KR101803609B1 - A maintenance and management system of aquarium - Google Patents

Abstract

The present invention is intended to maintain the aquarium clean and economical. Especially, it is possible to manage the aquarium used in a sushi bar concentrated in a specific place according to the fish species in the aquarium or the size and the number of digits. This management is centralized.

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to aquarium maintenance management system,

The present invention is intended to maintain the aquarium clean and economical. