KR20100000465A - Removing method of dust rising in structure demolition - Google Patents

Abstract

PURPOSE: A method for removing dust flying in structure demolition is provided to remove dust by spraying a dust removal solution to form fog screens over the dust source. CONSTITUTION: A method for removing dust flying in structure demolition comprises the steps of: arranging foaming dust removal solution spray devices(10) around a target structure(S), putting a propellant unit in each foaming dust removal solution spray device and manipulating to explode at a time, filling enough amount of dust removal solution in each foaming dust removal solution spray device, and expelling the dust removal solution at a time by the explosion propulsion force of the propellant unit so that fog screens(FS) formed by the dust removal solution cover a dust source(P).

Description

Removal method of dust rising in structure demolition}

The present invention covers the dust generation point by the fog screens formed by spinning the dust removal liquid as the dust generated during the dismantling of the structure as foamed dust removal liquid spinning apparatus, so that a large amount is generated when the structure is blasted and collapsed The present invention relates to a method for removing dust generated during blast dismantling of structures that enables efficient adsorption and removal of dust spreading rapidly and widely in the atmosphere.

Dust generated during various constructions is a cause of serious civil complaints by polluting the surrounding air environment. Recently, a lot of efforts have been made to remove dust generated during construction at each construction site.

On the other hand, the blasting structure dismantling construction proceeded in order to dismantle the old structure, by dispersing the gunpowder properly in the structure and then blasting with a time difference, so that the structure is disintegrated by gravity in an unbalanced state.

In this way, the blasting structure dismantling work can be blasted and dismantled with explosives that can be easily installed. Therefore, the construction time can be shortened and the construction cost can be reduced compared to the mechanical structure dismantling work that uses the equipment to crush and dismantle the structure. It is known that it is very difficult to remove dust generated when the structure is blasted and dismantled.

That is, dust generated during blast dismantling of the structure is generated in a large amount at the moment of collapse of the structure, and it is rapidly and widely spread in the air. Therefore, as a general dust barrier or dust removal equipment currently used in construction sites, Dust generated during blast dismantling of structures could not be efficiently removed.

Conventionally, the best option to remove the dust generated during the blast dismantling of the structure is to remove the dust by using a high pressure spraying equipment.

Conventional dust removal method using a high pressure sprinkling equipment is to place the high pressure sprinkling equipment around the structure of the blasting target, and when the structure is blasted and collapsed, the water is sprayed at a high pressure toward the dust generation point, generated from the collapsed structure Dust was adsorbed and removed.

However, according to the conventional dust removal method using the high pressure water spraying equipment, the water sprayed at high pressure toward the dust generating point in the high pressure water spraying equipment is blasted in the form of water droplets or streams, so that both the spraying width and the contact area are small, the structure is blasted. The rate of desorption for dust, which is generated in large quantities at the moment of decay and rapidly spreads widely in the atmosphere, is extremely poor, with severe consequences of dust contamination around the construction site where the structure is dismantled and blasted.

The present invention by arranging the foamed dust removal liquid spinning apparatus around the structure of the blasting dismantling object, and the number of fog screens formed by spinning the dust removal liquid at the moment by the explosion propulsion force of the propelling charge unit can cover the dust generation point, It is an object of the present invention to provide a method for removing dust generated during blast dismantling, which maximizes the removal efficiency of dust generated at the dust generating point when the structure is blasted and collapsed.

Dust removal method generated during the blast dismantling of the structure of the present invention, the installation step of the dust removal liquid spinning device for arranging the foamed dust removal liquid spinning apparatus 10 arranged around the structure (S) of the blasting demolition target;

A setting step of the propelling charge unit for inputting the propelling charge units 20 prepared in advance for each of the dust removing liquid radiating apparatuses 10 and setting them to explode at a time;

A dust removal liquid filling step of injecting and filling each of the dust removing liquid radiating apparatuses 10 with a sufficient amount of the dust removing liquid 30 to fill an internal space thereof;

