KR101199882B1 - Safe Disposal Method of the CS Grenade Launcher System - Google Patents

Abstract

The present invention relates to a method for safely disposing of a CS gastane firing set. The present invention relates to a 35mm CS gastane firing set including a multi-shot CS gastan, which is the most difficult to handle among various CS ammunitions classified for disposal according to long-term storage and aging after production. It is intended for friendly and safe disposal.
To this end, the present invention is a first step of disassembling the top of the launcher to check the safety state of the strike ignition device attached to the right side of the launcher, the fuse assembly is connected to all 16 launch tubes inside the launcher from the blow ignition device safely A second step of removing and recovering, a third step of safely recovering all 64 bullets contained in the launch tube inside the launching bin, and triggering a blow ignition device on the right side of the launching barrel so that the unrecovered fuse remains inside the ignition and the launching barrel It is characterized in that it comprises a fourth step of the automatic combustion to incapacitate the launcher, the fifth step of incinerating all recovered fuses and bullets.

Description

Safe Disposal Method of the CS Grenade Launcher System

The present invention relates to a method for safely disposing of a CS gas bomb firing set. More specifically, 35 mm CS including a multi-core CS gas coal, which is the most difficult to handle among various CS ammunitions classified for disposal according to long-term storage and aging after production. The present invention relates to an environmentally friendly method for the safe disposal of a gas bomb firing set.

O-chlorobenzylidene malononitrile (C ₁₀ H ₅ ClN ₂ ) has been used in various ways all over the world until recently due to its strong tear action, and it is used as a main ingredient of CS or mixed with a combustion agent to increase the persistence of the tear action. There are various types of CS ammunition, including CS-related materials such as CS powder, tear gas, and CS capsules, various grenades, grenades, and multiple 35mm CS gas grenade firing sets (hereinafter referred to as 'E-8 launchers').

The CS ammunition is classified as discarded due to lack of safety when its physical properties deteriorate or its main parts age with long-term storage after production. In this process, the waste coal must be safely disposed so as not to damage the human body and the natural environment.

Such insoluble and waste coals have been treated in the past underground by landfilling or ocean dumping, or by open burning (OB) or open detonating (OD) methods at an explosive disposal plant. However, underground reclamation and dumping of ammunition are completely forbidden, and until recently, outdoor incineration and detonation methods have been used, but in this case, undecomposed or completely untreated hazardous substances are generated, which adversely affects the environment. Due to civil complaints, most countries are banned except in special cases.

In particular, CS ammunition avoids handling and handling due to its strong tear action, and due to lack of proper safety treatment devices and methods, CS ammunition causes many problems such as safety, logistics support management, and the inefficient use of storage space due to waste coal. .

CS agents have been used as a powerful tear agent when exposed to soldiers, resulting in tears, runny nose and sneezing due to inhalation and skin contact, significantly reducing combat capability. I'm using. Recently, CS has been mixed and used in portable and atomized non-lethal bullets for self-defense.

Of the various CS ammunition that uses the CS, the E-8 canister is a device that continuously fires 64 35mm CS gas grenades in a serious or wide area. It is larger than other types and has 64 35mm CS grenades inside the canister. Since the bombs are continuously fired, the radius of damage caused by CS is very large, and there is a risk of explosion due to propellants, retardants, ignition agents, and complexing agents that fire multiple bombs. It is. Therefore, safety treatment for this has been urgently required.

In particular, in the case of the E-8 launcher, the fuel-filled shell is stored in four stages in the 16 launcher tubes inside the launcher, and is connected to the grenade launcher inside the launcher from a blow ignition device outside the launcher to launch the shot remotely. Many explosive chemicals such as complexes, delayed fuses, and propellants bound to the fuser assembly and the charcoal are included.

E-8 launcher operation pulls the trigger strap of the ignition ignition unit attached to the side and impacts the impact primer, igniting the black powder in the plastic cup of the anthracite through the firing line inside the launcher and the delayed firing line of the bullet. It is fired to a long distance, at which time the CS combustor is ignited and sprayed by the chemicals inside the shell.

