KR102105966B1 - Structure dismantlement method having an automatic controll function for preventing fine dust scatterring based on sensor - Google Patents

Abstract

The present invention relates to a structure dismantling method with a function of preventing fine dust from being scattered, which maximally prevents the fine dust generated during dismantlement of a high layer part and a lower layer part from being leaked to the outside unlike a conventional structure dismantling method and allows the fine dust generated therein to pass through a dust collecting or purifying process to minimize a concentration of the fine dust, thereby preventing air pollution from being generated in a work site in which a structure is dismantled or around the structure. Therefore, the dismantling operation can be implemented in a pleasant environment.

Description

Structure dismantlement method having an automatic controll function for preventing fine dust scatterring based on sensor}

Unlike the conventional structure dismantling method, the present invention prevents the fine dust generated in the process of dismantling the high and low parts from being leaked to the outside, and collects or collects fine dust generated inside, and minimizes the fine dust concentration through the purification process. By doing so, it relates to a method of dismantling a structure having a function of preventing fine dust scattering so that a dismantling operation can be performed in a comfortable environment by preventing air pollution around the work site and surroundings where the structure is dismantled.

Looking at the conventionally implemented method for the demolition of buildings are as follows.

After the system scaffolding is installed along the circumference of the building, maintenance work is carried out using a magic panel or scattering prevention cloth, and a small excavator is lifted to the roof by using a crane.

The demolition work is carried out from the upper side to the lower side of the building through the lifted small excavator.

This conventional demolition method uses a magic panel or shatterproof membrane around the perimeter of the building to block the surrounding danger, but because the demolition work is performed while the ceiling is open, the dust generated during the demolition process is affected by the wind. It spreads everywhere.

Such scattering dust caused many complaints by exacerbating the air pollution around the demolition work site and surrounding areas.

Gradually, strong reduction measures are being implemented to reduce fine dust at the government level, and the Air Pollution Control Act stipulates that prevention facilities are properly installed at construction sites where scattering dust occurs.

Each local government can inspect and instruct them. If violations are found as a result of inspection, they are subject to administrative measures such as warnings, order to take action, suspension of construction, etc., and subject to prosecution. (PQ) will be penalized.

For construction companies that are sentenced to fines or more, when ordering a government-level construction, the preliminary screening of bidding qualifications is subject to deductions in the evaluation of newness in the environmental field.

Therefore, in the process of demolition of buildings, it is urgent to supply technology that does not generate scattering dust, and the present invention is an invention proposed in accordance with such a demand.

Registered Patent 10-1963232 (Registration Date March 26, 2019)

The present invention proposes a method of dismantling the structure, but effectively collects or collects fine dust generated during dismantling in a sensor-based automatic control method and prevents it from being scattered into the atmosphere, and monitors the dismantling operation process in real time. An object of the present invention is to provide a method for dismantling a structure having a function of preventing fine dust scattering.

In order to achieve the above object,

The present invention is a method of dismantling a high-rise building of four or more stories after wrapping the side of the outer periphery of the high-rise building of four or more stories with an anti-scattering tent and lifting the excavator to the roof.

The process of wrapping the side of the outer periphery of the high-rise building with a first shatterproof tent (10), the process of lifting the excavator (20) using a crane on the roof of the tall building, of the first shatterproof tent (10) The process of sealing the open upper ceiling with a second shatterproof awning 30, a number of internal fine dust measuring instruments 40 and a number of water spray devices inside the first and second shatterproof awnings 10, 20 The process of installing 50, the process of installing a plurality of external fine dust measuring instruments 60 on the outside, and any one selected from the outside air conditioner, dust collector or sound pressure machine to collect or purify the fine dust inside the pipe 1 Step (S10) of performing a preliminary preparation for the dismantling of a high-rise building, including the process of installing a species purifier (70),

After measuring the scattering dust generated in the process of dismantling the building using the excavator 20 with the internal fine dust measuring instrument 40, and at the same time measuring the fine dust concentration in the atmosphere through the external fine dust measuring instrument 60, Comparing the difference between the inside and outside fine dust concentration value (S20),

When the difference in the concentration of fine dust compared through the step (S20) exceeds a preset reference value, an alarm signal is transmitted to the central server, and the first and second scattering prevention tents 10 and 20 are transmitted through the central server. By driving the water spraying device (50) installed therein, spraying water is sprayed by using the fine dust generation point intensively generated during the dismantling operation by the excavator (20) as a target point, air conditioner, and dust collector Or a step of purifying the air by driving any one of the purifiers 70 selected from the sound pressure (S30),

The entire process of steps S20 and S30 is photographed in real time through the remote camera 80, and the photographed image is transmitted in real time to a manager or management institution, so that the working situation of the building dismantling site can be grasped in real time. Provides a structure dismantling method capable of automatically controlling the prevention of scattering of fine dust based on a sensor, including the step of supervising management (S40).

