JPH09309588A - Transportation container for poisonous gas container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a poisonous gas leaked out of poisonous gas cylinders into a container from diffusing to the outside thereof and eliminate a treatment device of the poisonous gas installed in the container, by containing poisinous gas cylinders in the container provided with a vacuum and airtight structure. SOLUTION: After a container door 10 has been opened and poisonous gas cylinders have been put in a container 2, the door is closed. And a coolant is led from a freezing machine 3 to a cooling heat-exchanger 5 in the container to cool the poisonous gas and the inside of the container. Then, an atmospheric air suction valve 7 is closed and a vacuum pump 9 is driven to evacuate the container inside. A specified pressure is confirmed by a presure gauge 6. The inlet valve 8 of the vacuum pump is closed and the vacuum pump is brought to a stop. Even the poisonous gas leaks out of the cylinders and the indicating pressure on the gauge rises abnormally during transfer of the container 2 or after it, as the pressure in the container 2 is below the atmospheric pressure, the poisonous gas does not leak out of the container 2.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a harmful gas (WF ₆
Etc.) for transporting harmful gas containers.

[0002]

2. Description of the Related Art A conventional container for transporting harmful gas containers will be described with reference to FIG. 5, where 1 is a harmful gas container (cylinder) filled with a harmful gas, 2 is a container, 3 is a refrigerator for cooling the inside of the container, 4 is a container. Is a refrigerant pipe, 5 is a heat exchanger for cooling the container, 7 is an air introduction valve, 8 is a vacuum pump inlet valve, 10
Is a container door, 11 is a cold insulating material, 20 is a harmful gas (exhaust gas) detector, 21 is a harmful gas treatment device inlet valve, and 22 is a harmful gas treatment device.

In the container for transporting harmful gas containers, when the harmful gas leaks from the harmful gas container 1 into the container 2, the leaked harmful gas is detected by the poisonous gas detector 20. Further, since the pressure in the container 2 exceeds the atmospheric pressure due to the leakage of the toxic gas, the harmful gas treatment device inlet valve 21 is opened, and the toxic gas in the container 2 is guided to the harmful gas treatment device 22 for treatment and then the vacuum pump. The pressure in the container 2 is returned to the atmospheric pressure by opening the inlet valve 8 and exhausting the gas.

[0004]

In the conventional container for transporting harmful gas containers shown in FIG. 5, the harmful gas processing device 22 has a large size, assuming that a large amount of toxic gas leaks into the container 2. Using harmful gas treatment equipment 2
The amount of adsorbent in 2 increases. Further, since the pressure inside the container 2 exceeds the atmospheric pressure, even if the container 2 has an airtight structure, there is a problem that a trace amount of toxic gas is released to the atmosphere.

The present invention is proposed in view of the above problems, and the object thereof is to prevent the release of the toxic gas leaked from the harmful gas container into the container to the outside of the container. The point is to provide a container for transporting harmful gas containers that does not need to be provided in the container.

[0006]

In order to achieve the above object, a container for conveying a harmful gas container according to the present invention is provided with a pressure gauge for detecting the pressure in the container for storing the harmful gas container, and for cooling the inside of the container. The container is provided with a refrigerator and a vacuum pump for vacuuming the inside of the container and a vacuum pipe, and the container has a vacuum airtight structure (Claim 1).

In the container for transporting harmful gas containers according to claim 1, a dehumidifier may be provided on the atmosphere introduction side of the container (claim 2). In the container for transporting a harmful gas container according to claims 1 and 2, a harmful gas detector for detecting a gas leak in the container may be provided (claim 3).

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION

(First Embodiment) Next, a container for transporting a harmful gas container of the present invention will be described with reference to a first embodiment shown in FIG. 1. 1 is a harmful gas container (cylinder) filled with a harmful gas, 2 is a container, and 3 is a container. Refrigerator for cooling the inside of the container 2, 4 refrigerant pipes, 5 a heat exchanger for cooling the container, 6 a pressure gauge, 7 an air introduction valve, 8 a vacuum pump inlet valve, 9 a vacuum pump,
10 is a container door, 11 is a cold insulator, and 12 is vacuum piping.

Next, the operation of the harmful gas container carrying container shown in FIG. 1 will be specifically described. (1) After opening the container door 10 and storing the harmful gas container 1 filled with harmful gas in the container 2, the container door 1
Close 0. (2) Next, the refrigerant produced by the refrigerator 3 is introduced from the refrigerant pipe 4 to the heat exchanger 5 for cooling the inside of the container to cool the inside of the harmful gas container 1 and the inside of the container 2. With this cooling,
The pressure of the toxic gas in the harmful gas container 1 becomes below atmospheric pressure.

The container 2 is provided with a cold insulating material 11 in order to prevent heat from flowing into the container 2 from the outside of the container 2. Also, the atmosphere introduction valve 7 is closed and the vacuum pump inlet valve 8
Is opened, and the vacuum pump 9 is operated to evacuate the inside of the container 2. When the pressure gauge 6 confirms that the predetermined pressure is reached, the vacuum pump inlet valve 8 is closed and the vacuum pump 9 is stopped.