A plurality of fog screens formed by spinning the dust removal solution 30 at a time by the explosive propulsion force of the propelling charge unit 20 introduced to the dust removal solution radiating devices 10 at the time when the structure S is blasted and collapsed ( FS) to form a fog screen to cover the dust generating point (P);

As described above, the present invention arranges and installs the foamed dust removing liquid spinning device 10 around the structure S of the blast dismantling object, and explodes the propulsion force of the propulsion charging unit 20 that is set for each dust removing equipment spinning device. A large number of fog screens (FS) formed by spinning the dust removal solution 30 at a time to cover the dust generation point (P), so that a large amount of dust generated at the dust generation point to spread rapidly and widely in the atmosphere Since it can be removed by contacting as much as possible in a state that prevents the escape from the escape, there is an advantage to maintain a clean air environment without contaminating the structure around the construction site where the structure is dismantled and blasted with dust.

Hereinafter, the technical contents of the present invention will be described in detail by working steps through specific embodiments shown in the accompanying drawings.

Figure 1a shows the installation step of the dust removal liquid spinning apparatus.

The dust removal liquid radiator 10 is dust generation point (P) at a point separated by a sufficient distance from the structure (S) in consideration of its performance, the height, scale, position and wind direction of the structure (S) to be blasted. ) So that the radiation direction and the radiation angle are aligned.

This not only makes it possible to efficiently discharge the dust removal liquid 30 toward the dust generation point P during the blast dismantling of the structure S, but also ensures the safety of workers when the structure S collapses and emits the dust removal liquid. It is helpful to prevent the devices 10 from breaking.

In the embodiment of the present invention, the dust removal liquid spinning apparatus 10 is illustrated as having one or more rows arranged in one set of a plurality of dust removal liquid spinning apparatus 10 on one side around the structure (S).

This is because fog screens (FS) formed of the dust removal liquid 30 radiated from the dust removal liquid radiator 10 installed in one or more rows arranged on one side of the structure (S) cover the dust generation point (P) by one or more rows. In addition, when the structure (S) is blasted and collapsed, it is exemplified as being able to efficiently adsorb and remove dust that is generated in a large amount at the dust generating point (P) and rapidly spreads widely in the atmosphere.

In addition, the dust removing liquid radiating apparatuses 10 are formed of the dust removing liquid 30 emitted from the individual dust removing liquid radiating apparatus so that a plurality of fog screens FS covering the dust generating point P overlap each other. By setting the interval, when the structure (S) is blasted and collapsed, it is preferable that dust generated in a large amount at the dust generation point (P) falls out between the fog screens (FS) and does not occur in the air.

Here, the dust removing liquid spinning device 10 is a hollow cylinder shape as shown in Figure 2, the lower part is blocked, the upper part is open and the radiation barrel 11 is equipped with a tight closing opening and closing door (11a) It has a support frame 12 is provided with a radial angle adjustment mechanism 12a that can adjust the radiation angle while directionally supporting the radiation cylinder 11, the direction of the radiation cylinder 11 toward the dust generating point (P) While setting the angle and the propulsion charge unit 20 in the spinning barrel in the setting and filling the dust removal liquid 30 is injected, so as to give the dust removal liquid 30 to the explosion propulsion force of the propelling charge unit 20 to give. The constructed one is used.

At this time, the closing door 11a is preferably provided with an airtight wiring passage 11b so that the wire 22 of the propulsion charge unit 20 can be drawn out and wired to the outside.

Figure 1b shows the setting step of the propelling charge unit.

The propulsion charge unit 20 is to be set so that the dust removal liquid spinning device 10 arranged in the periphery of the structure (S) and foamed at a time. The propelling charge unit 20 set as described above generates an explosion propulsion force in the radiation cylinder 11 of the dust removing liquid radiating apparatus 10 so that the dust removing liquid 30 can be radiated.

In addition, the propelling charge unit 20 is prepared in advance by filling and sealing the primer 23 connected to the line 22 with a predetermined amount of gunpowder 21 in the soft case 24, the prepared propelling charge unit ( 20) after the dust removal liquid radiator 10 is arranged in the vicinity of the structure (S) is set in such a way that it can be injected into the spinning barrel 11 of the individual dust removal liquid radiator and foamed at one time.