And,

The present invention is a method of wrapping up a side of the outer perimeter of a building less than 4 stories with a shatterproof tent and dismantling a low-rise building with less than 4 stories.

The process of wrapping the side of the outer periphery of the low-rise building with a first shatterproof awning 10, a process of sealing the ceiling of the open top of the first shatterproof awning 10 with a second shatterproof awning 30, A process of installing a plurality of internal fine dust measuring devices 40 and a plurality of water spraying devices 50 inside the first and second scattering prevention tents 10 and 20, and a plurality of external fine dust measuring devices 60 outside Preliminary for dismantling the low-rise building, including the process of installing any one purifier 70 selected from an air conditioner, a dust collector, or a negative pressure machine to collect or purify the inside fine dust through a pipe Step of performing the preparation (S10),

By opening one side of the first scattering prevention tent 10, a passage part 11 is formed so that a dismantling operation using an excavator can be performed, and during the dismantling operation, a water spray part and an air spray or air spray part of an air knife To prevent the fine dust inside the first scattering prevention tent 10 from being scattered outside the passage part 11, and when the operation is stopped, the passage part 11 is blocked by a scattering prevention film that moves up and down in a roll manner when the work is stopped. Step (S20) to do,

Fine dust is operated by operating the water spray part and the air spray part of the air curtain or air knife so that the scattering dust generated in the process of dismantling the building using the excavator 20 does not flow out through the passage part 11 While blocking the outflow to the outside, after measuring the internal fine dust concentration measured by the internal fine dust meter 40 and the external fine dust concentration in the atmosphere through the external fine dust meter 60, the internal and external Comparing the difference between the fine dust concentration value (S30),

When the difference in the concentration of fine dust compared through the step (S30) exceeds a preset reference value, an alarm signal is transmitted to the central server, and the first and second scattering prevention tents 10 and 20 are transmitted through the central server. By driving the water spray device (50) installed therein, the spray (20) is sprayed and sprayed water (water) with the target point as the fine dust generation point that occurs intensively during the dismantling operation by the excavator (20). Purifying the air by driving any one type of purifier (70) selected from a dust collector or a negative pressure (S40),

The entire process of steps S20 and S40 is photographed in real time through a remote camera 80, and the photographed image is transmitted in real time to a manager or a management institution, so that the working situation of a building dismantling site can be grasped in real time. Provides a structure dismantling method capable of automatically controlling the prevention of scattering of fine dust based on a sensor, including the step of supervising management (S50).

The method of dismantling a structure having a function of preventing fine dust scattering according to the present invention has the following effects.

first. During the demolition work of high- to low-rise buildings, it is possible to effectively prevent the fine dust generated during the demolition work from being scattered to the outside by completely sealing the structure around the structure and the open top of the roof with a scattering prevention tent. In addition, by measuring the concentration of fine dust inside and outside of the shatterproof membrane, when the concentration difference exceeds the range of the set reference value, it is collected and dropped using a water spray jet, and collected by using a fine dust collector. It has the advantage that environmentally friendly demolition can be performed by minimizing the occurrence of fine dust between demolition works.

second. In particular, the demolition work on the lower floors is formed by opening the front side of one side of the shatterproof tent that wraps around the perimeter of the structure to form a passageway, and is used as a passage for equipment entry, demolition work, and waste transportation, such as an excavator, but air curtain or air on the side of the passageway By forming the air spray part and the water spray part of the knife, the air curtain method is primarily used to block the outflow of scattered dust by airflow, and secondly, collect and drop fine dust with a water spray device to drop through the passage. It has the advantage of being able to block the leakage of fine dust to the outside, so that demolition can be performed through an environmentally friendly method.

third. By significantly reducing the concentration of fine dust in and around the construction site where demolition of building structures is performed, it has the advantage of significantly improving the air pollution problem caused by fine dust compared to the conventional demolition method.

fourth. It is possible to automatically control fine dust generated in the process of dismantling the structure through sensor-based automatic operation, and has excellent work efficiency, and transmits in real time through a manager or a terminal in the management period through an image shot in real time through a camera. It has the advantage that remote management is possible 24 hours a day without limitation on time.

