KR20230102667A - An aquarium that enables convenient and safe management based on the Internet of Things - Google Patents

Abstract

The present invention relates to an aquarium that can be conveniently and safely managed based on the Internet of Things, and relates to an aquarium for receiving water transported from the aquarium, purifying it through a water purifier, and accommodating it, and plasma installed in the tank and supplying air supplied from the outside. ) A plasma generator for sterilizing water in the tank by generating ozone by discharge, a motor installed in the aquarium to transfer or receive water to the tank, an oxygen generator for supplying oxygen to the aquarium, and a heater installed in the aquarium In an aquarium including lighting and a camera, a temperature sensor detects the temperature of the water in the aquarium and generates a water temperature value, and a water quality sensor that detects the amount of dissolved oxygen (DO) and pH concentration in the aquarium and generates respective values. And, a sensor unit composed of an illuminance sensor that detects the illuminance according to the operation of the light and generates an illuminance value, receives data from the sensor unit, and monitors the environment of the aquarium through a device installed in the aquarium based on the received data. A control unit for controlling, a server connected to the aquarium control unit through wireless communication to receive, analyze, and store data received from the aquarium in real time, and information stored in the server connected to the server through wireless communication It is composed of a smart phone that implements the Internet of Things (IOT) that can receive and output in real time and remotely control the environment including the water quality of the aquarium through the control unit.
Therefore, the aquarium capable of convenient and safe management based on the Internet of Things according to the present invention can monitor the water quality status and environmental information of the aquarium in real time, and after confirmation, the water quality and environment improvement device can be immediately improved through the terminal even from a distance. It is not only convenient because it can control, but also has the advantage of being able to safely manage fish and waste in the aquarium, and can kill harmful bacteria in the water quality with high sterilization through the plasma generator, effectively improving the water quality. It has the advantage of maximizing the habitat environment, lengthens the water exchange cycle in the aquarium, and prevents infection by pathogens of fish and waste species in the aquarium, making the use of antibiotics unnecessary and applicable to conventional aquariums. It is a very economical and useful invention that reduces costs because it is easy to manage.

Description

An aquarium that enables convenient and safe management based on the Internet of Things}

The present invention relates to an aquarium that can be managed conveniently and safely based on the Internet, and more particularly, can monitor the water quality status and environmental information of the aquarium in real time, and can immediately improve water quality through a terminal even from a distance after confirmation. It is not only convenient because it is possible to control the water quality and environment improvement device, but also it is possible to safely manage the fish and waste species in the aquarium, and it is possible to kill harmful bacteria in the water quality with high sterilization power through the plasma generator, which can effectively improve the water quality. It is about an aquarium that has the advantage of maximizing the habitat of fish and shellfish.

In general, an aquarium is a facility that collects fish living in water and creates an environment suitable for their ecological conditions, and raises them. can grow.

In addition, since water is always contained in the aquarium for fish to survive, bacteria and the like are easy to propagate, so conventionally, various purification devices or sterilization devices have been developed.

Referring to Korean Patent Registration No. 10-2010-0007835 as an example, as a water purification device for an aquarium, the aquarium discharges water in the aquarium using a discharge pipe and a circulation supply pipe, and supplies purified water such as fresh water and sea water. It has a structure that allows recirculation.

On the discharge pipe side of the aquarium, the water discharged from the aquarium is purified by purifying means formed by sequentially stacking filter layers such as elvan stones and activated carbon balls inside the cylindrical filter tank. In addition, a skimmer means having a bubble discharge pipe installed inside the storage tank is installed to remove bubbles. The filtered and debubbled water is re-entered into the aquarium through the inlet pipe.

However, in the case of an aquarium filtration device forming a filter layer as described above, since filtered impurities accumulate on the filter layer, there is a hassle in that the filter layer must be replaced periodically, and it is difficult to filter impurities in the aquarium generated by numerous live fish and remove bacteria. The filter layer cannot exhibit a sufficient effect.

