onto the inner surface of the chimney 10 from each injection nozzle provided in the removing device 25, and allow the injected scattering inhibitor to permeate asbestos. In this case, some injection nozzles may have the same specifications as the converter 32, and the injection nozzles may be configured to inject a foam-like scattering inhibitor.

(4) A camera and a lighting fixture can be attached to the removal device 25 to remove asbestos while checking the asbestos removal state. It is also possible to attach a device for wiping the dirt adhering to the lens of the camera, and the device can wipe the lens regularly or when the dirt is confirmed so as not to interfere with the shooting. In addition, a device for wiping off dirt adhering to the surface of the lighting fixture that emits light can also be attached.

(5) It is also possible to provide a suction device for sucking the gas inside the asbestos recovery device 51 to the outside and suck the asbestos particles floating inside the asbestos recovery device 51. In this case, by providing the above-mentioned hepa filter in the exhaust pipe of the suction device, the sucked asbestos particles can be prevented from leaking into the atmosphere.
Further, it is also possible to provide a member that covers the periphery of the sealing device 57 or the periphery of the valve device 56 and the sealing device 57, and connect the suction device to the member. According to this configuration, even if asbestos leaks from the sealing device 57 or the valve device 56 when the recovery bag 61 is attached or detached from the sealing device 57, the leaked asbestos can be sucked and collected. A person who puts on and takes off the bag 61 does not have a risk of inhaling asbestos and harming his / her health.

(6) When the weight of asbestos collected in the collection bag 61 reaches a predetermined weight, the operation of the suction device 81 is temporarily stopped, the coagulant supply device 58 is operated, and the coagulant in the collection bag 61. It is also possible to use a method of injecting the suction device 81 and restarting the operation of the suction device 81 after the injection of the coagulant is completed. Further, the injection nozzle 65 for injecting the coagulant may be provided in a predetermined member constituting the valve device 56, and the injection hole of the injection nozzle 65 may be configured to face the inside of the recovery bag 61.

1 Asbestos recovery system 10 Chimney 12 Opening 21 High-pressure water supply device 25 Removal device 26 Lid 30 Scattering inhibitor supply device 32 Converter 51 Asbestos recovery device 52 Suction hose 53 Suction hose 54 Hopper 55 First sensor 56 Valve device 57 Sealing device 58 Coagulant supply device 59 Filter 61 Recovery bag 62 Second sensor 64 Control unit 65 Injection nozzle 70 Blocking member 72 Insertion hole 73 First through hole 74 Second through hole 75 First glove 76 Second glove 81 Suction Equipment As Asbestos P Worker

Claims (5)

It is an asbestos removal method that removes asbestos sprayed on the inner surface of the chimney.
A scattering inhibitor for suppressing the scattering of asbestos and a removing device for removing the asbestos by injecting high-pressure water onto the asbestos sprayed on the inner surface of the chimney are prepared.
A filling step in which the shatterproofing agent is foamed and filled inside the chimney.
After the filling step, a removing step of removing the asbestos by moving the removing device for injecting the high-pressure water inside the chimney while injecting the high-pressure water.
A method for removing asbestos, which comprises having. At the lower part of the chimney, an opening communicating with the inside and the outside of the chimney is formed.
A suction recovery device that sucks and recovers the asbestos removed from the inner surface of the chimney.
An insertion hole through which a suction hose connected to the suction recovery device can be inserted is formed, and a closing member capable of closing the opening is prepared.
The removal step is
The asbestos is removed, and the asbestos that has been removed and accumulated in the lower part of the chimney is sucked by the suction hose inserted into the insertion hole of the closing member that has closed the opening. The asbestos removal method according to claim 1. The closing member is formed with first and second through holes.
A first glove that can be inserted through the first through hole and is attached to the left arm,
Prepare a second glove that can be inserted through the second through hole and is attached to the right arm.
The removal step is
The asbestos is removed, the left arm with the first glove is inserted into the chimney through the first through hole, and the right arm with the second glove is inserted into the chimney. Inserted into the chimney through the through hole of 2 and
Further, the left arm having the first glove attached and inserted into the chimney through the first through hole, and the second glove having the second glove attached to the chimney through the second through hole. 2. The second aspect of the present invention is a step of operating the suction hose inserted into the insertion hole by using the right arm inserted inside the chimney to suck asbestos accumulated in the lower part of the chimney. Asbestos removal method described in. The closing member is
A vent that communicates with the inside and outside of the chimney,
The asbestos removing method according to claim 2 or 3, further comprising a filter provided in the vent and filtering asbestos particles removed by the removing step. The removal step is
The asbestos removing method according to any one of claims 1 to 4, wherein the tip of the chimney is covered with a lid.

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