KR20230092553A - Toxic gas container disposal apparatus - Google Patents

Abstract

A small toxic gas container processing apparatus according to an embodiment of the present invention includes a base, an explosion-proof box, a holder, and a perforation module. The explosion-proof box is an enclosure disposed on the upper part of the base, and consists of a compartment in which a space is formed and a cover that can be opened and closed on the front of the compartment, and the compartment is formed to be sealed. The holder is provided inside the compartment and presses and fixes both sides of the waste container. The drilling module includes an elevating drill with a lower end inserted into the compartment and an upper end protruding from the top of the compartment to move up and down, and a drilling cutter provided at the lower end of the elevating drill and disposed vertically above the waste container fixed to the holder. And, the compartment includes at least one outlet through which the inert gas is injected and at least one outlet through which internal gas is discharged to the outside.

Description

Small toxic gas container processing device {TOXIC GAS CONTAINER DISPOSAL APPARATUS}

The present invention relates to a treatment device for a small toxic gas container, and more particularly, to a treatment device for safely discharging the harmful gas remaining in the container to the outside by puncturing the container.

In general, harmful toxic gases are stored in sealed pressure vessels. Some of the harmful toxic gas stored in the pressure container remains in the container even after its use is finished.

If care is not taken in the process of disposing of a used pressure vessel, an accident may occur in which harmful toxic gas remaining in the vessel leaks to the outside. In addition, there was a risk of causing environmental pollution or causing a safety accident in the process of handling the container.

In the process of drilling and discarding the pressure vessel, the pressure vessel could explode or cause a flame due to the remaining toxic toxic gas.

As such, various risk factors existed in the process of disposing of harmful toxic gas containers, and various safety devices were required to safely dispose of them.

Republic of Korea Patent Registration No. 10-2096966 (hereinafter referred to as 'Related Technology 1') discloses 'forced rupture device for pressure vessel and its method'.

Related art 1 is a device for forcibly rupturing a pressure container after installing the pressure container inside a series of housings, and discloses a rupture means for pressurizing the container with a prescribed pressure. However, when the pressure container is disposed of using the related technology 1, there is a problem that the contents remaining inside the pressure container may scatter to the surroundings or may still remain.

In addition, there is a disadvantage that the pressure vessel cannot be disposed of through the related technology 1 when hazardous materials are stored inside the pressure vessel.

Therefore, it was necessary to propose a technique for solving these problems.

One object of the present invention is to solve the problems of the prior art in which explosion or flame may occur in the process of disposing of a container in which toxic gas is stored therein.

Another object of the present invention is to solve the problem of the prior art in which toxic gas may leak to the outside in the process of disposing of a container in which toxic gas is stored.

Another object of the present invention is to solve the problem of the prior art in which the toxic gas may remain inside the container even after the container in which the toxic gas is stored is discarded.

The tasks of the present invention are not limited to the contents mentioned above, and other tasks or objects not mentioned above will be understood by the following description.

A small toxic gas container processing apparatus according to an embodiment of the present invention includes a base, an explosion-proof box, a holder, and a perforation module. The explosion-proof box is an enclosure disposed on the upper part of the base, and consists of a compartment in which a space is formed and a cover that can be opened and closed on the front of the compartment, and the compartment is formed to be sealed. The holder is provided inside the compartment and presses and fixes both sides of the waste container. The drilling module includes an elevating drill with a lower end inserted into the compartment and an upper end protruding from the top of the compartment to move up and down, and a drilling cutter provided at the lower end of the elevating drill and disposed vertically above the waste container fixed to the holder. And, the compartment includes at least one outlet through which the inert gas is injected and at least one outlet through which internal gas is discharged to the outside.

Alternatively, in the apparatus for treating a small toxic gas container according to an embodiment of the present invention, the compartment includes a lower nozzle disposed below the waste container and spraying an inert gas upward toward the waste container.

And, in the small toxic gas container treatment device according to an embodiment of the present invention, the inert gas injected through the lower nozzle is nitrogen having a temperature of 60 ° C. or more and 80 ° C. or less.