In addition, the foam can be removed by the skimmer, but in the case of live fish aquariums such as raw fish restaurants using seawater, there is a problem in that a lot of foam is generated due to the flow of seawater, so a sufficient foam removal effect cannot be expected.

In another prior art, Registered Utility Model Registration No. 20-0355965 (published date July 16, 2004), a water storage tank made of transparent acrylic or glass containing artificial fish, an aquarium cover made of suitable material, and mounted on the lower part of the aquarium In a decorative aquarium consisting of a square-shaped base, live fish in the water, an air pump installed inside the base, and a bubble generating tube installed inside the base to generate bubbles in the water connected to the air pump, a photocatalytic air purifying device, A decorative aquarium equipped with air purification and humidification functions, characterized in that it consists of a photocatalytic water purification device and an ultrasonic vibrator, has been disclosed.

In order to solve these disadvantages, Korean Registered Patent Publication No. 10-1108146 (registration date January 13, 2012) discloses a technology related to a 'plasma module purification aquarium', but in the case of the above registered patent, sterilization by ozone can be improved, but there is a problem that the water in the aquarium generates an odor caused by ozone, and a great improvement in the amount of dissolved oxygen cannot be expected, so a technique suitable for the aquarium is required.

Therefore, there is an urgent need for a realistic and highly usable technology that can solve the above problems.

Republic of Korea Patent Registration No. 10-1327787, published on November 11, 2013 Republic of Korea Patent Registration No. 10-2084731, announced on March 04, 2020

Therefore, the first object of the present invention to improve and solve the above problems is to monitor the water quality status and environmental information of the aquarium in real time, and to improve water quality and environment through a terminal even at a distance after confirmation. The second purpose is to provide an aquarium that is not only convenient because it can control, but also allows safe management of fish and waste species in the aquarium. Therefore, it is to provide an aquarium that can maximize the living environment of fish and waste species in the aquarium, and the third purpose is to lengthen the water exchange cycle in the aquarium and prevent infection by pathogens of fish and waste species in the aquarium, so the use of antibiotics is unnecessary. The fourth purpose is to provide an aquarium that can be applied to conventional aquariums and is easy to maintain and thus cost-effective, convenient and safe management based on the Internet of Things.

In order to achieve the above object, the present invention provides a water tank for receiving water transported from an aquarium, purifying it through a water purifier, and receiving the water, and installed in the water tank to generate ozone by plasma discharge of air supplied from the outside. A plasma generator for sterilizing the water in the tank, a motor installed in the aquarium to transfer or receive water to the tank, an oxygen generator for supplying oxygen to the aquarium, and an aquarium including a heater, lighting, and a camera installed in the aquarium In the above, a temperature sensor for detecting the water temperature of the aquarium to generate a water temperature value, a water quality sensor for detecting the amount of dissolved oxygen (DO) and pH concentration in the aquarium and generating each value, and the operation of the lighting A sensor unit composed of an illuminance sensor that detects the intensity of illumination and generates an illuminance value, and a control unit that receives data from the sensor unit and controls the environment of the aquarium through a device installed in the aquarium based on the received data; A server that is connected to the controller by wireless communication to receive, analyze, and store data received from the aquarium in real time, and is connected to the server by wireless communication to receive and output information stored in the server in real time and remotely control the server It is achieved by a technology composed of a smart phone that implements the Internet of Things (IOT) that can control the environment including the water quality of the aquarium through

According to the configuration of the present invention as described above, the water quality status and environmental information of the aquarium can be monitored in real time, and the water quality and environment improvement device can be controlled so that the water quality can be immediately improved through the terminal even from a distance after confirmation, which is convenient. In addition, it has the advantage of being able to safely manage fish and waste in the aquarium.

In addition, since harmful bacteria in the water quality can be killed with high sterilization power through the plasma generator, the water quality can be effectively improved, so there is an advantage in maximizing the living environment of fish and waste species in the aquarium.

In addition, since the water exchange cycle in the aquarium is prolonged and infection by pathogens of fish and waste species in the aquarium is prevented, the use of antibiotics is unnecessary.

