KR20100097326A - Next generation aquarium - Google Patents

Abstract

PURPOSE: A next generation fishbowl is provided, which can be utilized as interior decoration by irradiating illumination to the aquatic plant. CONSTITUTION: A next generation fishbowl comprises: a fishbowl(10); one or more flowerpot(20) installed in the fishbowl; a container(30) which seals the outside of the flowerpot and has one or more connection parts on one side; a valve(40) for controlling the amount of the oxygen or carbon dioxide coming out from the connection part of the container; a filter(50) which is installed inside or outside the fishbowl and eliminates foreign materials; and a controller(100) which is connected to valve and filter and controls a valve.

Description

Next generation aquarium

The present invention relates to a next-generation fish tank, and supplies a oxygen and carbon dioxide to the fish tank as well as supplying oxygen to the room using aquatic plants and general plants, and relates to a next-generation fish tank configured to grow well fish and plants.

Conventionally, a combination of a hydroponic cultivation pot and a fishbowl has been proposed to provide a nutrient for plants by mainly supplying fish droppings in a fishbowl. However, since the fish tank is provided with an air generating device for supplying oxygen to the fish, the power consumption is too high, the operation noise of the air generating device is large, and the humidifier is provided separately in the water tank has a disadvantage that the configuration is complicated.

Simply combining the hydroponic cultivation pots and the fish tank as in the prior art requires an air generating device, there is a problem that the noise is generated, and also requires a separate power source.

The present invention has been made in view of the problems of the prior art, the object of the present invention is to provide a next-generation fish tank that can grow well fish and aquatic plants by selectively providing oxygen and carbon dioxide to the fish tank using the general plants. .

Another object of the present invention is to provide a next-generation fish tank that can be utilized as interior decoration by illuminating the outside of aquatic plants using a solar dust collection system.

The next-generation fish tank of the present invention provides a container having a connection part on one side of the pot to provide oxygen and carbon dioxide to the fish tank as well as indoors so that the fish as well as aquatic plants grow, and the amount of oxygen or carbon dioxide from the connection part And use a controller to control the valve for regulation.

The next-generation fish tank of the present invention is configured to install a housing that can supply lighting to the outside of aquatic plants using a solar dust collecting system, and to control a valve, a filter, and a solar dust collecting system with a controller.

The next-generation fish tank of the present invention can supply oxygen and carbon dioxide to the fish tank without using a separate bubble generator can provide a comfortable environment for fish and aquatic plants.

Next-generation fish tank of the present invention can supply oxygen to the room, and because it provides lighting to aquatic plants using sunlight can also provide the benefits of interior decoration due to the soft lighting.

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An embodiment of the next-generation fishbowl of the present invention will be described with reference to the accompanying drawings.

1 is a front view schematically showing a next-generation fish tank according to an embodiment of the present invention.

Next generation fish tank of the present invention is a fish tank (10); At least one or more pots 20 installed in the fish tank; A container 30 that seals the outside of the pot 20 and has at least one connection part 22 on one side thereof; A valve 40 for adjusting the amount of oxygen or carbon dioxide coming out of the connection portion 22 of the vessel 30; A filter (50) installed inside or outside the fish tank (10) to remove foreign matters; It is connected to the valve 40 and the filter 50, and consists of a controller 100 for controlling the valve 40.

The fish tank 10, as shown in Figure 1, contains a predetermined amount of water, and put the soil (soil) 11, stones 12 or trees (not shown), etc., fish 2 inside The perforated plate (4) is to be installed to send the excrement of the lower part. The porous plate 4 is formed with a through hole 6 at regular intervals. In addition, a conical inclined portion 7 is formed in the lower portion of the through hole 6 to prevent the excretion of the fish 2 from rising upward again.

The pot 20 may be used a pot generally used, may be used by cutting a portion such as a bucket (not shown). The flower pot 20 may be installed at a place convenient for the user to install at one side or both sides of the outside or inside of the fish tank 10. In addition, the plant 8 to be planted in the pot 20 is preferably used tropical plants such as sansevieria, aloe cassia, aloe vera, palm and the like to generate oxygen well. The bottom of the pot 20 is installed planter support 120, each of the pots 20 are formed at intervals in the vertical direction, each side, a passage through which a predetermined space is formed so that air to each other ( 122) is formed.

