JP3124178B2 - Drug extraction method and device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for removing medicine from an ammunition applied to the dismantling of unnecessary ammunition.

[0002]

2. Description of the Related Art Conventionally, a bullet is immersed in warm water and T
The NT explosive is melted, and the melted TNT explosive is extracted by using the gravity with the opening provided in the bullet facing downward.

[0003]

In the conventional method, TN
T gunpowder is almost insoluble in warm water, but is slightly soluble, so that it is necessary to treat water (wastewater) in which TNT gunpowder is dissolved. Further, the TNT powder attached to the inner surface of the bullet remains, and the TNT powder cannot be completely extracted. For this reason, it is troublesome to treat the residual TNT powder in the ram from which the TNT powder is extracted. (Explosion Prevention Measures Required) In view of the above-mentioned technical level, the present invention aims to provide a method and an apparatus for removing a medicine from a bullet which does not have a problem as in the conventional method.

[0004]

Means for Solving the Problems The present invention provides (1) an elastic body to be withdrawn having at least one opening, and immersed in a container containing a fluorocarbon liquid or a fluorocarbon polyether liquid; The liquid is heated to a temperature equal to or higher than the melting point of the TNT powder and the TNT in the shell
The explosive is melted, the molten TNT powder is suspended in the liquid due to a difference in specific gravity from the liquid at the temperature, and is drawn out from an elastic body. In this state, the liquid is cooled to the melting point of the TNT powder or less, and the TNT powder is cooled. And recovering the fluorocarbon liquid or the fluorocarbon polyether liquid evaporated during the heating by cooling and condensing the liquid. (2) At least one opening is provided in the bullet to be withdrawn and immersed in a container storing a fluorocarbon liquid or a fluorocarbon polyether liquid, and the liquid is heated to a temperature equal to or higher than the melting point of the TNT powder. Warm up the TNT in the bullet
The explosive is melted, the molten TNT is suspended in the liquid by a difference in specific gravity from the liquid at the temperature, and is drawn out from an elastic body. The floating molten TNT is pulled out of the container, cooled and solid TNT is discharged. A method for removing an ammunition, comprising recovering as an explosive and cooling and condensing the fluorocarbon liquid or fluorocarbon polyether liquid evaporated during the heating. (3) a container for storing a fluorocarbon liquid or a fluorocarbon polyether liquid, a means for supporting an elastic body provided with an opening in at least one place provided in the container, a means for heating the liquid in the container, and Cooling means for the heated liquid, control means for adjusting the temperature of the liquid in the container,
It is characterized by comprising means for extracting the TNT powder melted and suspended above the container or the TNT powder cooled and solidified, and means for cooling and condensing the liquid evaporated at the upper part of the container. Ammunition extraction device. It is.

[0005] Fluorocarbons usable in the present invention
Heating conditions are as follows: heating conditions above the melting point of TNT
From the physical properties of the orocarbon liquid at this temperature, C
₇F₁₆, C ₈F₁₈Is used. These physical properties are shown in the table below.
It is shown in FIG.

[0006]

[Table 1] The relationship between the temperature and the specific gravity of these fluorocarbons is as shown in FIG.

Further, fluorocarbon polyether liquids usable in the present invention include HT90, HT100, HT1 and HT90 due to the heating conditions above the melting point of the TNT powder and the physical properties of the fluorocarbon polyether liquid at that temperature.
10, HT135, HT200, HT230, HT25
0, HT270 (trade name: manufactured by Montecatini Co., Ltd.)
Is used. The properties are shown in Table 2 below.

[0008]

[Table 2]

[0009]

The operation of the present invention is achieved by using C ₈ as a fluorocarbon.
The case where _F18 is used will be described below as an example. When C ₈ F ₁₈ is used as the fluorocarbon, its boiling point is 10
It is 2 ° C and can be used as a liquid up to 102 ° C (see Table 1). The specific gravity of C ₈ F ₁₈ at 90 ° C. is 1.59 (see FIG. 3). On the other hand, the melting point of TNT is 80.75 ° C.
At 80.75 ° C., the phase changes from a solid to a liquid, and the specific gravity of TNT in the liquid is 1.465. Therefore, when an opening is provided in the bullet and immersed in a C ₈ F ₁₈ solution heated to a temperature higher than the melting point of 80.75 ° C., for example, 90 ° C. of the TNT, the TNT explosive in the bullet melts and the molten TNT explosive Has a specific gravity of 1.465 and thus floats in a C ₈ F ₁₈ solution having a specific gravity of 1.59. That is, the TNT explosive naturally comes out of the bullet due to the specific gravity difference only by heating. Also, C ₈
Because the surface tension of the F ₁₈ is very small, and flows into the bullet body to interchange as TNT, get out from the ammunition body flows to the narrow Ai portion, away TNT explosive to complete than bullet body surface. After the entire amount of the TNT powder has escaped from the bullet, the floating molten TNT powder is taken out of the container and cooled and solidified to be recovered, or the floating molten TNT powder is discharged from the container.
₈ F ₁₈ was cooled in a container with, recovered was removed from the vessel after solidification. As a result, the TNT powder is in a form that can be incinerated. Further, C ₈ F ₁₈ may be evaporated by evacuation or the like, taken out of the container, and then pressurized by a compressor to be recovered.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of a drug extraction method and apparatus according to the present invention will be described with reference to FIGS. FIG. 1 is an overall view thereof, and FIG. 2 is a view showing a situation in which the TNT explosive escapes from a bullet. A fluorocarbon liquid (C) in a container 1 provided with an opening 2 ′ in an elastic body 2 and an extraction port 1 ′ having an opening / closing mechanism above.
₈ F ₁₈ ) Immerse in 4. The fluorocarbon liquid 4 is heated to 80 to 90 ° C. by the heater 7. The temperature of the fluorocarbon liquid 4 is measured by a thermometer 5, and by a controller 6,
The target temperature is maintained by controlling the power controller 8. 9 is a power supply to the heater 7.

