JPH02119730A - Method for transporting live cuttlefish and transporting container - Google Patents

Abstract

PURPOSE:To enable efficient transportation of live cuttlefishes by forming many specific housing chambers in a transporting water tank, filled with seawater at a prescribed temperature and simultaneously subjected to aeration, housing and transporting live cuttlefishes in the respective housing chambers. CONSTITUTION:Many housing chambers (S) so as to provide a state of free passage of seawater kept at a proper temperature of about 5 deg.C for readily keeping live cuttlefishes in a resting state and air for aeration with aeration pipes 9 are formed on the bottom in a transporting water bath 7, filled with the seawater and always subjected to sufficient aeration and live cuttlefishes are respectively housed one by one in the housing chambers (S) to enable transportation of the live cuttlefishes in a live state without causing death and cannibalism due to stress.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a method for transporting live squid and a transport container for effectively carrying out this method. It was made so that it could be transported to the ground.

[Conventional technology]

Currently, live squid that is landed is, without exception, frozen as it is, that is, transported to a remote consumption area in a killed state.

This was because it was impossible to transport a large amount of squid while it was still alive, but it is natural that there is a big difference in taste between live squid and frozen squid, and for this reason, even in consumption areas. There is an extremely high demand for obtaining squid.

[Problem to be solved by the invention]

Previous attempts to meet this demand involved placing live squid in an aquarium filled with seawater and transporting the entire aquarium, in the same way as other fish other than squid are transported, but for a short period of time ( All the squid died within about 6 hours.

In addition, we attempted to transport live squid by keeping the seawater in the tank at an appropriate temperature and by aerating the seawater in the tank at several times the scale of normal fish.
Approximately 24 hours later, only about 10 of the 150 squids were still alive, and even these living squids were in a considerably weakened state.

The present inventor observed the condition of a large number of live squid housed in an aquarium filled with seawater, and found that when a large number of squid are housed in a narrow aquarium, the squid group becomes in a state of banishing and starts cannibalism. , death within a short period of time).

Therefore, the present invention is designed to store and hold squid alive in an aquarium so as not to cause a squid condition.
The purpose is to enable long-term transportation of live squid.

Another object is to provide a container for reliably and safely transporting live squid as described in "2.

[Means to solve the problem]

-1- The means of the present invention to achieve the stated purpose is to fill a transportation tank with seawater kept at an appropriate temperature, and to provide sufficient aeration to this seawater; The purpose of this method is to form a large number of storage chambers through which aeration air can pass freely, to store one live squid in each of the large number of storage chambers, and to transport the squid while maintaining the above-mentioned conditions.

The means for constructing the container formed by the storage chamber in the method for transporting live squid described above is a bottomed cylinder having an internal space as a storage chamber of a size and shape capable of accommodating one live squid in a natural posture. It has a main body with a shape, it has an opening/closing end wall that opens and closes the entrance/exit which is the open end surface of this main body, and the entire wall surface of the main body and the opening/closing end wall has a diameter of approximately 3 to 6φ.
drilling a large number of through holes;

In addition, other configuration means for the container for forming a holding chamber include having a main body in the shape of a cylinder with a bottom, and making the internal space of this main body of a size and shape that can accommodate one live squid in a natural posture. It has a large number of partition walls that vertically and horizontally partition into a large number of storage chambers, it has an opening/closing end wall that opens and closes the open entrance/exit of each storage chamber formed, and the wall surface of the main body, the partition wall, and the opening/closing end wall. A large number of through holes having a diameter of approximately 3 to 6 φ are opened throughout the entire area.

[Function] The transport water tank is attached to a means of transportation such as a transport trunk, and the seawater filled in this tank is maintained at an appropriate temperature by temperature control equipment installed on the means of transport, and is constantly maintained. There is sufficient aeration.

The containment chamber is formed in the seawater through which the seawater and aeration air can freely pass through, so the live squid housed in the containment chamber is kept in a state where it is cut off from other live squid and its activity environment. In other words, it will be housed without any interference from other living squid.

This state is exactly the same as a live squid resting in the shade of a rock, and the live squid housed in each containment chamber stops its vigorous activity and maintains a resting state.