These E-8 canisters have been used in many countries, including the United States, and improvements have been developed in Korea (Korean Utility Model Registration Nos. 20-159123 and 20-159122). .

For the disposal and recycling of CS, the US Army has conducted research to recover the raw material by hydrolyzing the CS powder or convert it into valuable materials. In other words, the CS powder is mixed with a base material and an acidic material for combustion (US Pat. No. 4,284,832), and CS is a non-toxic valuable substance o-chloro styrene and sulfuric acid in a two-step chemical reaction. There is a method of converting to ammonium sulfate and recycling (US Pat. No. 4,284,832), and hydrolyzing CS, raw materials o-chlorobenzaldehyde (OCB) and malononitrile (MN) MN, which is a valuable substance, was recovered, but the yield of MN was low, and complicated processes such as separation, purification, and solvent recovery were involved.

Meanwhile, the US Army has developed and used APE-1236 Deactivation Furnace for direct incineration of waste gunpowder, propellants, and small-caliber pulverized coals smaller than 20mm, but does not process CS bullets directly. Although the study of CS powder treatment has been attempted, this method is not economical than the incineration method because it is not only possible to treat ammunition directly but also have to be processed at high temperature or high pressure.

In addition, a high-temperature plasma processing apparatus has been developed and tested for the direct disposal of fuses, various chemicals, CS, smoke bombs, and pyrotechnics, but the size and volume of the E-8 launcher as described above are large. Direct processing is difficult in this case.

Since CS contains CN and Cl due to its material structure, incomplete combustion or incineration at low temperatures may produce HCN gas that is harmful to the human body. In addition, chlorine and nitrogen oxides (NOx) are generated.

On the other hand, even if the incinerator is separated and burned outdoors in the E-8 launcher, it can cause immediate damage to local residents due to its strong tearing effect, and it can be damaged by CS and explosives for a long time even if it is buried underground or solidified. Is expected and is not a complete treatment.

Recently, after the bomb is detonated, the small-diameter waste coal, fuses, chemicals, etc. are detonated in a closed detonation chamber to absorb the debris generated, and then the generated gas and particulate matter are connected to the rear end of the chamber. We are developing a detonator to handle the device, and even a mobile treatment device for the immediate disposal of small amounts of waste coal is being developed, but none of the existing devices is suitable for the rapid mass processing of E-8 launchers.

The present invention provides an environmentally friendly method for safe disposal of an E-8 launcher (CS gas grenade firing set) including a multi-shot CS gas grenade which is the most difficult to handle among various CS munitions classified for disposal after long-term storage and aging after production. It aims to provide.

In order to achieve the above object,

A first step of disassembling the various types of packaging materials of the launching container to separate the launching container,

A second step of disassembling the upper end of the launching barrel and confirming the safety state of the strike ignition device attached to the right side of the launching barrel;

A third step of safely removing and recovering the fuse assembly coupled to all sixteen launch tubes in the barrel from the strike ignition device;

A fourth step of safely recovering all 64 bullets contained in the launch tube inside the launch container;

A fifth step of triggering the blow ignition device on the right side of the firing container to automatically burn the ignition device and the unrecovered fuse remaining inside the firing container to disable the firing container;

And a sixth step of incinerating all recovered fuses and coals.

Preferably, after the sixth step, a seventh step of crushing the launching bins with the launch and ignition function disabled by a crusher or in a hazardous waste incinerator equipped with an anti-pollution facility; It further comprises an eighth step of sorting and separating and recycling.

Preferably, in the second step, after confirming the safety state of the blow ignition device in order to block the firing by the ignition of the gas bombs contained in the inside of the launcher, open the launcher housing cover of the blow ignition device, the short-circuit line and the strap terminal. After checking the safety device of the ball and the safety pin, and covering the housing cover and sealing with tape.

Preferably, the third step is to remove the reinforcement resin plate by cutting the 10cm downward from the top of the launcher to the upper portion of the ignition device using a portable chainsaw capable of adjusting the rotation speed to the upper portion of the ignition device blow The first step is to remove the lead wire from the ignition device, and then remove the top cover of the launcher by using a small knife with a large surface, and then remove the duct assembly contained in the urethane foam filler between the launcher and the launcher.