Alternatively, in the small-sized toxic gas treatment device according to an embodiment of the present invention, the compartment is disposed above the waste container and includes an upper nozzle for spraying inert gas to a portion where the drill cutter and the waste container come into contact when the elevating drill descends.

And, in the small toxic gas treatment device according to an embodiment of the present invention, the inert gas injected through the upper nozzle is nitrogen at room temperature.

Alternatively, in the small-sized toxic gas treatment device according to an embodiment of the present invention, when the elevating drill descends, the drilling cutter sequentially penetrates the upper and lower portions of the waste container.

And, in the small-sized toxic gas treatment device according to an embodiment of the present invention, the outer circumference of the elevating drill passing through the upper surface of the compartment is sealed.

According to the present invention, there is an advantage that the small toxic gas container can be safely disposed of without explosion or generation of flame.

According to the present invention, it is possible to prevent leakage of contents from a small toxic gas container.

According to the present invention, there is an effect that the contents do not remain inside the container after discarding the small toxic gas container.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

1 is a perspective view of a small toxic gas container processing apparatus according to an embodiment of the present invention.
2 is a front view of a small toxic gas container according to an embodiment of the present invention.
3 is a side view of a small toxic gas container according to an embodiment of the present invention.
4 is a cross-sectional view taken along line A-A' of FIG. 2;
FIG. 5 is a BB′ cross-sectional view of FIG. 3 .
6 is an enlarged cross-sectional view of part C of FIG. 5 .

Hereinafter, the present invention will be described with suitable examples. Embodiments of the present invention are described in more detail with reference to the accompanying drawings. Like reference numbers indicate like elements throughout the detailed description.

1 is a perspective view of a small toxic gas container processing apparatus according to an embodiment of the present invention, Figure 2 is a front view of a small toxic gas container according to an embodiment of the present invention, and FIG. It is a side view of a small toxic gas container according to

As shown in FIGS. 1 to 3, a small toxic gas container processing apparatus according to an embodiment of the present invention includes a base 10, an explosion-proof box 20, a holder 432 and a drilling module 500. .

The base 10 may be seated on the ground and firmly fixed.

The base 10 is provided with a moving wheel 12 and an anchor leg 14 on the bottom surface. The moving wheel 12 is a wheel for moving the base 10, and the anchor leg 14 is a fixing means for fixing the base 10 to the floor after arranging it in a predetermined place. The base 10 can be moved using the moving wheel 12, and after moving to a predetermined position, it is firmly fixed by coupling the anchor binding the anchor leg 14 to the floor.

A series of storage spaces may be formed in the base 10, and an explosion-proof box 20 is provided on top of the base 10.

A plurality of explosion-proof boxes 20 may be provided, and in one embodiment of the present invention, as shown, the first compartment 100 and the second compartment 200 may be composed of two.

The explosion-proof box 20 includes compartments 100 and 200 in which a predetermined space is formed therein, and the compartments 100 and 200 are provided with covers 110 and 210 on their front surfaces.

Below, the description of the compartments 100 and 200 will be described using the first compartment 100 as an example. The first compartment 100 and the second compartment 200 may have the same structure. The first cover 110 is a door capable of opening and closing the inner space of the first compartment 100 and is coupled to the first compartment 100 through a hinge. In addition, each of the first compartment 100 and the first cover 110 is reinforced with a flange-shaped frame so that they can withstand a large external force, and cracks or damage do not occur even when the pressure in the internal space of the first compartment 100 increases. formed so as not to

And, the first compartment 100 is made of a structure in which the inner space can be sealed with the outside.

A plurality of inlets may be formed in the first compartment 100 . Each inlet is a passage for supplying an inert gas into the first compartment 100, and the inert gas may be nitrogen in one embodiment of the present invention.

First, the first inlet 330 supplies nitrogen into the first compartment 100 to make the interior space of the first compartment 100 a nitrogen atmosphere. In addition, the gas inside the first compartment 100 can be discharged through the outlet 360 formed in the upper part of the first compartment 100 . The first inlet 330 is formed in the lower part of the first compartment 100 .

