JP3129707U - Artificial seawater packaging container - Google Patents

Abstract

An artificial seawater undiluted solution in which anyone can easily obtain artificial seawater by adding water and stirring gently.
The solution of artificial seawater consists of a liquid whose salinity is higher than that of seawater and packed in a packaging container. The salt concentration is suitable for seawater simply by adding water to the liquid taken out of the packaging container and stirring it lightly. Can be adjusted. In addition, it is possible to obtain artificial seawater simply by adding a tap water to the liquid taken out from the packaging container and agitating it lightly. I did it. Furthermore, a liquid whose salinity is 10 times higher than seawater is packed in a packaging container so that the amount of water added to the liquid taken out of the packaging container in order to obtain seawater with a desired salinity is numerically clarified from the beginning. Configured.
[Selection] Figure 1

Description

  The present invention relates to an element of artificial seawater that can produce artificial seawater in which anyone can easily breed organisms that live in seawater (for example, saltwater fish) simply by adding water.

  When raising organisms that inhabit seawater in indoor and outdoor aquariums, it is most ideal to collect and use seawater itself, but it is difficult to transport a large amount of seawater and transportation costs are high. For this reason, the salt for artificial seawater manufacture currently marketed as a powder or a granule is normally utilized. The powder or granular salt for artificial seawater production was easy and convenient in that it would be artificial seawater if water was added to this and stirred and dissolved.

  However, the above-mentioned salt for producing artificial seawater in the form of powder or granules is easy, but it does not dissolve sufficiently unless water is added and stirred well (using a special stirrer). Distributing was not always easy for beginners as well as experienced people.

  The present invention has been devised in view of the above points. The purpose of the present invention is to make it easy for anyone (beginners and experienced persons) to produce artificial seawater simply by adding water and stirring lightly. It is to provide an element of artificial seawater.

  In order to achieve the above object, the artificial seawater element according to the present invention is characterized in that a liquid whose salinity is higher than seawater is packed in a packaging container, and water is added to the liquid taken out from the packaging container. It was configured to be able to adjust the salinity to match seawater by simply stirring.

  Further, the artificial seawater element according to claim 2 is characterized in that the salt concentration is higher than seawater and a liquid containing a chlorine neutralizing agent is packed in a packaging container, and is taken out from the packaging container. Artificial seawater was obtained simply by adding tap water to the liquid and stirring gently.

  Furthermore, the element of artificial seawater according to claim 3 is characterized in that a packaging container is filled with a liquid whose salt concentration is 10 times higher than seawater, and in order to obtain artificial seawater with a desired salt concentration, The amount of water added to the extracted liquid was configured to be numerically clear from the beginning.

  According to the present invention, since a high-salt-concentrated liquid in which salt is well dispersed is packed in a packaging container, the entire container can be sold in a liquid state. It is easy to adjust the salinity by simply injecting it into the water, adding a necessary amount of water and stirring it lightly. Therefore, it is possible to easily obtain a large volume of seawater at home, and to exhibit various excellent effects such as greatly reducing the transportation cost of seawater.

  Further, according to the invention described in claim 2, since a chlorine neutralizing agent is blended, tap water is simply added to the liquid taken out from the packaging container without removing the calcite (lime for sterilization). Therefore, it has an excellent effect that seawater can be easily produced at home.

  Further, according to the invention described in claim 3, since the amount of water added to the liquid taken out from the packaging container is numerically clear from the beginning, artificial seawater with an appropriate salinity concentration can be easily manufactured by anyone ( It has an excellent effect that salt adjustment is necessary later).

  Next, an embodiment of the present invention will be described based on the drawings. FIG. 1 is a partially cutaway front view showing an element (liquid) of the artificial seawater of the present application, and FIG. 2 is an explanatory view showing a mixed state of the elemental (liquid) of artificial seawater of the present application and tap water.

  As shown in FIG. 1, the artificial seawater 1 of the present application is formed by filling a packaging container 3 with a liquid 2 having a salt concentration higher than that of seawater. In the illustrated example, the packaging container 3 is a plastic bottle with a handle, but may be a bag-shaped packaging container such as a plastic bag. The packaging container 3 may be a plastic bag and a paper box, or a combination of a metal box or a plastic box, but is preferably one in which a part of the liquid 2 filled therein can be seen through.