Furthermore, it is a very economical and useful invention that can be applied to conventional aquariums and is easy to maintain, thereby reducing costs.

1 is a configuration diagram showing an aquarium capable of convenient and safe management based on the Internet of Things according to an embodiment of the present invention.

In order to achieve the above object, the present invention provides a water tank for receiving water transported from an aquarium, purifying it through a water purifier, and receiving it, and installed in the water tank to generate ozone by plasma discharge from air supplied from the outside. A plasma generator for sterilizing water in the aquarium, a motor installed in the aquarium to transfer or receive water to the aquarium, an oxygen generator for supplying oxygen to the aquarium, and an aquarium including a heater, lighting, and a camera installed in the aquarium. In the aquarium, a temperature sensor for detecting the water temperature in the aquarium to generate a water temperature value, a water quality sensor for detecting the amount of dissolved oxygen (DO) and pH concentration in the aquarium and generating each value, and according to the operation of the lighting A sensor unit composed of an illuminance sensor that detects illuminance and generates an illuminance value, a control unit that receives data from the sensor unit and controls the environment of the aquarium through a device installed in the aquarium based on the received data, A server connected to the controller by wireless communication to receive, analyze, and store data received from the aquarium in real time, and a server connected to the server by wireless communication to receive and output the information stored in the server in real time and remotely control the control unit It consists of a smart phone that implements the Internet of Things (IOT) that can control the environment including the water quality of the aquarium through

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying drawings.

1 is a configuration diagram showing an aquarium capable of convenient and safe management based on the Internet of Things according to an embodiment of the present invention. Referring to FIG. In addition to the configuration of a conventional aquarium including a motor installed in the aquarium to transfer or receive water to the aquarium, an oxygen generator to supply oxygen to the aquarium, a heater installed in the aquarium, lighting, and a camera, the aquarium is transported from the aquarium. An aquarium that includes a water tank for receiving purified water and purifying it through a water purifier, and a plasma generator installed in the water tank for sterilizing the water in the water tank by generating ozone by plasma discharge of air supplied from the outside. In, the following Internet Of Things (IoT)-based modules and configurations are included.

In detail, the aquarium according to the embodiment of the present invention is equipped with a camera for checking the state of live fish and water quality in the aquarium, and is equipped with a light capable of illuminating the aquarium in a dark environment. The lighting is preferably an LED lamp.

In addition, an oxygen generator is installed to supply oxygen to live fish or shellfish in the aquarium, and a heater is installed to increase the temperature when the water quality temperature in the aquarium decreases. It is installed in the aquarium to improve the water quality in the aquarium. A motor that transports water to a separate water tank installed outside or receives water from the water tank is installed.

The motor can rotate forward and backward to check the water quality in the aquarium, move the water from the aquarium to the tank, sterilize it with a plasma generator, purify the sterilized water through a water purifier, and then transfer it to the aquarium. .

A water purifier is separately configured between the aquarium and the water tank to purify the water by filtering out floating matter in the aquarium or contaminants from fish and shellfish from the water transported from the aquarium, and transfers the filtered water to the water tank.

In addition, the water tank is equipped with a plasma generator including a power supply device to generate ozone by plasma discharge of air supplied from the outside of the water tank to the water in the water tank, and to supply the generated ozone to the water within the water tank, After generating ozone water by contact, the water in the tank can be sterilized through the generated ozone water.

Therefore, the aquarium according to the embodiment of the present invention can kill harmful bacteria in the water quality with high sterilization power through the plasma generator, thereby effectively improving the water quality. there is

In addition to the configuration of such a device, the aquarium capable of convenient and safe management based on the Internet of Things according to an embodiment of the present invention includes a sensor unit, a control unit, a server, and a smartphone.

The sensor unit includes a temperature sensor, a water quality sensor, and an illuminance sensor, and the temperature sensor detects the water temperature in the aquarium to generate a water temperature value.