The second inlet 340 may be provided in the lower part of the first compartment 100 adjacent to the first inlet 330, and the second inlet 340 is a waste container (T) to remove the remnants of the waste container (T). Nitrogen sprayed toward T) is supplied.

The third inlet 350 may be formed on the upper surface of the first compartment 100 and supplies nitrogen at a temperature different from that injected into the second inlet 340 .

An upper portion of the first compartment 100 is provided with a control unit 310 for inputting a user's command and a display unit 320 for displaying information inside the first compartment 100 . The display unit 320 displays information such as pressure and temperature inside the first compartment 100 .

4 is a cross-sectional view taken along line A-A' of FIG. 2;

As shown in FIG. 4 , in the apparatus for treating a small toxic gas container according to an embodiment of the present invention, a holder 432 is provided inside the first compartment 100 .

The holder 432 is provided inside the first compartment 100 . The holder 432 is disposed in the lower part of the compartment and has a shape in which the waste container T can be seated. The clamp 430 is provided on one side of the holder 432, and the width of the holder 432 is narrowed by rotation of the clamp 430. Thus, the waste container T seated on the holder 432 can be fixed.

In the holder 432, a space is formed on an imaginary straight line drawn vertically along the lifting path of the lifting drill 530 to be described later. That is, when the elevating drill 530 descends, the holder 432 is formed so as not to come into contact with a path on which the elevating drill 530 ascends or descends. This is to allow the perforation cutter 540 coupled to the lower end of the elevating drill 530 to pass through both the upper and lower portions of the waste container T seated in the holder 432 .

FIG. 5 is a BB′ cross-sectional view of FIG. 3 .

As shown in Figure 5, the upper portion of the first compartment 100 is provided with a drilling module (500). The drilling module 500 includes a drill tower 510, a down motor 520, a lifting drill 530 and a drilling cutter 540.

The upper part of the first compartment 100 is provided with a drill tower 510 including a driving device and power transmission means for rotating the elevating drill 530 . In addition, a down motor 520 equipped with a driving device and power transmission means for lifting and lowering operation of the lifting drill 530 is installed at a position adjacent to the drill tower 510.

The drill tower 510 and the down motor 520 allow the lifting drill 530 to rotate and lift.

The drill tower 510 and the down motor 520 may be operated according to signals input from the control unit, respectively.

The lower end of the elevating drill 530 passes through the upper surface of the first compartment 100 and is inserted into the first compartment 100 . The elevating drill 530 penetrates the first compartment 100 vertically and vertically.

A portion where the elevating drill 530 passes through the first compartment 100 is sealed 532 to prevent air movement.

The drilling cutter 540 is coupled to the lower end of the lifting drill 530, the drilling cutter 540 rotates according to the rotation of the lifting drill 530, and rises or falls according to the rising and falling of the lifting drill 530. .

The perforation cutter 540 has a sharp tip and is formed of a material with high strength.

When the drill tower 510 and the down motor 520 operate and the lifting drill 530 rotates and descends, the drilling cutter 540 also rotates and descends depending on the lifting drill 530, The upper and lower surfaces of the waste container T are sequentially penetrated and perforated.

6 is an enlarged cross-sectional view of part C of FIG. 5 .

As shown in FIG. 6, a plurality of lower nozzles 410 are provided in the lower portion of the first compartment 100 adjacent to the holder 432. The lower nozzle 410 injects nitrogen toward the waste container T seated in the holder 432 .

The lower nozzle 410 is connected to the aforementioned second inlet 340 and injects nitrogen at a temperature of 60° C. or more and 80° C. or less supplied through the second inlet 340 toward the waste container T. Nitrogen at a temperature of 60 ° C or more and 80 ° C or less prevents the toxic gas ejected from the waste container (T) from mooring to the lower part of the first compartment (100). In addition, vaporization of the toxic gas remaining in the waste container T is accelerated so that all toxic gas is discharged from the waste container T.