  It is preferable to prepare about three types of the packaging containers 3, large (for 10L), medium (for 6L), and small (for 3L). For example, as shown in FIG. 2, when the artificial seawater 5 is produced in the water tank 4, the liquid 2 is injected by selecting an appropriate capacity from among large, medium and small packaging containers 3 according to the capacity of the water tank 4. Then, while adding tap water 6 from the tap 5 of the tap, it is stirred gently to produce artificial seawater. At this time, it is confirmed whether or not the salinity concentration is within a range of 1.020 to 1.023 using a concentration specific gravity meter (not shown).

  The main components contained in the liquid 2 constituting the element 1 of the artificial seawater of the present application are chlorine (Cl), sodium (Na), magnesium (Mg), calcium (Ca), potassium (K), sulfur (S ), Bromine (Br), carbon (C), strontium (Sr), boron (B), fluorine (F), silicon (Si) and others. Of course, it is not limited to this component.

  The liquid 2 may use part or all of natural mineral-rich water taken from deep ocean water. If an appropriate amount of a pH (ph) stabilizer is mixed in the liquid 2 so that it can be stably maintained at ph8 to 8.3 over a long period of time, it is effective not only for saltwater fish but also for invertebrates such as corals. That is, stress due to ph down is not applied to invertebrates such as corals. For invertebrates such as corals, it is effective that calcium (Ca) is blended in a well-balanced manner, and a moss inhibitor made of a natural substance that suppresses the occurrence of moss may be blended.

  The salinity concentration of the liquid 2 constituting the element 1 of the artificial seawater of the present application is based on the salinity concentration of seawater and is made deeper than this. This may be produced by concentrating the seawater to make it thick, but normally, the liquid 2 having a high concentration of salinity is made using salt for producing artificial seawater that is sold in the form of powder or granules. Therefore, the salinity concentration of the liquid 2 can be freely determined. Therefore, the salinity concentration of the liquid 2 should be displayed on the surface of the packaging container 3 such as, for example, how many times that of seawater. A display method may be adopted.

  The salinity concentration of the liquid 2 packed in the packaging container 3 is preferably 10 times that of seawater in that the amount of water added thereto becomes clear from the beginning. Here, “10 times the seawater” means that, for example, when 100 liters of seawater is produced from the 10 liter packaging container 3 using the liquid 2, 10 liters of the liquid 2 is taken out from the 10 liter packaging container 3, and water is poured. In addition, it means 100 liters. The amount of water added is 90 liters.

  When adjusting the liquid 2 as a stock solution so as to match the salinity of seawater, usually the water is added while measuring the salinity with a hydrometer, but it should be diluted with 10 times the water. If so, the adjustment will be easier.

  The liquid 2 packed in the packaging container 3 may contain a chlorine neutralizer. As shown in FIG. 2, this is effective for allowing tap water without draining lime to be used as water for diluting the liquid (raw solution) 2 as it is. As a result, anyone (even beginners) can easily produce artificial seawater.

  The packaging container 3 is provided with an upper line 7 displaying a full tank on the upper side and a lower line 8 displaying a remaining amount of about 10% on the lower side. When the liquid 2 is filled up to the upper line 7, for example, the packaging container 3 for 10L becomes 11 liters. The lower line 8 is a remaining 10% remaining line. In addition, it is good to provide the inclination line 8 'which shows a residual amount of 10% as a standard when the packaging container 3 is inclined.

  The lower line 8 is provided in the packaging container 3 so that a remaining amount of 10% is obtained by adding water to the liquid 2 poured from the packaging container 3 to produce artificial seawater and using a hydrometer. Measure the salinity and confirm that the concentration is in the range of 1.020 to 1.023. When the salinity is 1.020 or less, adjust to increase the salinity to the above range. Must be used for that. That is, for adjusting the salinity concentration.

  The salinity concentration may increase due to the evaporation of artificial seawater in the aquarium. Therefore, it is necessary to check the artificial seawater in the aquarium using a concentration specific gravity meter and adjust the salinity concentration in a timely manner. In addition, the artificial seawater in the aquarium is exchanged for half or 2/3 at regular intervals. At this time, water is added to the liquid 2 poured from the packaging container 3 in another container (bucket, etc.) in advance. Artificial seawater is produced, but at that time it is necessary to adjust the salinity.

