KR950008546B1 - Aquarium for living fish - Google Patents

Abstract

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Description

A fish tank

1 is a schematic cross-sectional view of a live fish tank of the present invention.

2 is a partial schematic view of the fish tank of FIG.

3 is a schematic longitudinal sectional view of the fish tank of FIG.

4 is a schematic longitudinal cross-sectional view of a cartridge filter device used in the present invention.

* Explanation of symbols for main parts of the drawings

2: tank 3: lid

4: filtration tank 5: seawater storage

6: drain hole 10: filling layer

11: heat exchanger 12: oxygen supply device

21: water flow hole 22: suction hole

23: water flow auxiliary circulation device 24: discharge hole

31: caratridge filtration device

(Industrial use)

The present invention relates to a live fish tank suitable for keeping fish such as flounder, leek, sea bream, yellowtail, horse mackerel, and squid for a long time.

(Conventional technology)

In recent years, the demand for fresh fish is increasing due to the improvement of diet. Therefore, various methods of transporting live fish have been developed for the purpose of supplying fresher fish, and the fish caught are put in a tank and transported from the fishing boat to the place of consumption as live. In addition, the number of restaurants serving fish tanks is increasing.

In such a tank, in order to keep a fish alive, a stream of seawater reflux is created in the tank to make a growth environment similar to that in the seawater. In such a method, the circulation water flow is made in the water tank by the circulation water discharged into the water tank in a series of sea water circulation paths known as a conventional filtration tank-heat exchanger-oxygen supply device. have. There is also a problem that a pond is formed in the part opposite to the discharge hole of the circulation flow to the tank, and if it is used for a long time, there is a problem that dung or other solid matter accumulates and adversely affects the survival of the fish. In addition, since the flow rate suitable for survival varies depending on the fish species, it is difficult to simply change the flow rate in the conventional case, and it is difficult to keep the fish alive for a long time when the type of fish is changed.

(Issue to try to solve of invention)

Accordingly, an object of the present invention is to provide a fish tank for live fish that can keep the fish as long as it is alive by circulating water to every corner and giving optimum flow according to species without causing partial splashing or water cart in the tank. It is done.

(Means to solve the task)

In the present invention, even if the in-plane inner shape is circular or substantially elliptical, in the hydrogen, the stagnation of water flow occurs at the bent portion of the inner wall of the tank located at the face of the water flow hole, but this stagnation absorbs water in the bent portion. It is made based on the knowledge that the discharge in the flow direction of the circulation flow in the tank can solve the above problems efficiently. That is, the present invention is a live fish tank in which a water flow generating hole is formed in a curved portion of a tank having a planar inner shape of a circular or substantially elliptical shape to form a circulation flow along the wall of the tank, and water is sucked into the curved portion on the side of the water generating hole. It provides a live fish tank characterized in that the water flow auxiliary circulation device for discharging the suction water in the flow direction.

In particular, in the case of transporting squid, it is a tank with a lid. When the planar inner shape is substantially elliptical, a water flow generating hole is provided in the short side curved portion of the tank, or when the planar inner shape is circular. A water tank which forms a water flow generating hole at a position to form a circulation flow along the wall of the water tank, and installs a drainage hole in the vicinity of the upper part of the water tank and in contact with the lid, and a curved portion on the side of the water flow generating hole (in-plane side shape) In the case of the substantially elliptical shape, it is preferable to have a structure in which a water flow auxiliary circulation device is installed in the short side curved portion) to absorb water and discharge the suction water in the flow direction.

In the tank, a filtration tank is installed at the center of the tank, and a seawater storage unit for receiving live fish is formed in a space surrounded by the outer wall of the filtration tank and the inner wall of the tank, and near the upper part of the filtration tank and in contact with the lid. And a circulating device for circulating the seawater in the seawater storage section through the drainage hole, past the filtration tank, and from the water flow hole to the seawater storage section, the device can be made compact and extremely efficient. It can be removed and saved the fish for a long time. In particular, the squid's dung is different from other fish, and the floating wall surface of the seawater can be effectively removed, according to their tank for transporting live squid.

In the water tank, a caratridge filtration device is connected to the filtration tank with a circulation pump interposed therebetween, and the seawater of the seawater storage unit passes through the filtration tank, and passes through the filtration tank and the caratridge type filtration device to circulate to the seawater storage unit at the water flow generation hole. By installing the circulator, the device can be made compact and the fine dirt which can not be caught by the filtration tank can be efficiently removed, and the fish can be saved for a long time by the simple operation of replacing the filter of the caratridge filtration device.

Next, the present invention will be described with reference to the accompanying drawings.