A container 2, a pressure gauge 6, and a container door 1
0, the vacuum pipe 12 has a vacuum airtight structure,
The inside of the container 2 is maintained in vacuum. (3) Next, the container 2 is moved. The refrigerator 3 is
Continue operation to maintain cooling. (4) If there is no abnormal increase in the indicated value of the pressure gauge 6 during and after the movement of the container 2 (when no harmful gas leaks from the harmful gas container 1), the harmful gas container 1 is moved to the container 2
On the other hand, while refrigerating machine 3 is stopped, the atmosphere introducing valve 7 is opened, the inside of the container 2 is returned to atmospheric pressure, and then the container door 10 is opened to remove the harmful gas container 1 from the container 2.
Take it out. (5) Even if the indicated value of the pressure gauge 6 rises abnormally during or after the movement of the container 2 (even if the harmful gas leaks from the harmful gas container 1), the container 2, the pressure gauge 6, the container Since the door 10 and the vacuum pipe 12 have a vacuum-tight structure and the pressure inside the container 2 is equal to or lower than the atmospheric pressure, no toxic gas leaks to the outside of the container 2 (atmosphere).

Regarding the treatment of the toxic gas in the container 2, after moving the container 2 to a safe place, the vacuum pump 9
This can be dealt with by connecting a gas processing device corresponding to the toxic gas to the outlet of the. In this case, after operating the gas processing device and operating the vacuum pump 9, the vacuum pump inlet valve 8 is opened to exhaust and process the toxic gas in the container 2.

(Second Embodiment) Next, a container for transporting a harmful gas container of the present invention will be described with reference to a second embodiment shown in FIG. 2. Reference numeral 1 is a harmful gas container (cylinder) filled with a harmful gas, and 2 is a container. 3 is a refrigerator for cooling the inside of the container 2, 4 is a refrigerant pipe, 5 is a heat exchanger for cooling the inside of the container, 6
Is a pressure gauge, 7 is an air introduction valve, 8 is a vacuum pump inlet valve, 9
Is a vacuum pump, 10 is a container door, 11 is a cooling material, 12
Is vacuum piping.

Reference numeral 13 is a refrigerant container inlet valve, 14 is a refrigerant container outlet valve, 15 is a refrigerant dehumidifier inlet valve, 16 is a refrigerant dehumidifier outlet valve, 17 is a dehumidifier, and 18 is a dehumidifier outlet valve. Next, the operation of the harmful gas container transport container shown in FIG. 2 will be specifically described. (1) After opening the container door 10 and storing the harmful gas container 1 filled with harmful gas in the container 2, the container door 1
Close 0. (2) The air introduction valve 7, the dehumidifier outlet valve 18, and the vacuum pump inlet valve 8 are opened, and the vacuum pump 9 is operated. Further, the refrigerant container inlet valve 13 and the refrigerant container outlet valve 14 are closed (the refrigerant container inlet valve 13 alone may be closed), and the refrigerant dehumidifier inlet valve 15 and the refrigerant dehumidifier outlet valve 16 are opened. Next, the refrigerator 3 is operated to remove the air flowing in from the atmosphere introduction valve 7 by the dehumidifier 1
Dehumidify at 7. This replaces the air in the container 2 with the dry air after dehumidification.

After replacement, the vacuum pump inlet valve 8 and the dehumidifier outlet valve 18 are closed. Further, the refrigerant container inlet valve 13 and the refrigerant container outlet valve 14 are opened, and the refrigerant dehumidifier inlet valve 15 and the refrigerant dehumidifier outlet valve 16 are closed to cool the harmful gas container 1 and the container 2. When it is confirmed by the pressure gauge 6 that the predetermined pressure is reached, the vacuum pump inlet valve 8 is closed and the vacuum pump 9 is stopped.

A container 2, a pressure gauge 6, and a container door 1
0, the vacuum pipe 12 has a vacuum airtight structure,
The inside of the container 2 is maintained in vacuum. Further, drainage from the dehumidifier 17 is extracted from the air introduction valve 7, and after the drainage is completed, the air introduction valve 7 is closed. If it is difficult to remove the drain from the air introduction valve 7 due to the arrangement, the dehumidifier 17 is provided with a drain valve. (3) Next, the container 2 is moved. The refrigerator 3 is
Continue operation to maintain cooling. Since the inside of the container 2 is dry air, adhesion of frost to the in-container cooling heat exchanger 5 is less than in the first embodiment, and the capacity of the refrigerator 3 is improved. (4) During and after the movement of the container 2, if there is no abnormal increase in the indicated value of the pressure gauge 6 (if no harmful gas leaks from the harmful gas container 1), stop the refrigerator 3 and then introduce the atmosphere. Open the valve 7 and dehumidifier outlet valve 18 to open the container 2
The inside is returned to atmospheric pressure, then the container door 10 is opened, and the harmful gas container 1 is taken out of the container 2. (5) Even if the indicated value of the pressure gauge 6 rises abnormally during or after the movement of the container 2 (even if the harmful gas leaks from the harmful gas container 1), the container 2, the pressure gauge 6, the container Since the door 10 and the vacuum pipe 12 have a vacuum airtight structure and the pressure inside the container 2 is equal to or lower than atmospheric pressure, no toxic gas leaks to the outside of the container 2 (atmosphere).