  Next, the operation of the present invention will be described. Now, for example, when making artificial seawater in a 100 liter water tank, 10 liters of the liquid (raw solution) 2 in the 10 L packaging container 3 is left leaving the liquid below the lower line 8.

  When the salinity of the liquid (raw solution) 2 in the packaging container 3 is 10 times that of seawater and a chlorine neutralizer is added, the water tank is stirred while adding water to the 100 liter line. Go on the surface of the packaging container.

  After that, it is checked whether or not the salinity concentration in the water tank is within the range of 1.020 to 1.023 using a salinity concentration specific gravity meter. When the salt concentration is 1.020 or less by this check, the artificial seawater is adjusted by using the 2 liters of liquid (raw solution) 2 left in the packaging container 3 until the salt concentration is within the above range.

  Next, the artificial seawater in the aquarium is bred with organisms that inhabit the seawater, for example, frame angels preferred by the breeder, fish such as clownfish, or invertebrates such as corals.

  The artificial seawater of the present application can be easily produced by anyone (beginners or long-time experienced persons) simply by adding water (or tap water) and stirring.

It is a partially cutaway front view showing an element of artificial seawater of the present application. It is explanatory drawing which shows the state which the liquid and tap water which were poured from the element of the artificial seawater of this application are mixing.

Explanation of symbols

1 Element of artificial seawater of this application 2 Liquid 3 Packaging container 4 Water tank 5 Artificial seawater 6 Water from faucet 7 Upper line (full tank line)
8 Lower line (10% remaining line)
8 'auxiliary line

This invention is dwelling organisms in anyone to easily seawater only addition of water (e.g., saltwater fish) relates prime field of artificial seawater can be produced artificial seawater can breed.

  When raising organisms that inhabit seawater in indoor and outdoor aquariums, it is most ideal to collect and use seawater itself, but it is difficult to transport a large amount of seawater and transportation costs are high. For this reason, the salt for artificial seawater manufacture currently marketed as a powder or a granule is normally utilized. The powder or granular salt for artificial seawater production was easy and convenient in that it would be artificial seawater if water was added to this and stirred and dissolved.

  However, the above-mentioned salt for producing artificial seawater in the form of powder or granules is easy, but it does not dissolve sufficiently unless water is added and stirred well (using a special stirrer). Distributing was not always easy for beginners as well as experienced people.

The present invention has been devised in view of the above points. The purpose of the present invention is to make it easy for anyone (beginners and experienced persons) to produce artificial seawater simply by adding water and stirring lightly. and to provide a the prime field of artificial seawater.

To achieve the above object, prime field of artificial seawater in accordance with the present invention is a liquid where the salinity was darker than the seawater, characterized in that the shape of the container filled into a packaging container, taken out from the packaging container It was configured so that the salt concentration could be adjusted to suit seawater simply by adding water to the liquid and agitating lightly.

Moreover, prime field of artificial seawater according to claim 2, a salt concentration was darker than the seawater, and a liquid obtained by blending the chlorine neutralizing agent, characterized in that the shape of the container filled into a packaging container The artificial seawater was obtained simply by adding tap water to the liquid taken out from the packaging container and agitating lightly.

Moreover, prime field of artificial seawater according to claim 3, the salinity was 10 times thicker than the sea water liquid packed in the packaging container, characterized in that the shape of the container, the artificial seawater desired salinity In order to obtain it, the amount of water added to the liquid taken out from the packaging container was numerically clarified from the beginning.

According to the present invention, a salt-rich liquid in which salinity is well dispersed is packed into a packaging container and shaped into that container, so that the container can be sold in a liquid state , and those who have purchased it can package it. It is easy to adjust the salinity by simply injecting a liquid from a container into a water tank or the like, adding a necessary amount of water thereto, and gently stirring. Therefore, it is possible to easily obtain a large volume of seawater at home, and to exhibit various excellent effects such as greatly reducing the transportation cost of seawater.

  Further, according to the invention described in claim 2, since a chlorine neutralizing agent is blended, tap water is simply added to the liquid taken out from the packaging container without removing the calcite (lime for sterilization). Therefore, it has an excellent effect that seawater can be easily produced at home.