1 is an overall configuration of a high-rise structure according to the structure dismantling method having a fine dust scattering prevention function of the present invention.
Figure 2 is a perspective view showing a panel-type second scattering prevention tent of the first embodiment according to the present invention.
Figure 3 is a perspective view showing a panel-type second scattering prevention tent of the second embodiment according to the present invention.
4 is a triangular roof type according to the present invention A perspective view showing a second shatterproof tent.
Figure 5 is a cross-sectional view showing a knot rope method as a method of fixing the fixture on the lower surface of the tent of the panel-type second shatterproof tent according to the present invention.
Figure 6 is a cross-sectional view showing a ring method as a method of fixing the fixture on the lower surface of the panel-type second shatterproof tent according to the present invention.
Figure 7 is a side cross-sectional view showing an example of the connection structure between the tent and the tent constituting the panel-type second shatterproof tent according to the present invention.
Figure 8 is a perspective view showing a state in which a water spraying device is installed on the panel-type second scattering prevention tent according to the present invention.
9 is a triangular roof type according to the present invention A perspective view showing a state in which a water spraying device is installed on the second scattering prevention tent.
10 is a front view of the water spraying apparatus shown in FIGS. 8 and 9;
11 is an enlarged side view and a side view of an excavator used in the structure dismantling method according to the present invention.
12 is an overall configuration of a lower layer structure according to the structure dismantling method having a function of preventing fine dust scattering of the present invention.
Figure 13 is a perspective view showing the overall configuration of the passage according to the invention.
14 is a side view showing the overall configuration of a passage according to the present invention.

Hereinafter, a detailed description of the structure dismantling method capable of automatically controlling the prevention of scattering of fine dust based on the sensor according to the present invention will be described with reference to the drawings.

As shown in Figure 1,

A structure-dismantling construction method capable of automatically controlling fine dust scattering prevention based on a sensor according to the present invention is a construction method that includes dismantling a high-rise building over 4 stories and a low-rise building under 4 stories.

First, looking at the method of dismantling the high-rise buildings of the above four floors,

The process of wrapping the side of the outer circumference of a high-rise building of 4 or more stories with a first shatterproof tent (10), a process of lifting the excavator (20) using a crane on the roof of the tall building, the first shatterproof tent (10) ) The process of sealing the upper ceiling of the open top with a second shatterproof awning 30, a number of internal fine dust gauges 40 and a number of water sprays inside the first and second shatterproof awnings 10, 20 The process of installing the injector 50, the process of installing a number of external fine dust measuring instruments 60 on the outside, and the outside of the air conditioner, dust collector or sound pressure to be selected to collect or purify the fine dust inside the pipe Step (S10) of performing a preliminary preparation for the dismantling of high-rise buildings, including the process of installing any one type of purifier (70),

After measuring the scattering dust generated in the process of dismantling the building using the excavator 20 with the internal fine dust measuring instrument 40, and at the same time measuring the fine dust concentration in the atmosphere through the external fine dust measuring instrument 60, Comparing the difference between the inside and outside fine dust concentration value (S20),

When the difference in the concentration of fine dust compared through the step (S20) exceeds a preset reference value, an alarm signal is transmitted to the central server, and the first and second scattering prevention tents 10 and 20 are transmitted through the central server. By driving the water spraying device (50) installed therein, spraying water is sprayed by using the fine dust generation point intensively generated during the dismantling operation by the excavator (20) as a target point, air conditioner, and dust collector Or a step of purifying the air by driving any one of the purifiers 70 selected from the sound pressure (S30),

The entire process of steps S20 and S30 is photographed in real time through the remote camera 80, and the photographed image is transmitted in real time to a manager or management institution, so that the working situation of the building dismantling site can be grasped in real time. And supervising the management (S40).