The flower pot 20 is sealed by the container 30, and the container 30 forms a connecting portion 22 by a member such as a pipe. Each pot 20 in the container 30 is to circulate air through the passage (122).

The connection part 22 may include at least one oxygen side connection part 23 contacting / connecting to water inside the fish tank 10, and at least one other oxygen side connection part 25 installed outside the fish tank 10. , At least one carbon dioxide side connection portion 27 is in contact with the soil (soil) 11 or the stone 12 of the inner bottom of the fish tank (10).

The oxygen side connecting portion 23 is installed to supply oxygen without using a bubble generator (not shown) inside the fish tank 10, and is fixed to the fish tank 10 by fixing means (not shown). And the other oxygen side connection part 25 provided in the outer side of the fish tank 10 can open | release a predetermined position (indoor) suitably the length, and can supply oxygen to a room.

On the other hand, the carbon dioxide side connection portion 27 is installed in the inner lower portion of the fish tank 10 to provide carbon dioxide to the water plants 130 planted in the soil 11 or stone 12 of the inner lower portion of the fish tank 10. Providing carbon dioxide in plants can speed up its growth.

In the connecting portion 22, valves 40 are respectively installed to control inflow of oxygen or carbon dioxide, and the valve 40 preferably uses an solenoid valve such as a solenoid valve. If the installation of the valve 40 is not easy, it may be configured to be turned on and off using a diaphragm (not shown).

On the other hand, the connection portion 22 is the oxygen side connection portion 23 which is in contact with / connected to the water inside the tank, and the carbon dioxide side which is contacted / connected to the soil (soil) 11 or the stone 12 at the lower side of the tank. It is also possible to configure the connection portion 27. That is, when it is not necessary to supply oxygen to a room, the other oxygen side connection part 25 does not need to be used.

In addition, one side of the oxygen-side connection portion 23 is further provided with an auxiliary connection portion 24 sealed by inserting the cellulose 21. The reason for installing the auxiliary connection 24 is to allow only oxygen to pass through since oxygen is lighter than carbon dioxide.

The valve 40 and the filter 50 are connected to the controller 100, the controller 100 is connected to the power supply 110. In addition, reference numeral 95 is a light source for providing light to the fish tank 10, and is connected to the controller 100.

Referring to the operation of the next-generation fish tank according to an embodiment of the present invention configured as described above are as follows.

First, the next-generation fish tank of the present invention supplies oxygen to the fish 2 by using photosynthesis of the potted plant planted in the pot 20 during the day, and supplies a small amount of carbon dioxide to the water plant 130 at night.

When power is supplied to the power supply unit 110, the controller 100 operates the valve 40 of the connecting portion 22 connected to the container 30 to at least one or more contacted / connected to water inside the fish tank 10. The oxygen side connecting portion 23 and at least one other oxygen side connecting portion 25 provided outside the fish tank 10 are opened. As such, when the oxygen side connecting portion 23 is opened, oxygen is supplied to the water in the fish tank 10, and when the other oxygen side connecting portion 25 is opened, oxygen is supplied to the outside of the fish tank 10 (that is, indoor). .

Oxygen supplied from the oxygen-side connecting portion 23 is to supply oxygen to the fish (2) does not require a separate bubble generator (not shown). If the fish 2 acts abnormally due to lack of oxygen, it is preferable to further increase the number of the aquatic plants 72 and the water plants 130 inside the fish tank 10. However, according to the experiment, if the number of the aquatic plant 72 and the number of plants 130 is increased too much, the temperature of the water rises and there is a disadvantage that moss occurs on the wall surface of the fish tank 10, so it should be adjusted appropriately.

And, the excrement of the fish (2) is collected in the downward direction through the through hole (6) of the porous plate 4, this excretion is filtered by a portion of the filter 50. Then, the remaining excrement is to enter the myelin sheath container 150 containing the myelin 130 is utilized as the manure of the myelin 130.