  Further, according to the invention described in claim 3, since the amount of water added to the liquid taken out from the packaging container is numerically clear from the beginning, artificial seawater with an appropriate salinity concentration can be easily manufactured by anyone ( It has an excellent effect that salt adjustment is necessary later).

Next, an embodiment of the present invention will be described based on the drawings. Figure 1 is a partially cutaway front view showing a prime field of application artificial seawater, FIG. 2 is an explanatory view showing a mixing make state of the prime field and tap water of the present artificial seawater.

Prime field 1 of the present artificial seawater, as shown in FIG. 1, the liquid 2 which is darker than the seawater salinity, made in the shape of the container filled into a packaging container 3. In the illustrated example, the packaging container 3 is a plastic bottle with a handle, but may be a bag-shaped packaging container such as a plastic bag. The packaging container 3 may be a plastic bag and a paper box, a metal box, or a combination with a plastic box, but more preferably a part of the liquid 2 filled therein can be seen through.

  It is preferable to prepare about three types of the packaging containers 3, large (for 10L), medium (for 6L), and small (for 3L). For example, as shown in FIG. 2, when the artificial seawater 5 is produced in the water tank 4, the liquid 2 is injected by selecting an appropriate capacity from among large, medium and small packaging containers 3 according to the capacity of the water tank 4. Then, while adding tap water 6 from the tap 5 of the tap, it is stirred gently to produce artificial seawater. At this time, it is confirmed whether or not the salinity concentration is within a range of 1.020 to 1.023 using a concentration specific gravity meter (not shown).

  The main components contained in the liquid 2 constituting the element 1 of the artificial seawater of the present application are chlorine (Cl), sodium (Na), magnesium (Mg), calcium (Ca), potassium (K), sulfur (S ), Bromine (Br), carbon (C), strontium (Sr), boron (B), fluorine (F), silicon (Si) and others. Of course, it is not limited to this component.

  The liquid 2 may use part or all of natural mineral-rich water taken from deep ocean water. If an appropriate amount of a pH (ph) stabilizer is mixed in the liquid 2 so that it can be stably maintained at ph8 to 8.3 over a long period of time, it is effective not only for saltwater fish but also for invertebrates such as corals. That is, stress due to ph down is not applied to invertebrates such as corals. For invertebrates such as corals, it is effective that calcium (Ca) is blended in a well-balanced manner, and a moss inhibitor made of a natural substance that suppresses moss generation may be blended.

  The salinity concentration of the liquid 2 constituting the element body 1 of the artificial seawater of the present application is based on the salinity concentration of seawater and is made deeper than this. This may be produced by concentrating the seawater to make it thick, but normally, the liquid 2 having a high concentration of salinity is made using salt for producing artificial seawater that is sold in the form of powder or granules. Therefore, since the salt concentration of the liquid 2 can be determined freely, it is preferable to display on the surface of the packaging container 3 such that the salt concentration of the liquid 2 is, for example, several times that of seawater. Other display methods may be employed.

  The salinity concentration of the liquid 2 packed in the packaging container 3 is preferably 10 times that of seawater in that the amount of water added thereto becomes clear from the beginning. Here, “10 times the seawater” means that, for example, when 100 liters of seawater is produced from the 10 liter packaging container 3 using the liquid 2, 10 liters of the liquid 2 is taken out from the 10 liter packaging container 3, and water is poured. In addition, it means 100 liters. The amount of water added is 90 liters.

  When adjusting the liquid 2 as a stock solution so as to match the salinity of seawater, usually the water is added while measuring the salinity with a hydrometer, but it should be diluted with 10 times the water. If so, the adjustment will be easier.

  The liquid 2 packed in the packaging container 3 may contain a chlorine neutralizer. As shown in FIG. 2, this is effective for allowing tap water without draining lime to be used as water for diluting the liquid (raw solution) 2 as it is. As a result, anyone (even beginners) can easily produce artificial seawater.

  The packaging container 3 is provided with an upper line 7 displaying a full tank on the upper side and a lower line 8 displaying a remaining amount of about 10% on the lower side. When the liquid 2 is filled up to the upper line 7, for example, the packaging container 3 for 10L becomes 11 liters. The lower line 8 is a remaining 10% remaining line. In addition, it is good to provide the inclination line 8 'which shows a residual amount of 10% as a standard when the packaging container 3 is inclined.