Step S10 is a preliminary preparation process for dismantling a high-rise building,

The process of wrapping the side of the outer circumference of a high-rise building of 4 or more stories with a first shatterproof tent (10), a process of lifting the excavator (20) using a crane on the roof of the tall building, the first shatterproof tent (10) ) The process of sealing the upper ceiling of the open top with a second shatterproof awning 30, a number of internal fine dust gauges 40 and a number of water sprays inside the first and second shatterproof awnings 10, 20 The process of installing the injector 50, the process of installing a number of external fine dust measuring instruments 60 on the outside, and the outside of the air conditioner, dust collector or sound pressure to be selected to collect or purify the fine dust inside the pipe It includes the process of installing any one type of purifier (70).

The installation method of the first scattering prevention tent 10 may be applied as it is. However, in the case of the second scattering prevention tent 30, it is preferable to apply the technology presented in the present invention as it is applied differently from the conventional method.

The second shatterproof awning 30 is configured to cover and prevent the opening of the upper portion of the building formed by the first shatterproof awning 10.

2 to 4,

The second shatterproof tent 30 is selected from panel type 30A or triangular roof type 30B.

The panel type (30A) is formed by fixing a fixing member (302A) selected from a wire or scaffolding pipe in a lattice form on the lower surface of any one type of tent (301A) selected from a sheet, a plate-shaped tent or a panel,

The triangular roof type 30B is formed by fixing any one type of tent 302B selected from a sheet, a plate-shaped tent, or a panel to the upper and side surfaces of the triangular roof-shaped frame structure 301B.

The panel-type second scattering prevention tent 30 may be of two embodiments.

2 is a first embodiment of the panel-type second scattering prevention membrane 30,

5 and 6, a first fixing portion 30a selected from a knot rope or a ring is formed so as to fix the fixture on the lower surface of the tent 301A.

3 is a second embodiment of the panel-type second scattering prevention membrane 30,

The tent 301A forms a cross-shaped three-dimensional structure so as to fix the fixture on the lower surface, and a second fixing portion 30b is formed on the lower surface of the tent coupling groove 301b,

The fixed bar 302A selected from the wire or scaffolding pipe fixedly formed on the lower surface of the tent 301A is formed to be fixed to the fixed bar formed on both sides of the tent 301A by using a turnbuckle.

The panel-type second shatterproof tent 30 is formed by using a plurality of tents, wherein the connection between the tents 301A uses a Velcro (aka 'sweep)' as shown in FIG. 7 or selects among tapes. It is made through the connecting means (30b).

8 and 9, the second shatterproof awning 30 is provided with a water spray device 31 on the lower surface.

The water injection device 31 is

8 to 10, a drain pipe 311 formed on a lower portion of the fixing table 302A selected from wire or scaffolding pipes,

A water jet opening 312 formed in a large number under the drain pipe 311;

It is composed of a fixing portion 313 forming a ring structure for fixing the drainage pipe 311.

The water spraying device 31 continuously sprays and sprays water from the ceiling to the floor during the structure dismantling construction, thereby doubling the effect of preventing and reducing the leakage of fine dust by the water spraying device and purifier.

11 is an enlarged view of the side surface of the excavator 20 and the crusher 21 used in the structure dismantling method of the present invention.

The excavator 20 is used in the same way to dismantle the low-rise and high-rise structures.

The crusher 21 installed at the front end of the excavator 20 and crushing the structure includes one or two or more heights selected from a gyro sensor, a tilt sensor, an individual presence sensor, a position sensor, a displacement sensor, or an angle sensor. The position measurement sensor 211 is installed.

The height and position information measured by the sensor 211 installed in the crusher 21 is transmitted to the water spraying apparatus 50, and the water spraying apparatus 50 is crushed by the crusher 21 It is configured to spray or spray water or mist by accurately aiming at the point where fine dust is intensively generated in the process.

The excavator 20 may be operated directly by a person, or may selectively take autonomous operation by remote control or artificial intelligence, thereby minimizing manpower or disposing of the structure at the time of dismantling the structure. Dismantling can be done, and the entire process can be controlled through a central server.

The technology for spraying or spraying water or mist in connection with the excavator 20 is the artificial intelligence type for the dismantling method of the applicant's registration patent 10-2041945 (registration date 01/01/2019) Scattering Dust Removal System '.

However, although the position in which the water spraying apparatus 50 is installed in the registered patent 10-2041945 and the present invention is different from the present invention, the operation principle is the same.