Preferably, the fourth step is to remove the circular plastic cap and the lacquer coated paper covered on each of the launch tube, and then the rod or rod having a ring at the end is vertically connected to the outside vertically around the upper part of the bullet shell And it hangs in the center of the smoke-tape tape and recovers all the coal from 1 to 4 stages.

Preferably, in the fifth step, after recovering all the charcoal in the fourth step, put the charcoal removing rod bar marked with the height into the launch tube to check the inspection height of the rod bar to check whether there is unrecovered charcoal and After spraying water on the surface of the filler, open the launcher housing cover sealed with tape in the hood to which the gas and particle filtration device is connected and hit the lanyard to automatically burn off any remaining fuses inside the percussion and launcher to neutralize the launcher. It consists of a step.

Preferably, the sixth step is a step of incineration directly from the ammunition incinerator without pre-treatment of the recovered fuse and the charcoal, the incineration conditions include the rotational speed of the primary incinerator (rotary); 1.35-2.25 rpm (stay time: 6-3.5 minutes), ammunition rate; The incinerator and outlet temperatures of the primary incinerator are 205 ° C and 870 ° C, respectively, and the secondary incinerator combustion chamber temperature is maintained at 900-1100 ° C.

According to the present invention, a simple tool is used to disassemble one end of the upper canister and recover all the 64 bullets and the fuser ignition that ignite the bullets, and then safely treat them in an ammunition incinerator equipped with a decontamination device. can do.

   In addition, the launching barrel triggers the blow ignition device attached to the right side and automatically burns the remaining ignition device and the remaining explosives in the inside of the firing device and the ignition container. Incineration treatment in the well-equipped hazardous waste incinerator, while packaging materials such as ammunition crates and polyurethane is separated and recycled, it is possible to completely process the multi-core CS gas shot set.

1 is a process chart of the E-8 launcher to be treated in the present invention.
Figure 2 is a configuration diagram of the E-8 launcher to be treated in the present invention.
Figure 3 is a schematic view of the torso union of the E-8 launcher according to the present invention.
4 is a schematic view of a blow igniter assembly comprising a fuser assembly of an E-8 launcher in accordance with the present invention.
5 is a CS gas bomb (coal) configuration diagram according to the present invention.

The most preferable treatment method of CS ammunition is to recover and recycle the available resources including CS as much as possible, but there are ammunitions filled with pure CS powder depending on the type of coal, and combustion type CS charcoal mixed with CS and a combustion agent such as charcoal. In the latter case, there are restrictions on recycling and material conversion. Therefore, the combustion type CS material filled in the charcoal is a mixture and has no use, but should be discarded, but the body of the charcoal (fuel barrel) is aluminum, so it can be recovered according to the incineration conditions.

Therefore, in order to safely dispose of the CS gas grenade firing set, that is, the trash can, firstly remove or recover the chemicals (carbon smoke delayer, complexing agent, and propellant) constituting the arsenal, which are the most important parts of the blasting container, from the launcher and safely treat them. It is important to do. To do this, after dismantling the top of the canister, check the safety status of the striking igniter on the right side of the outside of the canister and connect all the bullets from the blow igniter to ignite and fire the 64 shells and shells that are the key to the disposal of the canister. It safely retrieves the 160cm length of the lead wire and finally processes the 10cm lead wire from the striking device assembly that is not recovered because it is connected to the inlet of the barrel.

Next, the automatic combustion of the remaining fuses which have not been recovered structurally disables all chemicals containing gunpowder, and then incinerates the recovered charcoal, the fuses, and the launching barrel, and recovers and recycles the packaging parts generated during the dismantling and disassembly of the launching barrel. .

As described above, the present invention provides a method of incineration and final disposal of the canister after disassembling a part of the top of the canister by using a simple jig in the chamber. will be.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a process diagram of the E-8 launching container to be treated in the present invention, Figure 2 is a configuration diagram of the E-8 launching container to be treated in the present invention, Figure 3 is a body assembly of the E-8 launching container according to the present invention 4 is a schematic diagram of a blow igniter assembly including a fuse combination of an E-8 launching container according to the present invention, and FIG.