  The lower line 8 is provided in the packaging container 3 so that a remaining amount of 10% is obtained by adding water to the liquid 2 poured from the packaging container 3 to produce artificial seawater and using a hydrometer. Measure the salinity and confirm that the concentration is in the range of 1.020 to 1.023. When the salinity is 1.020 or less, adjust to increase the salinity to the above range. Must be used for that. That is, for adjusting the salinity concentration.

  The salinity concentration may increase due to the evaporation of artificial seawater in the aquarium. Therefore, it is necessary to check the artificial seawater in the aquarium using a concentration specific gravity meter and adjust the salinity concentration in a timely manner. In addition, the artificial seawater in the aquarium is exchanged for half or 2/3 at regular intervals. At this time, water is added to the liquid 2 poured from the packaging container 3 in another container (bucket, etc.) in advance. Artificial seawater is produced, but at that time it is necessary to adjust the salinity.

  Next, the operation of the present invention will be described. Now, for example, when making artificial seawater in a 100 liter water tank, 10 liters of the liquid (raw solution) 2 in the 10 L packaging container 3 is left leaving the liquid below the lower line 8.

  When the salinity of the liquid (raw solution) 2 in the packaging container 3 is 10 times that of seawater and a chlorine neutralizer is added, the water tank is stirred while adding water to the 100 liter line. Go on the surface of the packaging container.

  After that, it is checked whether or not the salinity concentration in the water tank is within the range of 1.020 to 1.023 using a salinity concentration specific gravity meter. When the salt concentration is 1.020 or less by this check, the artificial seawater is adjusted by using the 2 liters of liquid (raw solution) 2 left in the packaging container 3 until the salt concentration is within the above range.

  Next, the artificial seawater in the aquarium is bred with organisms that inhabit the seawater, for example, frame angels preferred by the breeder, fish such as clownfish, or invertebrates such as corals.

Prime field of the present artificial sea water, water (even for beginners of many years experience) only at anyone be stirred with (tap water also available) easy to artificial seawater is one that can be easily manufactured.

It is a partially cutaway front view showing the element of the present artificial seawater. Is an explanatory diagram showing a mixed to have the state of the poured from prime field of the present artificial seawater liquid and tap water.

Explanation of symbols

1 present artificial seawater containing body 2 Liquid 3 packaging container 4 water tank 5 artificial seawater 6 faucet water 7 on line (full line)
8 Lower line (10% remaining line)
8 'auxiliary line

The present invention relates to a packaging container for a body of artificial seawater that can produce artificial seawater that can easily breed organisms (for example, seawater fish) that inhabit seawater by simply adding water.

  When raising organisms that inhabit seawater in indoor and outdoor aquariums, it is most ideal to collect and use seawater itself, but it is difficult to transport a large amount of seawater and transportation costs are high. For this reason, the salt for artificial seawater manufacture currently marketed as a powder or a granule is normally utilized. The powder or granular salt for artificial seawater production was easy and convenient in that it would be artificial seawater if water was added to this and stirred and dissolved.

  However, the above-mentioned salt for producing artificial seawater in the form of powder or granules is easy, but it does not dissolve sufficiently unless water is added and stirred well (using a special stirrer). Distributing was not always easy for beginners as well as experienced people.

The present invention has been devised in view of the above points. The purpose of the present invention is to make it easy for anyone (beginners and experienced persons) to produce artificial seawater simply by adding water and stirring lightly. An object of the present invention is to provide a packaging container for an artificial seawater body.

In order to achieve the above object, an artificial seawater packaging container according to the present invention is a packaging container having a sealing lid for filling a liquid whose salinity is higher than that of seawater. It features an upper line displaying full tank and a lower line displaying approximately 10% of the remaining amount on the lower side. Just add water to the liquid taken out of the packaging container and lightly agitate it to meet seawater. It was configured to be able to adjust to such a salt concentration.

The packaging container of the element body of the artificial seawater according to claim 2, the liquid to the salinity darker than seawater, characterized in that is obtained by blending a chlorine neutralizing agent, it was removed from the packaging container liquid In addition, artificial seawater was obtained simply by adding tap water and stirring gently.