On the other hand, at night, the oxygen side connecting portion 23 and the other oxygen side connecting portion 25 are closed using the controller 100 to close the valve 40 and open the carbon dioxide side connecting portion 27. When carbon dioxide is supplied from the carbon dioxide side connection part 27, it helps the growth of the water plants 130 in the fish tank 10. If an abnormal phenomenon (phenomena due to lack of oxygen) of the fish 2 occurs, light is supplied to the pollen 20, and the valve 40 is operated from the controller 100 to open the oxygen side connection part 23. Done.

2 is a front view showing a next-generation fish tank according to another embodiment of the present invention.

Next generation fish tank according to another embodiment of the present invention is a fish tank (10); At least one or more pots 20 installed outside the fish tank 10; A container 30 which seals the outside of the pot 20 and has at least one connection part 22 on one side thereof; A valve 40 for regulating the amount of oxygen or carbon dioxide coming out of the connection 22 of the vessel 30; A filter 50 installed inside or outside the fish tank 10 to remove foreign substances; A solar dust collecting system 60 installed outside the fish tank 10; A housing 70 connected to the solar dust collecting system 60, accommodating aquatic plants 72, and configured to emit light; It is connected to the valve 40, the filter 50, the solar dust collecting system 60, and consists of a controller 100 for controlling them.

In the next-generation fish tank according to another embodiment of the present invention, the configuration of the fish tank 10, the potted plant 20, the container 30, the valve 40, and the filter 50 is similar to the above-described embodiment The detailed description thereof will be omitted.

The solar dust collecting system 60 includes a plurality of solar cells 62 and a battery 64 connected to the solar cells 62. The solar dust collecting system 60 may be installed at one side of the fish tank 10 or outside the fish tank 10.

On the other hand, the housing 70 is made of a hollow cylindrical shape to accommodate the aquatic plant 72 therein, the first housing 80 is provided with a light emitting element 82 at intervals on the outside and the first housing It consists of a first housing 80 and the second housing 90 is screwed. The first and second housings 80 and 90 are configured to be attached and detached according to the root length of aquatic plants. The light emitting element 82 of the housing 70 is connected to the battery 64 and the controller 100 to be described later.

In order to facilitate the flow of foreign matter (not shown) of the fish (2) is installed in the lower portion of the fish tank 10, the excrement moving unit 170 is provided, a predetermined portion of the excrement moving unit 170 The first waterproof fan 160 and the second waterproof fan 180 are installed. The filter 50 is installed at a position opposite to the first waterproof fan 160. The filter 50 may apply a filter generally used. The foreign matter flowing from the first and second waterproof fans 160 and 180 is removed by the filter 50.

Preferably, the first waterproof fan 160 has better performance than the second waterproof fan 180, and the first and second waterproof fans 160 and 180 may include a battery 64 and a controller 100. )

The controller 100 is connected to the valve 40, the filter 50, the solar dust collecting system 60, and the first and second waterproof fans 160 and 180, and is configured to control them. The valve 40 is preferably applied to the solenoid valve, such as a solenoid valve.

Referring to the operation of the next-generation fish tank according to another embodiment of the present invention configured as described above are as follows.

The next-generation fish tank according to another embodiment of the present invention is configured to use solar power during the day and to accumulate in the battery at night, but to supply power from the power supply unit when it is insufficient.

First, during the day, when the sun shines on the solar cell 62 of the solar dust collecting system 60, the battery 64 is charged, and the controller 100 connected to the battery 64 is connected to the container 30. At least one oxygen side connection portion 23 which is operated / validated by the valve 40 of the connecting portion 22 to the water inside the fish tank 10, and at least one other oxygen installed outside the fish tank 10; The side connection part 25 is opened. As such, when the oxygen side connecting portion 23 is opened, oxygen is supplied to the water in the fish tank 10, and when the other oxygen side connecting portion 25 is opened, oxygen is supplied to the outside of the fish tank 10 (that is, indoor). . The other oxygen side connecting portion 25 may be closed according to the user's request.

And, the excrement of the fish (2) is collected by the excrement moving unit 170, such excrement is moved to the filter 50 side installed on one side of the fish tank 10 by the operation of the first and second waterproofing fan (160,180). And filtered.