As shown in the figure, a method for safely disposing of a CS gas bomb firing set according to the present invention is as follows.

(1) First, after dismantling the outer packaging material of the ammunition box surrounding the launching barrel and polyurethane and the intermediate packaging material of the styrofoam, and then removing the inner packaging material in which the silver foil is bonded to the cloth, the main body of the launching container 1 is taken out and the work is easy. Mount at an angle.

(2) After disassembling the upper end of the launcher body 1, the launcher housing cover 28 with the strike igniter assembly 2 on the right side is opened to open the short circuit line 21, the strap terminal 22, and the ball 23. ) And safety devices such as safety pins (24).

There are two methods of ignition of the ignition box: electric ignition and manual ignition. Make sure that the short-circuit wire is securely connected to each strap terminal and the safety pin is securely connected.

(3) After confirming the safety of the blow ignition device as above, cover the housing cover and seal the housing assembly with tape to prevent blows caused by minor circumference during work.

(4) In order to facilitate the disassembly and deburring of the canister, all external parts constituting the suspenders 11 and the support plate assembly 3 except for the canister body 1 are separated and removed. .

(5) Using a portable chainsaw capable of adjusting the rotation speed, cut the outside of the firing barrel made of reinforced resin from about 10 cm from the top to the top of the housing of the blow ignition device to remove the reinforced resin sheet, and then remove the firing barrel from the blow ignition device (2). Remove the conductive wire 19 coming in.

In order to remove the fuse, the inlet of the canister is first cut, the polyurethane foam is removed, and the fuse assembly connected to all sixteen canisters inside the canister is recovered and stored.

(6) After removing the top cover 12 of the launcher using a large knife, the urethane filler 17 charged between the launcher tubes 13 is removed, and the fuse assembly 19 is recovered to ignite the bullet 15. To prevent.

(7) After removing the round plastic caps 14 covered on each of the launch tubes, hang the rods or rods attached to the ends at the top of the center of the bullet delay line 160 passing through the circular retarder 151 at the top of the shell. Recover 1 stage.

Chatan contains an aluminum fume barrel filled with CS filler (the body of the charcoal) and a black powder in the propellant cup that fires the fume barrel at a distance. The charcoal is surrounded by rubber to prevent impact. In addition, a complexing agent igniting a propellant and a delayed fuser fire the fume barrel at a distance from the outside of the shell, while a combustion agent is burned by the complexing agent and a ballistic vessel igniting the CS combustor inside the carbon shell to diffuse the CS gas.

Therefore, it is necessary to safely process all 64 gas bombs filled with CS combustor and chemicals containing explosives such as fuses and complexing agents, retardants, propellants and blow ignition devices.

(8) After removing the aluminum thin plate, the lacquer paper, and the plastic separation cap sandwiched between the shells, two stages of shells are recovered in the same manner as in (7). In this way, all the bullets from stage 1 to stage 4 inside all the launch tubes are recovered.

(9) After recovering all the bullets, put the rod for removing the bullets into all the launch tubes and check the depth of the rods for final checks.

(10) After the final inspection of the launcher, move the launcher to a safe place, release the taped housing assembly, open the housing cover 28, remove the lanyard reel 25, remove the safety pins 24, and then strike at a safe distance. The string is pulled to burn off any remaining fuses inside the trigger and the canister to disable the canister. If it does not ignite, use an ignition device.

(11) Recovered fuses and bullets are safely stored in ammunition storage containers, and then stored in an APE-1236 incinerator (hereinafter referred to as 'ammunition incinerators') dedicated to waste chemicals and small-caliber spent coal disposal facilities, which are well equipped with anti-pollution facilities. Incineration.