Furthermore, the packaging container of the artificial seawater body according to claim 3 is characterized in that the packaging container is filled with a liquid whose salt concentration is 10 times higher than seawater, and the container has a desired salinity concentration. The amount of water added to the liquid taken out from the packaging container to obtain artificial seawater was configured to be numerically clear from the beginning.

According to the present invention, a packaging container having a sealing lid for filling a liquid whose salinity is higher than that of seawater, an upper line displaying a full tank at the upper part of the packaging container, and about 10% at a lower part. It is characterized by the fact that a lower line indicating the remaining amount is provided, so that each container can be sold in the liquid state, and those who have purchased it can inject the liquid from the packaging container into a water tank etc. The salt concentration can be easily adjusted simply by adding an amount of water and stirring gently. Therefore, it is possible to easily obtain a large volume of seawater at home, and to exhibit various excellent effects such as greatly reducing the transportation cost of seawater.

  Further, according to the invention described in claim 2, since a chlorine neutralizing agent is blended, tap water is simply added to the liquid taken out from the packaging container without removing the calcite (lime for sterilization). Therefore, it has an excellent effect that seawater can be easily produced at home.

  Further, according to the invention described in claim 3, since the amount of water added to the liquid taken out from the packaging container is numerically clear from the beginning, artificial seawater with an appropriate salinity concentration can be easily manufactured by anyone ( It has an excellent effect that salt adjustment is necessary later).

Next, an embodiment of the present invention will be described based on the drawings. Figure 1 is a partially cutaway front view showing a prime field of application artificial seawater, FIG. 2 is an explanatory view showing a mixing make state of the prime field and tap water of the present artificial seawater.

Prime field 1 of the present artificial seawater, as shown in FIG. 1, the liquid 2 which is darker than the seawater salinity, made in the shape of the container filled into a packaging container 3. In the illustrated example, the packaging container 3 is a plastic bottle with a handle, but may be a bag-shaped packaging container such as a plastic bag. The packaging container 3 may be a plastic bag and a paper box, a metal box, or a combination with a plastic box, but more preferably a part of the liquid 2 filled therein can be seen through.

  It is preferable to prepare about three types of the packaging containers 3, large (for 10L), medium (for 6L), and small (for 3L). For example, as shown in FIG. 2, when the artificial seawater 5 is produced in the water tank 4, the liquid 2 is injected by selecting an appropriate capacity from among large, medium and small packaging containers 3 according to the capacity of the water tank 4. Then, while adding tap water 6 from the tap 5 of the tap, it is stirred gently to produce artificial seawater. At this time, it is confirmed whether or not the salinity concentration is within a range of 1.020 to 1.023 using a concentration specific gravity meter (not shown).

  The main components contained in the liquid 2 constituting the element 1 of the artificial seawater of the present application are chlorine (Cl), sodium (Na), magnesium (Mg), calcium (Ca), potassium (K), sulfur (S ), Bromine (Br), carbon (C), strontium (Sr), boron (B), fluorine (F), silicon (Si) and others. Of course, it is not limited to this component.

  The liquid 2 may use part or all of natural mineral-rich water taken from deep ocean water. If an appropriate amount of a pH (ph) stabilizer is mixed in the liquid 2 so that it can be stably maintained at ph8 to 8.3 over a long period of time, it is effective not only for saltwater fish but also for invertebrates such as corals. That is, stress due to ph down is not applied to invertebrates such as corals. For invertebrates such as corals, it is effective that calcium (Ca) is blended in a well-balanced manner, and a moss inhibitor made of a natural substance that suppresses moss generation may be blended.

  The salinity concentration of the liquid 2 constituting the element body 1 of the artificial seawater of the present application is based on the salinity concentration of seawater and is made deeper than this. This may be produced by concentrating the seawater to make it thick, but normally, the liquid 2 having a high concentration of salinity is made using salt for producing artificial seawater that is sold in the form of powder or granules. Therefore, since the salt concentration of the liquid 2 can be determined freely, it is preferable to display on the surface of the packaging container 3 such that the salt concentration of the liquid 2 is, for example, several times that of seawater. Other display methods may be employed.