On the other hand, at night, the oxygen side connecting portion 23 and the other oxygen side connecting portion 25 are closed using the controller 100 to close the valve 40 and open the carbon dioxide side connecting portion 27. When carbon dioxide is supplied from the carbon dioxide side connection part 27, it helps the growth of the water plants 130 in the fish tank 10. If an abnormal phenomenon (a phenomenon due to lack of oxygen) of the fish 2 occurs, the valve 40 is operated from the controller 100 to open the oxygen side connecting portion 23 and supply oxygen. However, at night, since the light emitting device 82 of the housing 70 in which the aquatic plants 72 are contained generates light and proceeds to some degree of photosynthesis, a predetermined amount of oxygen is supplied. In addition, the light of the light emitting device 82 is not very bright, but it is enough to serve as indoor lighting, which is very convenient when the user moves.

The next-generation fish tank of the present invention can be applied to the interior decoration field as well as to clean the appearance of the air in the home or office.

1 is a front view showing an embodiment of the next-generation fishbowl,

2 is a view showing another embodiment of the next-generation fishbowl,

3 is a view showing a connection between aquatic plants and the housing.

Explanation of symbols on the main parts of the drawings

10: fish tank 20: pollen

30: container 40: valve

50: filter 60: solar dust collection system

70: housing 100: controller

Claims (9)

Fish tank 10; At least one or more pots 20 installed in the fish tank; A container 30 that seals the outside of the pot 20 and has at least one connection part 22 on one side thereof; A valve 40 for adjusting the amount of oxygen or carbon dioxide coming out of the connection portion 22 of the vessel 30; A filter (50) installed inside or outside the fish tank (10) to remove foreign matters; Next-generation fish tank characterized in that it is connected to the valve (40) and the filter (50), the controller for controlling the valve (100). The connection part 22 of the said container 30 is at least one oxygen side connection part contacted / connected with the water inside a tank, the at least one other oxygen side connection part installed in the outside of a tank, Next-generation fish tank, characterized in that made of at least one carbon dioxide side connection portion which is contacted / connected to the soil (soil) or stone of the inner lower portion. According to claim 1, wherein the connection portion 22 of the vessel 30 is connected to the oxygen side of the tank in contact with the water, and the carbon dioxide side in contact with the soil (soil) and stone of the lower side of the inside of the fish tank Next-generation fish tank characterized by consisting of a connection. 4. The next-generation fish tank according to claim 2 or 3, wherein one side of the oxygen-side connecting portion is further provided with an auxiliary connecting portion (24) sealed by inserting cellulose. Fish tank 10; At least one or more pots 20 installed in the fish tank; A container 30 which seals the outside of the flower pot 20 and has at least one connection part 22 on one side thereof; A valve 40 for adjusting the amount of oxygen or carbon dioxide coming out of the connection portion 22 of the vessel 30; A filter (50) installed inside or outside the fish tank (10) to remove foreign matters; A solar dust collecting system 60 installed outside the fish tank 10; A housing (70) connected to the solar dust collecting system (60) and configured to receive aquatic plants and to emit light; Next-generation fish tank characterized in that it is connected to the valve (40), filter (50), solar dust collecting system (60), and a controller (100) for controlling them. The next generation fish tank according to claim 5, wherein the excrement moving part 170 is installed under the fish tank 10, and the plurality of first and second waterproof fans 160 and 180 are installed in the excrement moving part. . The connection part 22 of the said container 30 is at least one oxygen side connection part contacted / connected with the water inside a tank, the at least one other oxygen side connection part installed in the outside of a fish tank, and Next-generation fish tank, characterized in that made of at least one carbon dioxide side connection portion which is contacted / connected to the soil (soil) or stone of the lower side. The next-generation fish tank according to claim 5, wherein the solar dust collecting system (60) comprises a solar cell (62) and a battery (64) connected to the solar cell (62). According to claim 5, The housing 70 accommodates aquatic plants, the first housing 80, the light emitting element 82 is installed at intervals on the outside and the first housing 80 is screwed The second housing (90), the first and second housing is a next-generation fish tank, characterized in that configured to be attached to, attached to the root length of the aquatic plant.

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