Ammunition incinerator introduced APE-1236 Rotary Kiln developed by the US Army to directly incinerate waste chemicals, propellants and small-caliber spent coal of less than 20mm, and then combined the domestic combustion secondary combustion chamber with pollution removal device. Incineration facility. The rotary incinerator consists of a four-stage compartment with a length of 1.5m and a spiral flow passage of approximately 5cm in thickness, which prevents sympathetic detonation of the coal in the furnace. This incinerator has no refractory installed in the rotary furnace due to the debris generated when the coal detonates, and the furnace temperature has a temperature distribution of 280 to 600 in the longitudinal direction from the inlet. In addition, the secondary combustion chamber and pollution prevention facilities for the treatment of harmful gases are installed for the complete combustion of organic matter.

(12) Separate by-products such as ammunition crates and various packaging materials such as polyurethane, suspenders, aluminum sheets and plastic caps are collected and disposed of separately or recycled, and the launching barrels are shredded by shredders or sent directly to hazardous waste treatment facilities for final disposal. .

Figure 5 shows a detailed view of the 35mm CS gas coal 15 recovered from the launcher using the above treatment method.

The gas coal, ie, the charcoal, is propellant 158 in the aluminum fume barrel 153 and propellant cup 157 including the CS combustor 154, the fume rubber 152, the rubber strap 156 and the internal fuse 155. ) And a propellant combination comprising a complexing agent (159).

Inside the aluminum fume tank weighing about 11 g, the CS combustor 154 is filled with 36 g, and the outer surface of the fume barrel is covered with rubber 152 and a circular retardant 151 is placed on the upper portion of the coal tank and a carbon smoke lead 160 around the shell. It was wound up with the tape 161.

Chatan has an outer diameter of 35mm, 90mm in height from 1st to 3rd stage, and 93mm in 4th stage, depending on the charging position.

It is very uneconomical to dismantle and recycle parts by disassembling such charcoal. In order to eliminate environmental pollution and explosion threat of various explosives caused by CS exposure, charcoal was directly processed in ammunition incinerator.

According to the above method, the present invention can construct a safety treatment system for an E-8 launching canister that is extremely tear-resistant and difficult to handle and handles, and is treated in an environmentally friendly manner by using an existing equipment equipped with a simple canister disassembling facility and an anti-pollution facility. It is very economical in that it can be done.

In the present invention, 20 years after production, 32 sets of K205 35mm CS gas grenade firing sets classified as waste items in the military were obtained and tested.

Hereinafter, preferred examples are provided to help understanding of the present invention. The embodiment describes the processing example of the above-described launching container, but the following embodiment is provided only for better understanding of the present invention, and the present invention is not limited to the following embodiment.

Example  One

The E-8 launcher used in this example is a discarded item that is over 20 years old after production and is horizontal in size; 353 mm (bottom), 374 mm (top), length; 231 mm, height; It is 490mm and the finished product weighs 17kg.

In order to recover CS gas coal (cracker) and gunpowder, which are the core processing parts of the multi-core CS gas bomb firing set, the top of the barrel was disassembled to recover both the fuse and the bullet.

The launcher was packed with a water repellent cloth of an outer packaging ammunition box, an intermediate packaging styrofoam and an inner packaging aluminum sheet.

After removing the packing material, take out the launcher and open the cover of the blow ignition device on the right side of the launcher to check the safety condition, and then seal the housing cover with tape to prevent the damage caused by the circumference during the operation. External parts such as were separated.

Mount the launcher on the workbench and cut the ignition container through the inlet of the lead wire connected from the ignition ignition device to the inside of the ignition device by using the adjustable speed saw. This wide knife was used to remove the top of the barrel.

Thereafter, the polyurethane filler around the launch tube was removed and all of the fuse bonds connected to the top of the launch tube were recovered.

Next, remove the scarlet plastic cap that covers the launch tube, and use the rods attached to the 16 launch tubes to hook up the tanzy delay fuse that passes through the circular retarder attached to the upper part of the shell using a rod with a hook. All the bullets up to the stage were recovered.

After confirming the recovery of the bullet, the barrel was placed in the hood, the housing cover was opened, the blow strap strap was pulled, and the chemicals and some of the fuses remaining inside the barrel were automatically burned to completely disable the barrel function.