1 is a schematic cross-sectional view of a live fish tank suitable for a live fish tank of the present invention, in particular, a live squid transport tank 1, a second view is a partial schematic view, and a third view is a longitudinal section view. Here, the case of live squid as live fish is described, but the present invention is not limited to the case of live squid. The water tank 2 is provided with the water flow generating hole 21 in the short side curved part, and the circulation flow is formed in the direction shown by the arrow in the water tank by the water introduce | transduced here.

In the prior art, the stagnation of water flow, that is, water, has occurred in the short wall curved portion A of the inner wall of the tank located on the face of the water flow generating hole 21. In the present invention, in order to eliminate this gap, the suction hole 22 of the water is provided in the end face curved portion of the face side of the water flow generating hole 21, where the water is absorbed, and the discharge water hole ( 24) discharge the suction water in the flow direction.

Here, the water flow auxiliary circulation device 23 can be constituted by a pipe 27 connecting the suction hole 22 and the discharge hole 24 between the circulation pump 25 and the flow rate adjusting valve 26. The speed of the water sucked from the suction hole 22 is adjusted to a predetermined flow rate and discharged from the discharge hole 24 in the flow direction of the circulating water. Here, the suction holes 22 and the drain holes 24 may be one each, but may be formed in two or more numbers in the longitudinal direction and the transverse direction of the tank. The number, position, and direction in which the discharge water is discharged can be appropriately determined according to the circulation direction and speed of the circulation water in the water tank 2.

The water tank 2 has a lid 3, and the filtration tank 4 is provided in the substantially center of the water tank 2. As shown in FIG. In the space surrounded by the outer wall of the filtration tank (4) and the inner wall of the water tank (2) is formed a seawater storage unit (5) for accommodating live squid and the squid is accommodated therein. Here, the upper end of the filtration tank 4 is almost in contact with the lid, and the drain hole 6 is formed therein. The drainage hole 6 is preferably sized so that the cuttlefish does not enter the filtration tank 4 here. For example, the drainage bar 6 has a horizontal bar with a size of about 18 cm and about 10 cm. It is good to attach 5 to 7 pieces. The drainage hole 6 is preferably formed in the filtration tank 4 so that the distance from the top of the drainage hole 6 to the sea surface 7 is 0 to 15 cm, preferably 0 to 10 cm. It is good not to enter (4). In the case of using the water tank of the present invention, first, seawater is put in the seawater storage unit 5, and then live squid is put therein, and then enough seawater is put so that the sea surface 7 contacts the lid 3, and the cam ( 16, 17) to cover the outer wall of the filtration tank (4) and the inner wall of the water tank (2) so that the headspace does not substantially occur. In other words, if the headspace is created, the surface of the squid shakes during transportation, and the squid is stressed. Moreover, when using the live fish tank of this invention by standing still, the said lid is not required.

In the present invention, when the live fish tank is used for transportation, the lid 3 and the caps 16 and 17 may be removed so that the lid 3 and the caps 16 and 17 do not peel off or the sea water leaks during transportation. The form which can be fixed firmly to the tank 2 is preferable. Further, the shape of the cap can be arbitrary, and the cap and the cap are integrated, or the height of the sea level in contact with the cap and the height of the sea level in contact with the cap can be matched.

Subsequently, the pump 8 is operated so that the seawater in the seawater storage portion 5 enters the absorption hole 6 formed in the upper portion of the filtration tank 4 into the filtration tank. When the seawater entering the filtration tank 4 passes through the filters 9 and 9 made of, for example, saran fibers, the squid dung is removed and the packed layer 10 of activated carbon, coral ash, ceramics, zeolite and the like is removed. Gina removes harmful components such as ammonia here. The aerobic bacterium disclosed in Japanese Unexamined Patent Publication No. 64-71427 may be cultured in the packed bed 10. The sea water purified in this way is drawn out from the bottom of the filtration tank 4, and the heat exchanger 11 is temperature-controlled to the temperature suitable for fish growth. For example, it is good to adjust the temperature of seawater to 8 degrees C or less, Preferably it is 2-8 degreeC, More preferably, it is 5-8 degreeC. In other words, at this temperature, squids are not weakened or eaten with each other, and consumption of dissolved oxygen in seawater can be reduced.

Next, the seawater is introduced into the oxygen supply device 12, where oxygen consumed by the aeration is replenished, and at the same time, viscous substances, ink and the like coming out of the squid are removed by bubbles. In this way, the seawater adjusted to the conditions suitable for the survival of the cuttlefish passes through the pipe 13 and is introduced into the water tank 2 and circulated. Further, when introducing the seawater into the water tank 2 through the pipe 13 in the water flow generating hole 21, the seawater in the seawater storage portion 5 is introduced so as to form a flow such as reflux in one direction. In this case, it can be introduced in several places. In addition, when the lid 3 prevents light from entering the seawater storage unit 5, for example, a window is provided on the outer wall of the water tank, and a lamp 14 is provided therein, whereby the seawater storage unit 5 is provided. It is good to make myself moderate brightness. That is, when the seawater storage unit 5 is made to squid, the squids eat each other and die in turn. Therefore, it is preferable to install two lamps of 5W maximum, preferably 2-5W, from the outside at the stop of the water tank 2. In addition, it is preferable that the other parts are painted with a color that is not too bright so that no light enters other than the lamp.