Regarding the treatment of toxic gas in the container 2, after moving the container 2 to a safe place, the vacuum pump 9
This can be dealt with by connecting a gas processing device corresponding to the toxic gas to the outlet of the. In this case, after operating the gas processing device and operating the vacuum pump 9, the vacuum pump inlet valve 8 is opened to exhaust and process the toxic gas in the container 2.

(Third Embodiment) Next, a container for transporting a harmful gas container of the present invention will be described with reference to a third embodiment shown in FIG. 3. 1 is a harmful gas container (cylinder) filled with a harmful gas, and 2 is a container. 3 is a refrigerator for cooling the inside of the container 2, 4 is a refrigerant pipe, 5 is a heat exchanger for cooling the inside of the container, 6
Is a pressure gauge, 7 is an air introduction valve, 8 is a vacuum pump inlet valve, 9
Is a vacuum pump, 10 is a container door, 11 is a cooling material, 12
Is a vacuum pipe, and 20 is a harmful gas detector (exhaust gas detector).

In this embodiment, a harmful gas detector (exhaust gas detector) 20 is installed in the container for transporting a harmful gas container of the first embodiment so that even a slight gas leak can be detected.
The other actions are similar to those of the first embodiment. (Fourth Embodiment) Next, a container for transporting a harmful gas container of the present invention will be described with reference to a fourth embodiment shown in FIG. 4. 1 is a harmful gas container (cylinder) filled with a harmful gas, 2 is a container, and 3 is a container. Refrigerator for cooling the inside of the container 2, 4 refrigerant pipes, 5 a heat exchanger for cooling the container, 6 a pressure gauge, 7 an air introduction valve, 8 a vacuum pump inlet valve, 9 a vacuum pump,
10 is a container door, 11 is a cold insulator, and 12 is vacuum piping.

13 is a refrigerant container inlet valve, 14 is a refrigerant container outlet valve, 15 is a refrigerant dehumidifier inlet valve, 16 is a refrigerant dehumidifier outlet valve, 17 is a dehumidifier, 18 is a dehumidifier outlet valve, 20
Is a harmful gas detector (exhaust gas detector). In this embodiment, a harmful gas detector (exhaust gas detector) 20 is installed in the container for transporting a harmful gas container of the second embodiment so that even a slight gas leak can be detected. The other actions are similar to those of the second embodiment.

[0021]

As described above, the container for conveying a harmful gas container of the present invention includes a pressure gauge for detecting the pressure in the container for storing the harmful gas container, a refrigerator for cooling the inside of the container,
The container is provided with a vacuum pump and a vacuum pipe for evacuating the inside of the container, and the container has a vacuum airtight structure, and the inside of the container can be maintained in a vacuum state after exhaustion by the vacuum pump.
In addition, since the refrigerator cools the harmful gas container and container, the pressure inside the container can be maintained below atmospheric pressure even after the harmful gas leaks, and the toxic gas leaked from the harmful gas container into the container can be released to the outside of the container. It can be prevented.

After moving the container to a safe place, connect a gas processing device corresponding to the toxic gas to the outlet of the vacuum pump, operate the gas processing device, and operate the vacuum pump.
Since the toxic gas in the container is exhausted and processed by opening the vacuum pump inlet valve, it is not necessary to install a harmful gas processing device in the container.

[Brief description of drawings]

FIG. 1 is a system diagram showing a first embodiment of a container for carrying a harmful gas container of the present invention.

FIG. 2 is a system diagram showing a second embodiment of the harmful gas container transport container of the present invention.

FIG. 3 is a system diagram showing a third embodiment of a harmful gas container transport container of the present invention.

FIG. 4 is a system diagram showing a fourth embodiment of a container for conveying a harmful gas container of the present invention.

FIG. 5 is a system diagram showing a conventional container for transporting harmful gas containers.

[Explanation of symbols]

 1 Hazardous gas container (cylinder) 2 Container 3 Refrigerator 4 Refrigerant piping 5 Heat exchanger for cooling in container 6 Pressure gauge 7 Atmosphere introduction valve 8 Vacuum pump inlet valve 9 Vacuum pump 10 Container door 11 Cooling material 12 Vacuum piping

Claims (3)

[Claims] 1. A container is equipped with a pressure gauge for detecting the pressure in a container containing a harmful gas container, a refrigerator for cooling the inside of the container, a vacuum pump and a vacuum pipe for vacuuming the inside of the container, and the container is vacuum-tight. Container for transporting harmful gas containers, which has a structure. 2. The container for transporting a harmful gas container according to claim 1, wherein a dehumidifier is provided on the air introduction side of the container. 3. The container for transporting a harmful gas container according to claim 1, further comprising a harmful gas detector for detecting a gas leak in the container.