In addition, the gunpowder 21 of the propelling charge unit 20 reveals that it is possible to use a black powder or a low-performance gunpowder with a low explosion noise, or a lead-free powder that generates less explosive gas.

In addition, it is important that the gunpowder 21 of the propelling charge unit 20 sets an explosion time 2 to 6 seconds after the structure S is blasted and collapsed. The reason is that the amount of dust generated at the dust generating point P is small when 2 seconds or less from the time when the structure S is blasted and collapsed, and when it is 6 seconds or more from the time when the structure S is blasted and collapsed, the dust is Dust generated at the point of generation P is already dispersed in the atmosphere.

Therefore, the explosives 21 of the propelling charge unit 20 are exploded in accordance with 2 to 6 seconds, which is the point at which the maximum amount of dust is generated from the time when the structure S is blasted and collapsed. This is to enable a plurality of fog screens (FS) formed by spinning the dust removal liquid 30 at a time with the driving force generated according to the dust generation point (P) in a timely manner.

Here, using the delayed primer 23 to be detonated at the set time when operating the blasting machine (B), the propulsion charge unit 20 after 2 to 6 seconds from the time when the structure (S) is blasted and collapsed May cause the gunpowder 21 to explode.

If necessary, when the blasting device B is manipulated after 2 to 6 seconds from the time when the structure S is blasted and collapsed, the structure S is blasted and collapsed by using a flashing primer 23 which is instantaneously detonated. After 2 to 6 seconds from the time point that the explosives 21 of the propelling charge unit 20 may be made to explode.

In addition, the wire 22 connected to the primer 23 of the propulsion charge unit 20 is externally via a wiring passage 11b formed in the opening / closing door 11a of the dust removing liquid radiating device 10. Withdrawal and wiring so as to energize the blasting machine (B), the operation of the blasting machine (B) to detonate the primer 23 connected to the wire 22 to enable the explosive (21) to explode.

In addition, the case 24 of the propelling charge unit 20 may be made of a plastic or plastic pack that can maintain airtightness, and at the same time to pack the gunpowder 21 and the primer 23 filled in the case and waterproof. It is desirable to. Here, it should be noted that a separate propulsion plate (C) may be disposed directly on the propulsion charge unit 20.

Since the propulsion plate (C) is delivered to the dust removal liquid 30 as it is without losing the explosion propulsion force generated by the propelling charge unit 20 in the spinning cylinder 11 of the dust removal liquid spinning apparatus 10, Increasing the radiation efficiency of the dust removal liquid 30 helps to form a longer and wider fog screen (FS).

Figure 1c shows the dust removal liquid filling step.

The dust removal liquid 30 is injected and filled for each of the dust removal liquid radiator 10 arranged around the structure (S). The injection-filled dust removal liquid 30 is spun at a time with explosion propulsion generated by the propelling charge unit 20 accommodated in each of the dust removal liquid radiating apparatuses 10, wherein the dust removal liquid 30 is dust removal liquid Through the spouts of the radiator 10 is instantaneously ejected and rises in the form of a water column so that a large number of fog screens (FS) covering the dust generating point (P) can be formed quickly and widely dispersed in the state of fine particles in the atmosphere give.

In the embodiment of the present invention, the dust removal liquid 30 is illustrated as being directly injected into the spinning container 11 of the dust removal liquid spinning device 10 in an unpacked state.

Figure 3 shows a modified example of the present invention, the dust removal liquid 30 is to be packed through a separate packaging vinyl 31 in the spinning barrel 11 of the dust removal liquid spinning apparatus 10 to the propelling charge unit (20) prevented moisture contact.

In addition, the dust removal liquid 30 uses pure water as a main material, thereby exhibiting an adsorption and removal ability for dust diffused in the air, but without causing a visual directing in the air.

In addition, the dust removal liquid 30, it is preferable to be able to more efficiently adsorb the dust in the air by using a mixed solution obtained by mixing the bubbles in pure water. In addition, the dust removal solution 30 reveals that a color solution obtained by mixing and coloring at least one or more pigments in pure water can be used.