In addition, an upper nozzle 420 is provided so that the elevating drill 530 lowers and the piercing cutter 540 sprays nitrogen toward a portion in contact with the waste container T.

The upper nozzle 420 is connected to the third inlet 350, and nitrogen at room temperature (20 ° C to 30 ° C) supplied from the third inlet 350 is supplied to the drilling cutter 540 and the waste container T. Spray towards the contact area.

The upper nozzle 420 prevents explosion or ignition while the piercing cutter 540 presses the wall of the waste container T, and stably punctures the waste container T.

As described above, in the small toxic gas container processing apparatus according to an embodiment of the present invention, the waste container T is seated in the holder 432 inside the first compartment 100 and the first cover 110 is closed. The inner space of the first compartment 100 allows a negative pressure of a nitrogen atmosphere to be formed. After the waste container T is seated, the drill tower 510 and the down motor 520 are operated so that the elevating drill 530 descends, and the drilling cutter 540 sequentially cuts the upper and lower surfaces of the waste container T. perforate and perforate

During the drilling process, nitrogen at room temperature is sprayed through the upper nozzle 420 to the portion where the drilling cutter 540 and the waste container T come into contact. In addition, relatively high-temperature nitrogen is injected toward the waste container T through the lower nozzle 410 so that no toxic gas remains inside the waste container T.

The waste container T is perforated vertically, and in a state in which all toxic gases are discharged, the gas inside the first compartment 100 is discharged through the outlet 360 and transferred to the neutralization treatment device. The air inside the first compartment 100 is discharged to the atmosphere after passing through combustion, filtering, neutralization and safety treatment.

In the above, the embodiments of the present invention have been described with drawings, but this is exemplary and the present invention is not limited to the above-described embodiments and drawings. It is obvious that those skilled in the art can modify the present invention within the scope of the technical spirit of the disclosed contents. In addition, even if the action or effect according to the configuration was not explicitly described while describing an embodiment of the present invention above, it is natural that even the effects predictable by the configuration should be recognized.

10: base 12: moving wheel
14: Anchor leg 20: Explosive ship
100: first compartment 110: first cover
200: second compartment 210: second cover
310: control unit 320: display unit
330: first inlet 340: second inlet
350: third inlet 360: outlet
410: lower nozzle 420: upper nozzle
430: clamp 432: holder
500: drilling module 510: drill tower
520: down motor 530: lifting drill
532: sealing 540: perforation cutter
T: waste container

Claims (7)

Base fixed to the floor;
An enclosure disposed above the base, consisting of a compartment in which a space is formed and a cover that can be opened and closed on the front of the compartment, and the compartment is formed to be sealed;
a holder provided inside the compartment and pressurizing and fixing both sides of the waste container; and
A lifting drill with a lower end inserted into the compartment and an upper end protruding upward from the top of the compartment to lift up and down, and a drilling cutter provided at the lower end of the lifting drill and disposed vertically above the waste container fixed to the holder. Including; perforation module;
The compartment is
At least one inlet through which an inert gas is injected; and
At least one outlet that is a passage for discharging internal gas to the outside; including,
Small toxic gas container treatment device. According to claim 1,
The compartment is
A lower nozzle disposed below the waste container and spraying an inert gas upward toward the waste container; including,
Small toxic gas container processing device. According to claim 2,
The inert gas injected through the lower nozzle is nitrogen having a temperature of 60 ° C or more and 80 ° C or less,
Small toxic gas container processing device. According to claim 1,
The compartment is
An upper nozzle disposed above the waste container and spraying an inert gas to a portion where the drill cutter and the waste container come into contact when the lifting drill descends.
Small toxic gas container processing device. According to claim 4,
The inert gas injected through the upper nozzle is nitrogen at room temperature,
Small toxic gas container processing device. According to claim 1,
The lifting drill,
When descending, the perforation cutter sequentially penetrates the upper and lower portions of the waste container.
Small toxic gas container processing device. According to claim 1,
The lifting drill,
The outer circumference of the portion passing through the upper surface of the compartment is sealed,
Small toxic gas container processing device.

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