  The salinity concentration of the liquid 2 packed in the packaging container 3 is preferably 10 times that of seawater in that the amount of water added thereto becomes clear from the beginning. Here, “10 times the seawater” means that, for example, when 100 liters of seawater is produced from the 10 liter packaging container 3 using the liquid 2, 10 liters of the liquid 2 is taken out from the 10 liter packaging container 3, and water is poured. In addition, it means 100 liters. The amount of water added is 90 liters.

  When adjusting the liquid 2 as a stock solution so as to match the salinity of seawater, usually the water is added while measuring the salinity with a hydrometer, but it should be diluted with 10 times the water. If so, the adjustment will be easier.

  The liquid 2 packed in the packaging container 3 may contain a chlorine neutralizer. As shown in FIG. 2, this is effective for allowing tap water without draining lime to be used as water for diluting the liquid (raw solution) 2 as it is. As a result, anyone (even beginners) can easily produce artificial seawater.

  The packaging container 3 is provided with an upper line 7 displaying a full tank on the upper side and a lower line 8 displaying a remaining amount of about 10% on the lower side. When the liquid 2 is filled up to the upper line 7, for example, the packaging container 3 for 10L becomes 11 liters. The lower line 8 is a remaining 10% remaining line. In addition, it is good to provide the inclination line 8 'which shows a residual amount of 10% as a standard when the packaging container 3 is inclined.

  The lower line 8 is provided in the packaging container 3 so that a remaining amount of 10% is obtained by adding water to the liquid 2 poured from the packaging container 3 to produce artificial seawater and using a hydrometer. Measure the salinity and confirm that the concentration is in the range of 1.020 to 1.023. When the salinity is 1.020 or less, adjust to increase the salinity to the above range. Must be used for that. That is, for adjusting the salinity concentration.

  The salinity concentration may increase due to the evaporation of artificial seawater in the aquarium. Therefore, it is necessary to check the artificial seawater in the aquarium using a concentration specific gravity meter and adjust the salinity concentration in a timely manner. In addition, the artificial seawater in the aquarium is exchanged for half or 2/3 at regular intervals. At this time, water is added to the liquid 2 poured from the packaging container 3 in another container (bucket, etc.) in advance. Artificial seawater is produced, but at that time it is necessary to adjust the salinity.

  Next, the operation of the present invention will be described. Now, for example, when making artificial seawater in a 100 liter water tank, 10 liters of the liquid (raw solution) 2 in the 10 L packaging container 3 is left leaving the liquid below the lower line 8.

  When the salinity of the liquid (raw solution) 2 in the packaging container 3 is 10 times that of seawater and a chlorine neutralizer is added, the water tank is stirred while adding water to the 100 liter line. Go on the surface of the packaging container.

  After that, it is checked whether or not the salinity concentration in the water tank is within the range of 1.020 to 1.023 using a salinity concentration specific gravity meter. When the salt concentration is 1.020 or less by this check, the artificial seawater is adjusted by using the 2 liters of liquid (raw solution) 2 left in the packaging container 3 until the salt concentration is within the above range.

  Next, the artificial seawater in the aquarium is bred with organisms that inhabit the seawater, for example, frame angels preferred by the breeder, fish such as clownfish, or invertebrates such as corals.

The artificial seawater packaging container of this application is easily removed from the packaging container , and anyone (beginners or long-time experienced persons) can easily make artificial seawater simply by adding water (tap water is acceptable) and stirring. It can be manufactured.

It is a partially notched front view which shows the packaging container of the base body of this-application artificial seawater. Is an explanatory view showing a state in which a mixture of liquid and tap water from the packaging container body of the present artificial seawater.

Explanation of symbols

1 present artificial seawater containing body 2 Liquid 3 packaging container 4 water tank 5 artificial seawater 6 faucet water 7 on line (full line)
8 Lower line (10% remaining line)
8 'auxiliary line

Claims (3)

  An element of artificial seawater, characterized in that a packaging container is filled with a liquid whose salinity is higher than seawater.   An element of artificial seawater, characterized in that a salinity concentration is higher than seawater and a liquid containing a chlorine neutralizer is packed in a packaging container.   An element of artificial seawater, characterized in that a packaging container is filled with a liquid having a salt concentration 10 times higher than seawater.

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