1D illustrates a step of forming a fog screen.

The fog screens (FS) by operating the blasting machine (B) connected to the line 22 of the propulsion charge unit 20 when the structure (S) is blasted and collapsed, the dust removal liquid spinning apparatus 10 When the explosives 21 are exploded by detonating the primers 23 of the propelling charge units 20 respectively injected into the fields, the dust removal liquid 30 injected into the dust removal liquid radiating apparatuses 10 is radiated at a time. It is formed along to cover the dust generation point (P).

These fog screens (FS) are generated in a large amount at the dust generating point (P) is to function to remove and remove as much as possible in the state to block the dust to escape quickly and widely spread in the atmosphere.

Thus, after completely removing the dust generated at the dust generating point (P) when the structure (S) blasts collapse as a fog screen, the dust removal liquid radiator 10 arranged in the periphery of the structure (S) is recovered and cleaned up To complete the dust removal operation.

4 shows a first embodiment of the present invention, wherein the dust removing liquid radiating apparatuses 10 are arranged one row before and after the structure S, and the dust removing liquid radiating apparatus 10 of the front one row is provided. The rear row of dust removing liquid radiating apparatuses 10 are arranged alternately, and between the row of fog screens FS formed of the dust removing liquid 30 radiated from the front row of dust removing liquid radiating apparatuses 10. In addition, one row of fog screens FS formed by the dust removal liquid 30 radiated from the rear row of dust removal liquid radiating apparatuses 10 are overlapped.

According to the first embodiment of the present invention, a plurality of fog screens (FS) formed of the dust removal liquid 30 radiated from the dust removal liquid radiator 10 arranged in a row before and after the structure (S) around By overlapping), when the structure (S) collapses, it is possible to more reliably prevent dust generated at the dust generating point (P) from falling between the fog screens (FS) and spreading in the atmosphere.

Figure 5 shows a second embodiment of the present invention, the dust removal liquid spinning apparatus 10 is a row of a plurality of dust removal liquid spinning apparatus 10 on one side and the other side around the structure (S) as one set The above is illustrated as having been arranged.

According to the second embodiment of the present invention as described above, the fork generated on one side and the other side by the dust removal liquid 30 radiated from the dust removal liquid radiating apparatus 10 arranged on one side and the other side around the structure (S) The screens FS are covered on both sides of the dust generating point P, so that the dust generated at the dust generating point P can be reliably adsorbed and removed when the structure S collapses. .

6 shows a third embodiment of the present invention, wherein the dust removing liquid radiating apparatuses 10 are arranged in at least one row with a plurality of dust removing liquid radiating apparatuses 10 around the structure S as a set. It is illustrated as being installed.

According to the third embodiment of the present invention, the fog screen (FS) formed on all sides by the dust removal liquid 30 radiated from the dust removal liquid radiator 10 arranged around the structure (S) surroundings By completely covering the dust generating point (P), when the structure (S) is collapsed, it is possible to more surely absorb and remove the dust generated at the dust generating point (P) in a completely blocked state.

1a to 1d is a step-by-step illustration of the work process according to the method of removing dust generated during the blast dismantling of the structure of the present invention

Figure 2 is a perspective view of the dust removal liquid spinning apparatus of the present invention

3 is a modified example of the present invention, in which the dust removal liquid is injected and filled with the dust removal liquid through the packaging vinyl, and is shown in cross-sectional view.