Unlike the registered patent 10-2041945, the present invention can be achieved by reducing the structure to be dismantled by enclosing the sides and the top with a shatterproof tent, and reducing the fine dust in the sealed structure without leaking to the outside. Presenting an efficient dismantling method.

Step S20 is a step of comparing the difference between the inside and outside fine dust concentration values.

As illustrated in FIG. 1, the internal fine dust measuring instrument 40 and the external fine dust measuring instrument 60 are installed in multiples, both inside and outside, around the scattering prevention tents 10 and 30.

After measuring the scattering dust generated in the process of dismantling the building using the excavator 20 with the internal fine dust measuring instrument 40, and at the same time measuring the fine dust concentration in the atmosphere through the external fine dust measuring instrument 60, Compare the difference between the inside and outside fine dust concentration values.

The internal fine dust measuring instrument 40 and the external fine dust measuring instrument 60 will always measure the surrounding fine dust concentration, wherein the internal fine dust measuring instrument 40 is fine inside the interior surrounded by the shatterproof membrane (10, 30) The dust concentration is measured, and the external fine dust measuring instrument 60 measures the concentration of fine dust outside the scattering prevention tents 10 and 30.

In step S30, when the difference in the concentration of fine dust compared through the step (S20) exceeds a preset reference value, an alarm signal is transmitted to the central server, and the first and second scattering prevention tents 10 are transmitted through the central server. , 20) By spraying the water spray device 50 installed inside, spray water is sprayed with water as the target point for the occurrence of fine dust generated intensively during the dismantling operation by the excavator 20, This is a step of purifying air by driving any one type of purifier 70 selected from an air conditioner, a dust collector, or a negative pressure machine.

The water spraying apparatus 50 sprays or sprays water or mist in the direction of the crusher 21 formed at the front end of the excavator 20.

At this time, any one or two or more height and position measurement sensors 211 selected from a gyro sensor, a tilt sensor, an entity presence sensor, a position sensor, a displacement sensor, or an angle sensor are installed in the crusher 21, and the sensor The spraying or spraying direction of the water spraying apparatus 50 is automatically controlled according to the positional information.

The water spraying apparatus 50 is provided with at least two or more periphery so as to surround the excavator 20, water or mist is sprayed or sprayed in three dimensions. Due to this method, fine dust generated explosively at the point of crushing by the crusher can be effectively collected and dropped in a downward direction.

The purifier 70 is driven simultaneously with the driving of the water spraying apparatus 50.

The purifier 70 is installed outside the scattering prevention tents 10 and 30, and collects or purifies fine dust generated inside the scattering prevention tents 10 and 30 through a pipe.

In this way, the fine dust generated in the process of dismantling the high-rise buildings is collected and collected to minimize the concentration of fine dust, and the fine dust inside is completely surrounded by the shatterproof awnings (10, 30) so that the inside fine dust is external. By not being scattered, it is possible to effectively prevent the surrounding air from being polluted by fine dust generated in the dismantling process.

In step S40, the entire process of steps S20 and S30 is photographed in real time through a remote camera 80, and the photographed image is transmitted in real time to a manager or a management institution to grasp the working situation of the building dismantling site in real time. It is the step of supervising the management to make it possible.

Through the remote camera 80, the manager or management organization can check the real-time status of the site where the structure dismantling process is being performed, regardless of time and place, through a portable terminal or monitor, so management supervision can be more effectively performed. .

Next, let's look at how to dismantle low-rise buildings with less than 4 stories.

As shown in Figure 12,

The method of dismantling the low-rise buildings below the 4th floor

The process of wrapping the side of the outer periphery of the low-rise building with a first shatterproof awning 10, a process of sealing the ceiling of the open top of the first shatterproof awning 10 with a second shatterproof awning 30, A process of installing a plurality of internal fine dust measuring devices 40 and a plurality of water spraying devices 50 inside the first and second scattering prevention tents 10 and 20, and a plurality of external fine dust measuring devices 60 outside Preliminary for dismantling the low-rise building, including the process of installing any one purifier 70 selected from an air conditioner, a dust collector, or a negative pressure machine to collect or purify the inside fine dust through a pipe Step of performing the preparation (S10),

By opening one side of the first scattering prevention tent 10, a passage part 11 is formed so that a dismantling operation using an excavator can be performed, and during the dismantling operation, a water spray part and an air spray or air spray part of an air knife To prevent the fine dust inside the first scattering prevention tent 10 from being scattered outside the passage part 11, and when the operation is stopped, the passage part 11 is blocked by a scattering prevention film that moves up and down in a roll manner when the work is stopped. Step (S20) to do,