In this invention, it can be set as the aspect which shows schematic sectional drawing in FIG. That is, the drain pipe of the filtration tank 4 is connected to the pump 8 and then to the cartridge filtration device 31, and then passes through the heat exchanger 11, the oxygen supply device 12, and the pipe 13, and finally Therefore, it is preferable that the circulating water is introduced into the water tank 2 from the water flow generation hole 21. In this way, the seawater in the seawater storage section 5 enters the filtration tank 4 through the drain hole 6 formed in the upper portion of the filtration tank 4 by the pump 8, and then the seawater is extracted from below The harmful components such as the squid ink and the like which have not been removed in the primary filtration (filtration tank 4) introduced into the trident type filtration device 31 and the ammonia which could not be removed are also removed. Here, one of the cartridge filter unit 31 may be used, but it is preferable to use two or more connected in series. In this way, very fine dust and the like can be extremely efficiently removed. It is preferable that such a cartridgeage filtration device 31 is provided outside the water tank 2, and it is preferable that the cartridgeage filter 33 is provided in the filter housing 32. As shown in FIG. For example, the filter housing such as NPP tape, S type, A type or H type manufactured by Nippon Filters Co., Ltd. can be mentioned as the cartridge filtering device 31.

In the present invention, various improvements can be made to the live fish tank. For example, by installing a roster 15 of a reticulated structure in the lower part of the water tank 2, the insoluble matter generated in the seawater storage unit 5 is confined under the roster and dispersed in the seawater storage unit 5 by the fish. Can be prevented. In addition, a stripe pattern may be drawn on the inner wall of the water tank 2 or the outer wall of the filtration tank 4. This is to prevent the collision with the wall by visualizing the outer wall of the developed squid.

Furthermore, the water drainage holes 40 and 41 are provided in the caps 16 and 17, and the water level detector 42 is provided in one or both of the water draining holes 40 and 41, and is shaken during transportation of the fish. If the seawater flows out or bubbles are released by oxygen supply devices such as air letters at the same time, the water level is lowered and the water level is detected. This signal is collected in the control box 43 and the pump 45 is operated. It is more effective if the seawater in the auxiliary seawater tank 44 is introduced into the seawater storage unit 5 so that a headspace does not occur. Here, the water level detector 42 may be provided outside the water drain hole of the caps 16 and 17 and near the sea level 7 of the water tank. Moreover, although seawater can be supplied to the arbitrary position of the seawater storage part 5 from the auxiliary seawater tank 44, it is good to replenish to the lower part of the seawater storage part 5.

Further, in the case of using seawater in the present invention, seawater may be used as it is, but it is preferable to use the one purified in advance by filtration or the like. Freshwater can also be used depending on the species. It is preferable that the inner surface of the water tank used in the present invention and the outer surface of the filtration tank have no convex portions, for example, a curved line such as a circular or elliptical cross section.

[Effects of the Invention]

According to the present invention, there is provided a live fish tank capable of circulating water to every corner and keeping the fish alive for a long time without causing partial splashes in the tank. In particular, it is possible to provide a live fish tank that can be efficiently installed on a base such as a truck. It can also remove fish dung efficiently, without stressing the fish and keeping the fish alive for a long time. Therefore, by using the live fish tank of the present invention, it is possible to efficiently transport fish as it is live, especially from the fishery to the consumer.

Moreover, since the filtration tank is incorporated in the tank, the apparatus itself can be made compact, so it goes without saying that it is installed in a restaurant, and is particularly suitable for transporting fish as it is. The fish can be saved for a long time by the simple operation of replacing the filter. The live fish tank of the present invention is suitable for keeping fish such as flounder, cottonfish, sea bream, yellowtail, horse mackerel, and squid for a long time as long as it is alive. In addition, all kinds of squids, such as squids and squids, can be kept alive for a long time, and are particularly suitable for transporting delicate squids to life.

The invention is illustrated by the following examples.

EXAMPLE

Example 1

The live squids were transported by truck for 16 hours using the tank shown in FIGS. It has an inner elliptical shape (250cm long, 180cm short) and an inner elliptical cylindrical water tank 2 having a height of 110cm, and a filtering tank 4 having a diameter of 120cm and a short diameter of 60cm is installed on the inner center of the plane. The seawater storage unit 5 is formed in a space surrounded by the inner wall of the water tank 2. Shaped cross-section of the water storage unit (5) is able to accommodate a substantially donut-state, water of 3.2m ³ herein.