FIG. 4 is a perspective view illustrating a state in which dust removal liquid is radiated as dust removal liquid spinning apparatuses arranged one by one in a row before and after a structure around the structure as a first embodiment of the present invention;

Figure 5 is a second embodiment of the present invention, the dust removal liquid spinning apparatus arranged in one side and the other side around the structure to show the state of the dust removal liquid in a plan view

Figure 6 is a third embodiment of the present invention, the dust removal liquid spinning apparatus arranged in the periphery of the periphery of the structure as shown in a plan view showing the state of dust removal liquid

<Description of Symbols for Major Parts of Drawings>

10: dust removal liquid spinning device 11: spinning cylinder

12: support frame 20: propulsion charge unit

21: gunpowder 22: square

23: primer 24: case

30: Dust removal liquid 31: Vinyl for packing

B: blasting machine C: propulsion plate

P: Dust generation point S: Structure

FS: fog screen

Claims (11)

A step of installing the dust removing liquid spinning device for arranging the foamed dust removing liquid spinning devices 10 around the structure S to be blasted; A setting step of the propelling charge unit for inputting the propelling charge units 20 prepared in advance for each of the dust removing liquid radiating apparatuses 10 and setting them to explode at a time; A dust removal liquid filling step of injecting and filling each of the dust removing liquid radiating apparatuses 10 with a sufficient amount of the dust removing liquid 30 to fill an internal space thereof; A plurality of fog screens formed by spinning the dust removal solution 30 at a time by the explosive propulsion force of the propelling charge unit 20 introduced to the dust removal solution radiating devices 10 at the time when the structure S is blasted and collapsed ( FS) forming a fog screen to cover the dust generating point (P); characterized in that by performing the blast dismantled structure. According to claim 1, In the installation step of the dust removal liquid spinning apparatus, the dust removal liquid spinning apparatus 10 is one or more rows by a plurality of dust removal liquid spinning apparatus 10 in one set around the structure (S) Method for removing dust generated during blast dismantling, characterized in that the installation of the array. According to claim 1 or claim 2, In the installation step of the dust removal liquid spinning device, The dust removal liquid spinning apparatus 10 is formed by the dust removal liquid 30 radiated from the individual dust removal liquid spinning apparatus, the dust generation point How to remove dust generated during dismantling of the structure, characterized in that by setting the array interval so that a plurality of fog screen (FS) covering (P) overlap each other. According to claim 1, In the installation step of the dust removal liquid spinning apparatus, the dust removal liquid spinning apparatus 10 is arranged in a row before and after the structure (S), the front dust removal liquid radiator 10 of the first row And arranging the dust removal liquid radiators 10 in the rear row 1 alternately, between the row of fog screens FS formed of the dust removal liquid 30 radiated from the dust removal liquid radiators 10 in the first row. Between, a row of fog screens (FS) formed by the dust removal liquid 30 radiated from the dust removal liquid radiator 10 of the rear one row overlaps the method of removing dust generated during the blast dismantled structure . According to claim 1, In the installation step of the dust removal liquid spinning apparatus, the dust removal liquid spinning apparatus 10 is a set of a plurality of dust removal liquid spinning apparatus 10 on one side and the other side around the structure (S), respectively A method for removing dust generated during blast dismantling, characterized in that the installation of more than one row. The method of claim 1, wherein in the installation of the dust removing liquid spinning device, the dust removing liquid spinning devices 10 are a plurality of dust removing liquid spinning devices 10 around the structure (S) as a set of at least 1 A method for removing dust generated during blast dismantling of a structure, characterized in that the installation of heat abnormalities. According to claim 1, In the setting step of the propelling charge unit, the gunpowder 21 of the propelling charge unit 20 is set to an explosion time 2 to 6 seconds after the time when the structure (S) is blasted and collapsed. Method for removing dust generated during blast dismantling of the structure, characterized in that. The method of claim 1, wherein in the setting step of the propulsion charge unit, a separate propulsion plate (C) to be disposed on the upper portion of the propulsion charge unit 20 to remove dust generated during the blast dismantling of the structure. Way. The method of claim 1, wherein in the dust removal liquid filling step, the dust removal liquid 30 is packaged and filled through a separate packaging vinyl 31 in the spinning cylinder 11 of the dust removal liquid spinning apparatus 10. Method of removing dust generated during blasting and dismantling of structures. 10. The method of claim 1 or 9, wherein in the dust removing liquid filling step, the dust removing liquid (30) uses pure water as a main material. 10. The method of claim 1 or claim 9, wherein the dust removal liquid filling step in the dust removal liquid filling step uses a mixed solution obtained by mixing bubbles with pure water. .

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