Fine dust is operated by operating the water spray part and the air spray part of the air curtain or air knife so that the scattering dust generated in the process of dismantling the building using the excavator 20 does not flow out through the passage part 11 While blocking the outflow to the outside, after measuring the internal fine dust concentration measured by the internal fine dust meter 40 and the external fine dust concentration in the atmosphere through the external fine dust meter 60, the internal and external Comparing the difference between the fine dust concentration value (S30),

When the difference in the concentration of fine dust compared through the step (S30) exceeds a preset reference value, an alarm signal is transmitted to the central server, and the first and second scattering prevention tents 10 and 20 are transmitted through the central server. By driving the water spray device (50) installed therein, the spray (20) is sprayed and sprayed water (water) with the target point as the fine dust generation point that occurs intensively during the dismantling operation by the excavator (20). Purifying the air by driving any one type of purifier (70) selected from a dust collector or a negative pressure (S40),

The entire process of steps S20 and S40 is photographed in real time through a remote camera 80, and the photographed image is transmitted in real time to a manager or a management institution, so that the working situation of a building dismantling site can be grasped in real time. And supervising the management (S50).

As shown in FIG. 12, the dismantling method of the low-rise building with less than 4 floors does not dismantle the excavator 20 by lifting the roof 20 on the roof, unlike the dismantling method of the high-rise building. Is done.

Therefore, the dismantling method of the same method as that of the high-rise building is performed, but one side passage 11 of the first scattering prevention tent 10 is formed so that the dismantling operation using an excavator can be smoothly performed on the ground.

The passage part 11 is used as a passage for equipment entry, demolition work, and waste transportation, such as an excavator.

The passage portion 11, as shown in Figures 13 and 14,

The passage portion 11 and the body portion 111 forming a frame structure of the ┌┐ using the system scaffolding (111a),

And the water spray portion 112 is installed in the longitudinal direction on both sides of the front of the body portion 111,

The air spray portion 113 of the air curtain or air knife installed in the longitudinal direction on both sides of the rear of the body portion 111,

A scattering prevention film 114 is installed on the upper portion of the body 111 and rolled in the vertical direction by the motor 114a,

A water tank 115 for supplying water to the water spray part 112;

It includes a compressed air supply device 116 for supplying compressed air to the air spray portion 113 of the air curtain or air knife.

The passage part 11 is provided with a water spray part portion 112 in the outward direction in which the first scattering prevention tent 10 is installed, and an air spray part 113 of the air curtain or air knife in the inner direction. Is installed.

The water spray part 112 and the air spray part 113 of the air curtain or air knife are spray-sprayed in opposite directions from each other to compress air and water between the inside and outside of the first scattering prevention membrane 10. ) To form a blocking wall.

The first scattering prevention tent 10 is first blocked by the air spray or spray portion 113 of the air curtain or air knife, and then the water spray portion 112 is generated. By secondary blocking, it is possible to effectively prevent the scattering dust from flowing out.

That is, by forming an air spray or water spray part of the air curtain or air knife on the side of the passage part 11, firstly, the air curtain or air knife method is used to block the outflow of scattered dust by airflow, and secondary By collecting and dropping fine dust with a water spray device, it is possible to effectively prevent scattering dust generated in the process of demolishing a building by an excavator from being scattered outside through the passage.

This method prevents scattering dust from interfering with the outside of the equipment without interfering with equipment entering the demolition, demolition work, and discharging waste through the passage part 11, thereby increasing work efficiency while simultaneously It can effectively block fine dust.

In addition, a scattering prevention film is installed on the upper portion of the passage 11 to move up and down in a roll manner driven by a motor 114a. It can block the leakage of fine dust to the outside.

In addition, during the dismantling work such as daytime, the shatterproof film 114 is rolled up in a roll manner so that the demolition work can be smoothly performed.

The structure dismantling method having a function of preventing fine dust scattering according to the present invention When demolishing from a high-rise building to a low-rise building structure, the high-rise part completely closes the side and top surfaces to complete the demolition work. When the low-rise part is demolished, the side and top surfaces are completely closed. The demolition work is carried out toward the inside, and at this time, when the high-rise and low-rise parts are demolished, the fine dust generated from the inside is blocked and collected so that it does not scatter to the outside. By providing the advantage of being, it has great industrial applicability.