In addition, the resting state of the live squid in the containment chamber is different from that of the live squid, as each containment room is independent and interference from live squid in other containment rooms is blocked. It lasts as long as it is contained in the containment chamber.

In this way, by housing and holding live squid one by one in an independent containment chamber, each live squid can be kept in a resting state, thereby preventing the live squid from panicking during transportation. Since there is no mortality or cannibalism caused by this panic, live squid can be transported safely.

Furthermore, since the η-sized squid being transported is transported while maintaining a resting state, there is no inconvenience of physical exhaustion due to transport, that is, a decline in life, and the squid can be transported in extremely good condition. .

A container that forms an independent containment chamber within the seawater of an aquarium.
The internal space is sized and shaped to accommodate -. live squid in a natural posture, so the live squid housed in this container enters the internal space of the container that is separated from the rest. This allows you to naturally enter a state of rest.

Insertion and removal of live squid into and out of this container is achieved by opening and closing the opening and closing end walls.

Each wall of the container has a large number of holes through which seawater and aeration air can flow in and out, allowing the live squid resting inside the container to flow in and out. Maintain habitat in good condition.

Furthermore, since the first container means can independently form accommodation chambers for live squid, the first function is to store and transport live squid together with other fish in an aquarium. Since the second container means has storage chambers formed adjacent to each other, it is possible to efficiently transport a large number of live squid in an aquarium of limited size.

The diameter of the holes drilled in each wall of the container is such that, under conditions that allow smooth passage of seawater and aeration air, parts of the live squid's body, especially the legs, cannot escape outside the container. I need to make sure it doesn't come out. It is desirable that the diameter of this hole be large to allow smooth passage of seawater and aeration air, but on the other hand, to prevent the legs of the housed live squid from coming out of the container, the diameter of the hole should be large. It is necessary to reduce the diameter of the hole. According to many experiments in which live squid of various sizes were housed, it was found that the appropriate diameter of this through hole was 3 to 6 φ. However, since the size of the squid that is required to be transported alive is approximately 55 cm, the diameter of the through hole should be 4 to 5 cm.
It follows that a certain degree of φ is desirable.

[Example〕 Embodiments of the present invention will be described below with reference to the drawings.

Figure 1 shows the most basic configuration example for carrying out the transportation method according to the present invention, and it is suitable for transportation means such as trucks.
The drained water tank 7 is equipped with aeration equipment and drought heat insulation equipment.

As an aeration equipment, for example, as shown in FIG. A small hole is formed for this purpose.

A large number of storage chambers S are formed and arranged in the aquarium 7 filled with seawater, but the aquarium 7 is
Since the seawater within the chamber naturally flows and circulates, each containment chamber will always be supplied with fresh seawater.

The most basic configuration example of the container 1 that forms the storage chamber S in the water tank 7 is shown in FIGS. 2 and 3.

In the embodiment shown in FIG. 2, an opening/exit opening 5, which is one open end surface of a main body 2 having a square cylinder shape with a bottom, can be opened and closed by an end wall 3, and each wall surface of the main body 2 and an opening/closing end wall 3 is provided. It is constructed by opening a large number of through holes 4 therein. Further, the embodiment shown in FIG. 3 shows a case where the container 1 is constructed using a cylinder or an elliptical cylinder, and the main body 2 is in the shape of an elliptical cylinder with a bottom, and the opening/closing end wall 3 in the shape of an elliptical plate can be opened and closed. The main body 2 and the opening/closing end wall 3 have a large number of through holes 4 formed in the wall surfaces thereof.

Since the container 1 of the embodiment shown in FIGS. 2 and 3 independently forms one storage chamber S, a small number of live squid can be stored and transported together with other fish in one aquarium. Used in cases.

Another embodiment of the container 1 shown in FIG. 4 is one in which a large number of storage chambers S are formed in parallel vertically and horizontally in one container 1. ,
A storage room S is divided vertically and horizontally by a large number of vertical and horizontal partition walls 6.
The compartments are formed into sections, and the storage chamber S formed in each section has an open entrance/exit. It is constructed by opening a through hole 4. In the case of the embodiment shown in FIG. 4, the two containers 1 are integrally molded back to back, so that a large amount of live squid can be transported and handled more efficiently.