As shown in FIG. 2 (a), the TNT 3 in the bullet 2 begins to float from the opening 2 'after being melted.
Finally, as shown in (b), the entire amount escapes from the bullet and floats on the fluorocarbon liquid 4 surface. Thereafter, the fluorocarbon liquid 4 is cooled to 70 ° C. or lower by a cooling device including a cooling water inlet 10A and a cooling water outlet 10B,
The floating TNT powder 3 is solidified. 11 is a bullet 2
The lid 12 of the container 1 has a cooling coil 1
The fluorocarbon liquid 4 which is cooled by the evaporator 3 and heated when heated is condensed and recovered. The cooling water is supplied from a cooling water inlet 14A, goes around the cooling coil 13, and exits from a cooling water outlet 14B. After cooling, the fluorocarbon liquid 4 adhering to the TNT powder 3 or the fluorocarbon liquid 4 remaining in the container can be suctioned by a vacuum device, compressed by a compressor, condensed in a cooling coil, and collected. Thus, the fluorocarbon liquid 4 can be used repeatedly any number of times.

In the above, the case where the floating molten TNT powder is cooled together with the fluorocarbon liquid in the container 1 has been described, but only the floating molten TNT powder is taken out from the outlet 1 ′ having an opening / closing mechanism provided above the container 1. Can be opened and taken out, and cooled in a separate container to collect the solid TNT. In the above embodiment, the case where the fluorocarbon liquid is used has been described.
It is obvious that the same can be carried out by using a fluorocarbon polyether.

[0013]

According to the present invention, waste water treatment is not required because hot water is not used unlike the prior art, and it is safe and simple.
In addition, the TNT powder can be reliably extracted from the bullet.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining an embodiment of a drug extraction method and device of the present invention.

FIG. 2 is a view for explaining a situation in which TNT explodes from a bullet in the present invention.

FIG. 3—Specific gravity of fluorocarbon liquid used in the present invention—
Temperature diagram.

FIG. 4 is a specific gravity-temperature diagram of the fluorocarbon polyether used in the present invention.

Claims (3)

(57) [Claims] At least one opening is provided in a bullet to be withdrawn and immersed in a container storing a fluorocarbon liquid or a fluorocarbon polyether liquid, and the liquid is heated to a temperature not lower than the melting point of TNT powder. To melt the TNT powder in the ammunition, float the molten TNT powder in the liquid due to the difference in specific gravity from the liquid at the temperature and withdraw the TNT powder from the ammunition. A method for solidifying and recovering a TNT powder by cooling to below the melting point of the TNT powder and cooling and condensing the fluorocarbon liquid or fluorocarbon polyether liquid evaporated during the heating. 2. An at least one opening portion is provided in a bullet to be withdrawn and immersed in a container in which a fluorocarbon liquid or a fluorocarbon polyether liquid is stored, and the liquid is heated to a temperature not lower than the melting point of TNT powder. To melt the TNT powder in the ammunition, float the molten TNT powder in the liquid due to the difference in specific gravity from the liquid at the temperature and withdraw the molten TNT powder from the ammunition. A method for removing a bullet from a container, wherein the cartridge is drawn out of a container, cooled and collected as a solid TNT powder, and the fluorocarbon liquid or fluorocarbon polyether liquid evaporated during the heating is cooled and condensed to be recovered. 3. A container for storing a fluorocarbon liquid or a fluorocarbon polyether liquid, means for supporting an elastic body provided with at least one opening in the container, and heating of the liquid in the container Means and means for cooling the heated liquid, control means for adjusting the temperature of the liquid in the container, and withdrawing the TNT powder melted and suspended above the container or the TNT powder cooled and solidified. Means,
Means for cooling and condensing the evaporated liquid at an upper portion of the container.