10: first scattering prevention tent
20: excavator
30: second scattering prevention tent
40: internal fine dust meter
50: water spray device
60: external fine dust meter
70: purifier
80: remote camera

Claims (10)

In the method of dismantling the building after wrapping the side of the outer perimeter of the building with a shatterproof tent and lifting the excavator to the rooftop,

As a method of dismantling high-rise buildings with 4 or more stories,
The process of wrapping the side of the outer periphery of the high-rise building with a first shatterproof tent (10), the process of lifting the excavator (20) using a crane on the roof of the tall building, of the first shatterproof tent (10) The process of sealing the open upper ceiling with a second shatterproof awning 30, a number of internal fine dust measuring instruments 40 and a number of water spray devices inside the first and second shatterproof awnings 10, 20 The process of installing 50, the process of installing a plurality of external fine dust measuring instruments 60 on the outside, and any one selected from the outside air conditioner, dust collector or sound pressure machine to collect or purify the fine dust inside the pipe 1 Step (S10) of performing a preliminary preparation for the dismantling of a high-rise building, including the process of installing a species purifier (70),
After measuring the scattering dust generated in the process of dismantling the building using the excavator 20 with the internal fine dust measuring instrument 40, and at the same time measuring the fine dust concentration in the atmosphere through the external fine dust measuring instrument 60, Comparing the difference between the inside and outside fine dust concentration value (S20),
When the difference in the concentration of fine dust compared through the step (S20) exceeds a preset reference value, an alarm signal is transmitted to the central server, and the first and second scattering prevention tents 10 and 20 are transmitted through the central server. By driving the water spraying device (50) installed therein, spraying water is sprayed by using the fine dust generation point intensively generated during the dismantling operation by the excavator (20) as a target point, air conditioner, and dust collector Or a step of purifying the air by driving any one of the purifiers 70 selected from the sound pressure (S30),
The entire process of steps S20 and S30 is photographed in real time through the remote camera 80, and the photographed image is transmitted in real time to a manager or management institution, so that the working situation of the building dismantling site can be grasped in real time. A structure dismantling method capable of automatically controlling the prevention of scattering of fine dust based on a sensor, comprising the step of supervising the management (S40).
The method according to claim 1,
The second shatterproof tent 30 is a panel type (30A) or triangular roof type (30B),
The panel type (30A) is formed by fixing a fixing member (302A) selected from a wire or scaffolding pipe in a lattice form on the lower surface of any one type of tent (301A) selected from a sheet, a plate-shaped tent or a panel,
The triangular roof type 30B is a sensor characterized in that it is formed by fixing any one type of tent 302B selected from a sheet, a plate-shaped tent or a panel on the upper and side surfaces of the triangular roof-shaped frame structure 301B. A structure dismantling method that enables automatic control of scattering prevention based on fine dust.
The method according to claim 2,
The panel-type second scattering prevention tent 30 is a sensor-based fine dust scattering characterized in that a first fixing part 30a selected from a knot rope or a ring is formed so as to fix the fixture on the lower surface of the tent 301A. Structure dismantling method that can prevent automatic control.
The method according to claim 2,
The panel-type second scattering prevention tent 30 forms a cross-shaped three-dimensional structure to fix the fixture on the lower surface of the tent 301A, and a second fixing portion 30b is formed on the lower surface to form a fixing groove 301b. ,
The fixed base 302A selected from wires or scaffolding pipes fixedly formed on the lower surface of the tent 301A is coupled to the fixed bar formed at both ends of the tent 301A by using a turnbuckle to secure the sensor base. A structure dismantling method capable of automatically controlling fine dust scattering.
The method according to claim 2,
The panel-type second scattering prevention tent 30 is a sensor-based structure that allows automatic control of scattering prevention of fine dust scattering, characterized in that connection between tents 301A is made through a connecting means 30b selected from velcro or tape. .
The method according to claim 2,
The second scattering prevention tent 30 is a water spray device 31 is installed on the lower surface,
The water injection device 31 is
Drainage pipe 311 formed under the fixture (302A) selected from a wire or scaffolding pipe,
A water jet opening 312 formed in a large number under the drain pipe 311;
A structure dismantling method capable of automatically controlling fine dust scattering prevention based on a sensor, characterized in that it comprises a fixing part (313) forming a ring structure for fixing the drainage pipe (311).
In the construction method of covering the side of the outer perimeter of the building with a shatterproof tent and dismantling the building,