As the material constituting the container 1, a flat plate made of synthetic resin is effective and is not susceptible to deterioration due to seawater, and a transparent acrylic plate is particularly desirable. In addition, the appropriate temperature of the seawater in the aquarium 7 must be such that it is easy to keep the live squid in a state of rest.
It is desirable to set the temperature to about 5'C, which allows live squid to stay alive, but if the transportation time is short, it may be about 10°C.

In addition, if you want to transport small live squid using a container 1 manufactured for transporting normal-sized live squid, as shown in FIG. It is preferable to divide the storage chamber S into two, and to house small live squid individually in the divided chamber S. It goes without saying that when this partition plate 10 is used, a large number of through holes 4 are formed in this partition plate 10.

[Effects of the Invention] Since the present invention has the above-described configuration, it exhibits the following effects.

Since live squid are housed and transported individually isolated from others, the housed live squid will not go into a state of panic, and this will prevent them from dying or cannibalizing due to the stress associated with panic. It is possible to transport live squid while it is still alive.

Since the live squid is housed in the housing chamber without interference from others, it is in a resting state during transportation, and as a result, it is possible to safely maintain a lively state for a long period of time.

Since the container is constructed by using the bottomed cylindrical body as it is, its overall construction is simple, and therefore it can be manufactured easily and at low cost.

Since the circulation of seawater and aeration air into the container is achieved through holes formed in each wall surface, the structure for circulation is simple and easy to form.

The container, which is constructed by combining a cylindrical body with a bottom and a number of partition walls, can form a large number of storage chambers adjacent to each other vertically and horizontally, so it is possible to efficiently store a large number of live squid in a tank of limited size. They can be accommodated well, which makes it possible to transport live squid more efficiently.

[Brief explanation of drawings]

FIG. 1 is an overall perspective view of an aquarium facility showing the basic configuration for carrying out the present invention. 2 and 3 are overall perspective views showing one embodiment of the container according to the present invention, in which FIG. 2 shows an embodiment in which the main body is a rectangular cylinder with a bottom, and FIG. 3 shows an embodiment in which the main body is an elliptical cylinder with a bottom. An example is shown in which the main body is . FIG. 4 is an overall perspective view showing another embodiment of a container according to the present invention in which a large number of storage chambers are formed adjacent to each other vertically and horizontally. FIG. 5 is an overall perspective view showing an example of means for partitioning the interior space of a container manufactured to a certain size into two small storage spaces. Explanation of symbols 1; Container, 2; Main body, 3; Opening/closing end wall, 4; Through hole, 5
; Entrance/exit, 6; Partition wall, 7; Water tank, 8; Air source, 9
; Aeration pipe, 10; Partition plate, S; Storage chamber.

Claims (3)

[Claims] (1) A large number of storage chambers (S) are formed in a transportation tank (7) filled with seawater kept at an appropriate temperature and aerated, with the seawater and aeration air freely passing through. A live squid transportation method that stores and transports live squid one by one in a storage room (S). (2) A main body (2) in the shape of a cylinder with a bottom and an internal space as a storage chamber (S) of a size and shape that can accommodate one live squid in a natural posture, and an opening of the main body (2). It is composed of an opening/closing end wall (3) that opens and closes the entrance/exit port (5), which is an end face, and a large number of through holes with a diameter of approximately 3 to 6 φ are provided throughout the wall surfaces of the main body (2) and the opening/closing end wall (3). (4) A container for transporting live squid with holes. (3) The main body (2) is shaped like a cylinder with a bottom, and the internal space of the main body (2) is divided into a number of storage chambers (S) of a size and shape that can accommodate one live squid in a natural posture. It is composed of a large number of partition walls (6) that partition vertically and horizontally, and an opening/closing end wall (3) that opens and closes the open entrance/exit (5) of each storage chamber (S), and the main body (2) and the partition There are many through holes (with a diameter of approximately 3 to 6 φ) throughout the wall surface of the wall (6) and the opening/closing end wall (3).
4) A container for transporting live squid made of perforated holes.