JPH0757151B2 - Fumigation equipment - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fumigation method and apparatus for treating cargo, such as fruits and vegetables, contained in a sealed room space, for example, a warehouse, with fumigant gas. The present invention relates to a fumigation apparatus capable of performing a fumigation process in a state of being stored in a container.

[Conventional technology and its problems]

Foods such as fruits and vegetables carried by transportation means such as ships and airplanes are obliged to undergo a certain treatment for the purpose of exterminating pests by law. For example, in fumigation treatment using hydrocyanic acid gas (HCN), it is specified that the concentration of 1.8 g / m ³ is maintained for 15 minutes, and the treatment time is within 30 minutes to prevent chemical damage. .

Conventionally, when fruits and vegetables are carried by shipping, the containerized fruits and vegetables unloaded from the ship are carried by a trailer to a fumigation warehouse near the port where they are loaded from the container into the warehouse. In the fumigation warehouse, the fumigant gas having a specified concentration is treated for a predetermined time.

Since the above fumigation process is performed under strict regulations,
The warehouse itself is constructed as a fumigation device so that the fumigation gas can be controlled.

A conventional fumigation device disperses fumigation gas by a plurality of pressured ventilation fans provided on the ceiling or wall surface of a closed room space, and it takes about 10 to 10 times to make the gas concentration in the entire chamber uniform. It took 15 minutes.

The used gas after the fumigation treatment was discharged from the exhaust ports provided at several places so as to replace the outside air while supplying the outside air into the chamber.

[Problems to be Solved by the Invention]

Vegetables and vegetables are stored in cartons when they are transferred from the container to the warehouse, but during this operation, the cartons may hit other cartons or the pillars or walls of the warehouse, causing damage and reducing the commercial value. . Further, in the conventional method, since the fruits and vegetables have to be once taken out of the container and piled up again in the warehouse, it takes a long time to prepare for the fumigation process, which not only affects the freshness but also has poor workability. there were.

In the fumigation process, because the flowability between fruits and vegetables is not good, it is difficult to escape the used gas between them, and as a result, it takes about 90 minutes to reduce the gas concentration to below the standard value (10ppm). It took some time. In particular, in the case of fruits and vegetables, if exhausting takes a long time, gas accumulation locally occurs, which may cause chemical damage.

It is an object of the present invention to provide a fumigation apparatus for forcibly feeding fumigant gas into a container containing a substance to be fumigated in a closed chamber space in which the fumigant gas is maintained at a specified concentration. .

Another object of the present invention is to provide a fumigation apparatus that forcibly blows the outside air into the container after the fumigation process to discharge the used gas in a short time.

[Means for Solving the Problems]

In order to achieve the above-mentioned object, the present invention according to claim 1 is a fumigation apparatus for injecting fumigant gas into a chamber space and treating fumigants contained in a container, the fumigant gas is introduced into the chamber space. A means for homogenizing fumigant gas, a fan disposed in the chamber space for sending the homogenized fumigant gas into the container, and a discharge side of the fan, which is connected between the fumigant and the container ceiling. A gas supply pipe inserted into the deepest part of the container is provided, and the homogenized fumigant gas is forcibly fed into the container through the gas supply pipe.

The invention described in claim 2 is the invention according to claim 1 in which the gas supply pipes are connected by joints according to the length of the container.

Further, in the invention described in claim 3, in the invention described in claim 1, a path capable of directly sucking the outside air is connected to the fan suction side, and means for switching between the outside air and the inside air or the fumigant gas is provided. It is in a different configuration.

[Action]

According to the present invention described in claim 1, after the cargo as fumigants is carried into the room space while being accommodated in the container, the gas supply pipe is inserted between the cargo and the container ceiling to the deepest part of the container, It is connected to the discharge side of a fan, and fumigant gas is injected into the chamber space and is homogenized by a gas homogenizing means. At this time, the gas concentration in the chamber space is kept slightly higher than the reference gas concentration, that is, kept higher by the container volume. After that, the fan is started to forcefully send the fumigant gas in the room space into the container to perform the fumigation process. Here, by inserting the gas supply pipe into the deepest part inside the container, the fumigant gas can reach all the insides of the container well and a uniform treatment can be performed. Also, because the fumigation gas flow goes from the deepest part of the container to the carry-in / out port,
The gas concentration of the entire container becomes uniform in a short time.

According to the invention described in claim 2, since the gas supply pipe is inserted from the container opening / closing door for each container to be carried in each time, when the depth of the container is deep and the cargo is full, The pipe needs to be rigid for insertion. Therefore, joints are used to connect short pipes that are easy to operate and store.