As a method of dismantling low-rise buildings with less than 4 stories,
The process of wrapping the side of the outer periphery of the low-rise building with a first shatterproof awning 10, a process of sealing the ceiling of the open top of the first shatterproof awning 10 with a second shatterproof awning 30, A process of installing a plurality of internal fine dust measuring devices 40 and a plurality of water spraying devices 50 inside the first and second scattering prevention tents 10 and 20, and a plurality of external fine dust measuring devices 60 outside Preliminary for dismantling the low-rise building, including the process of installing any one purifier 70 selected from an air conditioner, a dust collector, or a negative pressure machine to collect or purify the inside fine dust through a pipe Step of performing the preparation (S10),
By opening one side of the first scattering prevention tent 10, a passage part 11 is formed so that a dismantling operation using an excavator can be performed, and during the dismantling operation, a water spray part and an air spray or air spray part of an air knife To prevent the fine dust inside the first scattering prevention tent 10 from being scattered outside the passage part 11, and when the operation is stopped, the passage part 11 is blocked by a scattering prevention film that moves up and down in a roll manner when the work is stopped. Step (S20) to do,
Fine dust is operated by operating the water spray part and the air spray part of the air curtain or air knife so that the scattering dust generated in the process of dismantling the building using the excavator 20 does not flow out through the passage part 11 While blocking the outflow to the outside, after measuring the internal fine dust concentration measured by the internal fine dust meter 40 and the external fine dust concentration in the atmosphere through the external fine dust meter 60, the internal and external Comparing the difference between the fine dust concentration value (S30),
When the difference in the concentration of fine dust compared through the step (S30) exceeds a preset reference value, an alarm signal is transmitted to the central server, and the first and second scattering prevention tents 10 and 20 are transmitted through the central server. By driving the water spray device (50) installed therein, the spray (20) is sprayed and sprayed water (water) with the target point as the fine dust generation point that occurs intensively during the dismantling operation by the excavator (20). Purifying the air by driving any one type of purifier (70) selected from a dust collector or a negative pressure (S40),
The entire process of steps S20 and S40 is photographed in real time through a remote camera 80, and the photographed image is transmitted in real time to a manager or a management institution, so that the working situation of a building dismantling site can be grasped in real time. A structure dismantling method capable of automatically controlling the prevention of scattering of fine dust based on a sensor, comprising the step of supervising the management (S50).
The method according to claim 1 or claim 4,
Excavator 20 is installed at the front end of the excavator to the crushing machine 21 that crushes the structure, any one or two or more heights selected from a gyro sensor, a tilt sensor, an entity presence sensor, a position sensor, a displacement sensor, or an angle sensor And by installing the position sensor 211,
The height and position information measured by the sensor 211 installed in the crusher 21 is transmitted to the water spraying apparatus 50, and the water spraying apparatus 50 is crushed by the crusher 21 Sensor-based fine dust scattering prevention automatic control structure dismantling method, characterized in that it is configured to accurately aim at the point where fine dust is intensively generated in the process and spray spray water.
The method according to claim 4,
The passage portion 11 and the body portion 111 forming a frame structure of the ┌┐ using the system scaffolding (111a),
And the water spray portion 112 is installed in the longitudinal direction on both sides of the front of the body portion 111,
The air spray portion 113 of the air curtain or air knife installed in the longitudinal direction on both sides of the rear of the body portion 111,
A scattering prevention film 114 is installed on the upper portion of the body 111 and rolled in the vertical direction by the motor 114a,
A water tank 115 for supplying water to the water spray part 112;
Sensor-based fine dust scattering prevention automatic control structure dismantling method comprising a compressed air supply device 116 for supplying compressed air to the air spray injection unit 113 of the air curtain or air knife.
The method according to claim 9,
The water spray part 112 and the air spray part 113 of the air curtain or air knife are spray-sprayed in opposite directions from each other to compress air and water between the inside and outside of the first scattering prevention membrane 10. ) To form a blocking wall, so that the scattering dust inside the first scattering prevention tent 10 is prevented from leaking to the outside. .

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