Example  2

In Example 1, all of the coal and the fuser assembly in the canister were recovered, but when finally hitting the strike igniter, a small amount of the fuse, which was not removed in the canister, was ignited to burn the filler of the urethane foam around the fuser to produce a large amount of gas and dust. This occurred.

In order to minimize the combustion gas, after recovering both the bullet and the fuse by the method of Example 1, before hitting the final ignition ignition device, the water is sprayed onto the filler surface of the filler inlet to keep it wet and then hit the filler. Combustion gas generation is significantly reduced.

Example  3

When the blow igniter is finally blown in order to neutralize all the chemicals such as the launch pad blow ignition device and some existing burn wires in order to finally neutralize the launch pad after recovering the shots and the fuse in the manner of Examples 1 and 2, Even spraying the water to the filling surface of the inlet to wet the water and hitting it did not completely remove the gas and particles generated.

Therefore, when the gas and particle filtration device was installed and the hood was connected to trigger the launch barrel in the hood, no harmful gas emitted to the atmosphere was generated.

Example  4

The 12 sets of coal and fuser combinations recovered in Example 1-2 were incinerated in a well-equipped ammunition incinerator.

As the incineration conditions, the coal and fuser combinations recovered in Example 1-2 were introduced into the primary incinerator (rotary furnace), the rotation speed of the primary incinerator was 1.35 rpm, and the ammunition input rate was 440 rounds / hour. The inlet and outlet temperatures of the primary incinerator were 205 ° C and 870 ° C, respectively, and the secondary combustion chamber temperature was maintained at 900 ° C.

Incineration first incinerated 768 rounds of charcoal, and then put them in a paper bag with a length of about 130cm, 3-4 equal parts.

As a result, CS was not detected at all, and after all the combustion materials of the charcoal were burned, all the aluminum fumes were discharged, but aluminum was partially stuck to the discharge conveyor.

In order to verify the undecomposition and detection of CS, the exhaust gas that passed through the first cooling device after the second incinerator was collected in Tedlar bag and Bubbler and analyzed by gas chromatography (GC). Results CS was not detected, and CO, NOx, SO ₂ , HCl, and particulate matter were measured by the automatic gas measuring device (Horiba ENDA 600) connected to the chimney.

After incineration of gas coal, aluminum carcass was recovered completely from the back of the first incinerator. CS was not detected from the collected waste water and the CS was not detected. The dissolution test analysis also satisfied the environmental standards.

Example  5

In order to increase productivity based on the incineration test results of the burnt and fuser conjugates recovered in the above example, 20 sets of the burnt and the fuser recovered in Example 3 were incinerated in a similar manner in the incineration facility of Example 4.

As the incineration conditions, the coal and fuser combinations recovered in Example 3 were put into the primary incinerator (rotary furnace), and the rotation speed of the primary incinerator was 1.3 rpm-2.25 rpm, and the ammunition input rate was 440-660 shots. / Hour. The inlet and outlet temperatures of the primary incinerator were 205 ° C and 870 ° C, respectively, and the combustion chamber temperature of the secondary incinerator was changed to 900-1100 ° C.

As a result of increasing the treatment speed by monitoring the temperature changes at the incinerator inlet, aluminum did not adhere to the discharge conveyor, but combustion materials remained in the fume discharged into the water.

In order to check whether the CS was not decomposed due to the change of the test condition, the exhaust gas passing through the initial cooling device at the end of the second incinerator in the same way as in Example 4 was collected in the Tedlar bag and the bubbler, and the CS was not detected. The gas and particulate matter discharged from the chimney were satisfied below the emission standard.

The aluminum carcass was completely recovered at the outlet of the rear end of the first incinerator, and more ashes were generated than in the case of Example 4, but CS was not detected, and the dissolution test satisfied the environmental standard.

Example  6

In Example 1-3 above, as a result of crushing with a shredding device for final processing of the function-disabled launching barrel, the incineration was easily broken.

In this way, the present invention can be disposed of environmentally and economically safely so as not to damage the human body and the natural environment of the 35 mm CS gas bomb firing set (aka E-8 launcher), which is determined to be insoluble and discarded.