The upper end of the filtration tank 4 is almost in contact with the iron lid 3, and the upper end of the drainage hole 6 having a width of 18 cm and a length of 10 cm is 12 cm (3 cm from the sea surface 7) from the top of the filtration tank 4. Formed in the Further, the drainage hole 6 is provided with a lattice at intervals of 0.5 to .7 cm to prevent squid from entering. In order to facilitate the removal of squid dung in the filtration tank 4, two 2 cm thick Saran fiber filters 9 and 9 are installed, and activated carbon and coral ash are placed in a filtration tank of 50 cm in diameter and about 60 cm in height. The filling layer 10 laminated over is provided, and the porous plate is provided in the bottom in order to prevent the filling material from coming off. Under water tank 2, the water insoluble matter generated in seawater storage 5 is trapped in the lower part of water tank 2, and the water insoluble matter is prevented from being dispersed in sea water storage 5 by squid. 7.5 cm was installed a roster (15) of the network structure. Moreover, two 2W lamps were installed in the middle of the water tank 2. Four suction holes 22 for water are provided in the curved portion on the side of the water flow generation hole 21, and four discharge holes 24 are provided for the circulation pump 25, the flow rate adjusting valve 26, The water flow assisting pure apparatus 23 which consists of the pipe 27 was connected. Then, the speed of the water sucked from the suction hole 22 is adjusted to a predetermined flow rate (3 to 6 cm / sce) and discharged from the discharge hole 24 in the flow direction of the circulating water.

Seawater is put in the seawater storage section 5 of the apparatus 1, followed by 200 live squids, followed by enough seawater so that the sea surface 7 contacts the lid 3 and the outer wall of the filtration tank 4 In the space surrounded by the inner wall of the water tank (2) substantially no headspace was generated. In addition, the lid 3 was firmly fixed in the water tank 2 so that the lid 3 could not be peeled off or the seawater was drained during transportation.

Subsequently, the pump 8 is operated to put seawater in the seawater storage 5 into the filtration tank through the absorption hole 6 formed in the upper portion of the filtration tank 4 to remove the squid dung from the filters 9 and 9, The filler 10 removes harmful components such as ammonia. Thus purified sea water was taken out from the bottom of the filtration tank 4, and the heat exchanger 11 was adjusted to 5-8 degreeC suitable for the growth of squid. Next, seawater was introduced into the oxygen supply device 12, where oxygen was consumed by aeration. Thus, the seawater adjusted to the conditions suitable for the survival of the squid was introduced into the water tank 2 from the water flow generating hole 21 through the pipe 13, and circulated. Further, when the seawater is introduced into the water tank 2 through the pipe 13, it is introduced so as to form a flow such that the weathering in the seawater storage part 5 is refluxed in one direction, and the flow rate is 3 to 5 cm / sec. A stream was formed.

In other words, the tank part A of the tank was transported for 16 hours by trucking without squirting water or insoluble matters. That is, no squid died and 100% survival rate was excellent.

Example 2

The squid was truck-transported in the same manner as in Example 1 except that the cartage filtration device 31 shown in FIG. 4 was connected behind the two pumps 8 of FIG. And insoluble matters did not occur, and exactly the same results as in Example 1 were obtained.

Example 3

1 to 3 except for removing the lid 3, the caps 16 and 17, the water level detector 42, the control box 43, the pump 45, the auxiliary seawater tank 44, and the lamp 14; Although 250 sea bream were bred for two days using the apparatus shown in FIG. 3, no sea bream died and 100% of the sea bream was excellent.

Claims (1)

(a) a seawater reservoir (5) for accommodating live fish of circular or nearly elliptical shape, (b) a head space in the seawater contained in the seawater reservoir (5) as a lid (3) of the seawater reservoir (5); Lids 3 and (c) provided at positions not provided are provided in the bent portion of the seawater storage tank 5, and the water flow generators 13 and (d) water flows having a plurality of water flow generation holes 21 in the vertical direction. Water flow assisting circulation devices 23 and (e), which are installed in the curved portion on the side of the generator 13, which discharge seawater in the direction of sucking and flowing the seawater, are installed in the center of the water tank to which the lid 3 is attached. The drainage holes 6 and (g) the seawater in the seawater storage tank 5 which are located in the upper part of the filtration tanks 4 and (f) the filtration tank 4 and in contact with the lid 3 are connected to the drainage holes 6. And the circulation pump 8 for circulating from the water flow generating hole 21 into the seawater storage tank 5, and (h) the filtration tank 4. Fresh water tank for, characterized in that with the cartridge type filter device 31 connected via the ring pump (8).