Further, according to the invention described in claim 3, since the outside air can be directly introduced into the container, the gas exhaust after the completion of the fumigation can be achieved earlier than in the room, and the chemical damage can be prevented.

On the other hand, when the gas is discharged, the room space is replaced with the outside air, and at the same time, the outside air is forcibly blown into the inside of the container to positively discharge the used gas from the container. Therefore,
The inside of the container reaches a low level of gas concentration in a short time and does not cause chemical damage to fumigants.

〔Example〕

Embodiments of the present invention will be described below with reference to the drawings. First
The figure is a plan view of a warehouse in which the fumigation apparatus is incorporated, and the container located at the top of the figure is a cross section taken along the line II of FIG.
In the figure, a cooler 2 is hung on the ceiling of a building in a warehouse 1, and a medication pipe 4 for injecting fumigant gas is arranged in the approximate center thereof. The cooler 2 adjusts the temperature inside the room to a predetermined temperature and agitates the fumigant gas during fumigation to make the gas concentration uniform.

The warehouse 1 is provided with an opening 7 through which a container 6, for example, a 40-foot cart container can be loaded and unloaded in two rows, and an airtight door 8 is provided in this opening. Also in the warehouse,
An air supply pipe 10 for taking in fresh outside air when exhausting gas and an exhaust pipe 12 for exhausting used gas are provided.The air supply pipe 10 has an air supply valve 14, and the exhaust pipe 12 has an exhaust valve 16 and an exhaust fan. 18 are provided respectively.

The used gas is sent through an exhaust pipe 12 to a gas absorption facility (not shown) for processing.

The medication vaporizer 20 mixes fumigant gas such as hydrocyanic acid gas or methyl bromide gas with air taken from the inside of the medication pipe 4
It is supplied to the inside of the container through the medication pipe 4. The medication pipe is provided in a ceiling portion (see FIG. 1) in the center of the refrigerator or a ceiling portion (see FIG. 3) near the side wall.
An in-compartment agitation fan, such as a cooler, is installed in accordance with this medication pipe.

The fumigated gas that was input is forcibly placed inside the container 6
Each container is provided with a container agitating fan 22 as a blowing means for sending the air into the interior of the container. The container stirring fan 22 is connected to a gas supply pipe 24 inserted into the container.

Inside the container, as shown in Fig. 2, the normal carton 26
Since the gap g is formed between the upper surface and the container ceiling, the gas supply pipe 24 is inserted using this gap. The insertion depth of the gas supply pipe 24 is optimal at the deepest part 27 of the container in order to make the fumigant gas in the container uniform in a short time. In this embodiment, two gas supply pipes 24 are inserted into the container, but the number of pipes is not limited to this embodiment, and it depends on the type and amount of fumigants to be fusible and the container volume. One or several are appropriately selected. As the pipe, for example, one made of vinyl chloride is used, and as shown in FIG. 1, several pipes, for example, three pipes are connected by a joint 28 according to the length of the container. . Furthermore, by preparing a plurality of types of pipes having different lengths, various types of containers can be accommodated.

When the length of the container is short, a flexible hose can be used as shown in FIG.

If pipes and hoses of various sizes are prepared in advance and stored in a hanger provided on the wall surface in the refrigerator, the work becomes easier.

Next, the operation of the above embodiment will be described.

The container 6 carried by the trailer is carried into the warehouse 1 from the rear. After that, the rear door 30 of the container is opened, and the gas supply pipe 24 is put on the carton 26 so as to be placed thereon. At this time, if one pipe does not reach the deepest part 27 of the container, the pipes are sequentially connected, and the last pipe is connected to the container stirring fan 22.

First, in the refrigerator, the cooler 2 is operated and adjusted to a predetermined temperature before the fumigation process. Thereafter, a prescribed amount of fuming gas such as hydrogen cyanide gas supplied from the medication vaporizer 20 is introduced into the chamber through the medication pipe 4. The fumigant gas is dispersed by the blower of the cooler 2 and is homogenized after a few minutes. In this state, almost no fumigant gas has entered the inside of the container. Therefore, the fumigant gas concentration in the room space is kept slightly higher than the prescribed gas concentration.
Then, when the container stirring fan 22 is activated, the homogenized fumigant gas is forcibly sent to the deepest part 27 of the container via the gas supply pipe 24. The fumigant gas released to the deepest part 27 of the container flows toward the rear door 30, and this flow spreads to every corner of the container.

Therefore, the container stirring fan 22
After a few minutes from the start of, the gas concentration is made uniform to the specified value, and in this state, processing is performed for a predetermined time.