1: body assembly, 2: blow ignition assembly
3: support plate assembly, 11: suspenders
12: top cover, 13: launch tube
14 plastic cap, 15 CS gas bomb
16: lacquer coating paper, 17: polyurethane foam
18: body base plate, 19: fuse assembly
21: short circuit line, 22: strap terminal
23: ball, 24: safety pin
25: lanyard reel, 26: goniometer
27: Launcher housing, 28: Launcher housing cover
151: circular retardant, 152: smoke cylinder rubber
153: aluminum fume barrel, 154: CS burner
155: fuse, 156: rubber strap
157: propellant cup, 158: propellant (black powder),
159: complexing agent, 160: carbon smoke delayed
161: Smoke Tape

Claims (7)

A first step of disassembling the various types of packaging materials of the launching container to separate the launching container,
A second step of disassembling the upper end of the launching barrel and confirming the safety state of the strike ignition device attached to the right side of the launching barrel;
A third step of safely removing and recovering the fuse assembly coupled to all sixteen launch tubes in the barrel from the strike ignition device;
A fourth step of safely recovering all 64 bullets contained in the launch tube inside the launch container;
A fifth step of triggering the blow ignition device on the right side of the firing container to automatically burn the ignition device and the unrecovered fuse remaining inside the firing container to disable the firing container;
And a sixth step of incinerating all the recovered fuses and the bullets recovered. The method of claim 1,
After the sixth step, a seventh step of crushing the launching bins, which are fired and fired by the ignition function, by a crusher or by treating them in a hazardous waste incinerator equipped with an anti-pollution facility, and sorting and separating packaging parts generated when dismantling and disassembling the launching barrels. And the eighth step of recycling the waste gas. The method according to claim 1 or 2,
In the second step, after confirming the safety state of the blow ignition device to block the firing by the ignition of the gas bombs contained in the inside of the launcher, the cover of the ignition device housing of the blow ignition device is opened, and then a short line, a strap terminal, a ball and a safety pin. After confirming the safety device of the cover of the housing cover and sealing with a tape comprising the step of safe disposal of the CS gas shot set. The method according to claim 1 or 2,
The third step is to remove the reinforcement resin plate 10cm from the top of the launcher to the top of the blow igniter to the upper portion of the blow ignition by using a portable chainsaw capable of adjusting the rotation speed to remove the reinforced resin plate and then the blow ignition in the blow ignition device CS, characterized in that the first step of removing the conductive wire entering the inside, and removing the top cover of the firing barrel using a small knife with a large surface, and then removes and recovers the conductive line binder contained in the urethane foam filler between the firing barrel and the firing tube Safe disposal of gas fired firing sets. The method according to claim 1 or 2,
The fourth step is to remove the round plastic cap and the lacquer coated paper covered on each launch tube, and then the rods or rods with hooks at the ends of the carbon retardant wire and smoke tape connected to the outside in the vertical direction centered on the upper portion of the jatan. Safe waste disposal method of the CS gas fired launch set, characterized in that the step consisting in recovering all the first to fourth stages of the bullet. The method according to claim 1 or 2,
In the fifth step, after recovering all the charcoal in the fourth step, put the charcoal removing bar bar marked with the height into the launch tube to check the inspection height of the bar bar to check whether there is unrecovered charcoal, and water on the filler surface of the filler wire inlet. After spraying, open the taped launcher housing cover in the hood to which the gas and particle filtration device is connected and hit the lanyard to automatically burn the remaining fuses inside the percussion device and the launcher to disable the launcher. Safe disposal method of the CS gas shot set, characterized in that. The method according to claim 1 or 2,
The sixth step is a step of incineration directly in the ammunition incinerator without pretreatment of the recovered fuse and the charcoal, and incineration conditions , the recovered fuse and the charcoal are put into the primary incinerator (rotary) Incinerator rotation speed is 1.3rpm-2.25rpm, ammunition input speed is 440-660 rounds / hour, inlet and outlet temperature of primary incinerator, 205 ℃ and 870 ℃ respectively, secondary incinerator combustion chamber temperature is 900 Safe disposal method of the CS gas shot set, characterized in that maintained at -1100 ℃.

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