In addition, the water quality sensor is composed of a DO sensor and a pH sensor. The DO sensor detects the amount of dissolved oxygen (DO) in the aquarium to generate a DO value, and the pH sensor detects the pH concentration to generate a pH concentration value. will generate .

The illuminance sensor is a component that detects the illuminance according to the operation of the lighting installed in the aquarium and generates an illuminance value.

The control unit improves the environment of the aquarium by receiving data from the sensor unit, transmitting the data to a server to be described later, and controlling devices installed in the aquarium through a smart phone, which is a personal terminal to be described later.

That is, the control unit is connected to a camera, a light, an oxygen generator, a heater, a motor, and a plasma generator mounted in a water tank, and receives a command from a smartphone, which will be described later, to supply power to the camera, power source, oxygen generator, heater, motor, and plasma generator. You can control to turn it on or off.

The server is connected to the control unit of the aquarium through wireless communication and serves to receive, analyze, and store data received from the aquarium in real time.

A smart phone, a personal terminal, is connected to the server through wireless communication, receives and outputs information stored in the server in real time, and remotely controls the environment including the water quality of the aquarium through a control unit.

The Internet of Things (IoT) refers to a technology that connects to the Internet by embedding sensors and communication functions in various objects, and refers to a technology that connects various objects through wireless communication.

Therefore, as described above, the numerical value of the sensor unit received by the control unit is transmitted to the server through the wireless communication module of the control unit mounted on the aquarium, transmitted to the server, analyzed, and stored information is confirmed through a smartphone that communicates wirelessly through the Internet, and then wireless communication Internet of Things (Internet Of Things (IoT) can be realized.

In particular, a Wi-Fi module, a wireless router and its peripherals are provided to enable wireless communication with the server, and Internet networking equipment for connecting wide area networks (WAN) is provided, and the server It is characterized by further including a dedicated monitor that can check the information stored in the real-time.

According to the configuration of the present invention as described above, the water quality status and environmental information of the aquarium can be monitored in real time, and the water quality and environment improvement device can be controlled so that the water quality can be immediately improved through the terminal even from a distance after confirmation, which is convenient. In addition, there are advantages in that safe management of fish and waste species in the aquarium is possible, the water exchange cycle in the aquarium is lengthened, and infection by pathogens of fish and waste species in the aquarium is prevented, so the use of antibiotics is unnecessary. It can be applied to and maintenance is easy, so it is a very economical and useful invention that reduces costs.

Claims (2)

A water tank receiving water supplied from an aquarium and purifying it through a water purifier, and a plasma generator installed in the water tank to sterilize the water in the tank by generating ozone by plasma discharge from air supplied from the outside, and In the aquarium including a motor installed in the aquarium to transfer or receive water to the aquarium, an oxygen generator to supply oxygen to the aquarium, a heater installed in the aquarium, lighting and a camera,
A temperature sensor that detects the water temperature in the aquarium to generate a water temperature value, a water quality sensor that detects the amount of dissolved oxygen (DO) and pH concentration in the aquarium and generates them as respective values, and the illuminance according to the operation of the lighting A sensor unit composed of an illuminance sensor that detects and generates an illuminance value;
A control unit for receiving data from the sensor unit and controlling the environment of the aquarium through a device installed in the aquarium based on the received data;
A server connected to the control unit of the aquarium through wireless communication to receive, analyze, and store data received from the aquarium in real time;
It is connected to the server by wireless communication to receive and output information stored in the server in real time, and to remotely control the environment including the water quality of the aquarium through the control unit to implement the Internet Of Things (IOT) An aquarium that can be conveniently and safely managed based on the Internet of Things, characterized in that it is composed of a smartphone (Smart Phone) According to claim 1,
A Wi-Fi module, a wireless router and its peripherals are provided to enable wireless communication with the server, and Internet networking equipment for connecting wide area networks (WAN) is provided. An aquarium capable of convenient and safe management based on the Internet of Things, characterized in that it further includes a dedicated monitor that can check information in real time

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