According to the experiment, when the container volume was 100 m ³ and the air flow rate of the container stirring fan was 120 m ³ / min, it became uniform in about 15 minutes.

After the fumigation process, fresh outside air is taken in,
The used gas is replaced. That is, at the time of gas discharge, the air supply valve 14 and the exhaust valve 16 are opened, and the exhaust fan 18 is operated to take in outside air from the air supply pipe 10 into the interior. On the other hand, the used gas is discharged through the exhaust pipe 12 and processed in the gas absorption facility. During this operation, the container agitating fan 22 is continuously operated, so that the inside air of the container diluted with the outside air is forcibly blown into the inside of the container, and the fumigant gas remaining therein is efficiently replaced.

Next, another embodiment of the present invention will be described.

FIG. 4 shows a fumigation apparatus provided with an outside air intake mechanism for forcibly sending outside air directly into the container during gas discharge. Since the configuration other than the outside air intake mechanism is substantially the same as that shown in FIG. 1, the same functions and structural members are designated by the same reference numerals and the description thereof will be omitted.

In the figure, a damper 32 is provided on the suction side of the container stirring fan 22 to switch between the outside air and the inside air (or fumigation gas). This damper is switched and operated by, for example, an electromagnetic type or mechanical type drive device 34 having an exposure protection structure.

The mechanical type is configured so that it can be constantly switched to the outside air side 32A by a spring, and when the gas supply pipe 24 is set, the damper 32 is manually switched to the inside 32B against the elastic force of the spring and held. Then, when the fumigation process is completed, the holding of the spring is released by an external operation, and the spring is returned to the outside air side 32A.

At the time of gas dispersion, the damper 32 is switched to the inside 32B, and the fumigated gas homogenized by the cooler 2 is guided to the container stirring fan 22, while at the time of gas discharge,
It is switched to the outside air side 32A and guides the outside air taken in from the air supply pipe 10A to the container stirring fan 22.

According to this embodiment, the used gas inside the container is rapidly replaced with the outside air, and no local gas retention occurs.

〔The invention's effect〕

As described above, according to the present invention, since the fumigants are processed by container packing, the loading work is eliminated, the work efficiency is significantly improved, and there is no fear of damaging the fumigants during loading.

Also, because fumigation gas spreads to every corner of the container,
Fumigation is performed uniformly and the yield is improved.

Further, since the gas supply pipe reaching the deepest part of the container is used, the fumigant gas is effectively stirred, and as a result, the gas concentration is made uniform in a short time, and the processing is further promoted.

On the other hand, when the gas is discharged, it is performed while blowing the outside air into the container, so the gas adhering to the fumigants can be exhausted in a short time, so the residual concentration of the gas is extremely low and the chemical damage of the insecticide is prevented. be able to.

[Brief description of drawings]

FIG. 1 is a plan view of a fumigation apparatus showing an embodiment of the present invention,
2 is a sectional view taken along the line II-II of FIG. 1, FIG. 3 is a schematic view of a fumigation apparatus showing another embodiment using a flexible hose, and FIG. 4 is another embodiment of the present invention. It is a block diagram explaining. 1 ... Warehouse, 4 ... Medication pipe, 6 ... Container, 22 ... Container stirring fan (blowing means) 24 ... Gas supply pipe, 26 ... Carton

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Kuniaki Fukuda 5-1-12 Minatoharu, Minato-ku, Osaka-shi, Osaka, Osaka, Osaka Wharf Warehouse Co., Ltd. (72) Sakae Nakagawa 1-1-1, Uchikanda, Chiyoda-ku, Tokyo No. 14 Inside Hiritsuben Plant Construction Co., Ltd. (72) Inventor Fumio Miura 1-1-14, Kanda Kuchida, Chiyoda-ku, Tokyo

Claims (3)

[Claims] 1. A fumigation apparatus for injecting fumigant gas into a chamber space to process fumigants contained in a container, and a means for equalizing the fumigant gas introduced into the chamber space, and the chamber space. Arranged, a fan for sending a uniform fumigant gas into the container, and a gas supply pipe connected to the discharge side of the fan and inserted into the deepest part of the container between the fumigant and the container ceiling, The homogenized fumigant gas is passed through a gas supply pipe,
A fumigation device characterized by being forced into the container. 2. A fumigation apparatus according to claim 1, wherein the gas supply pipe is connected to several pipes by means of a joint according to the length of the container. 3. A fumigation apparatus according to claim 1, wherein a path capable of directly sucking the outside air is connected to the fan suction side, and means for switching between the outside air and the inside air or the fumigant gas is provided. .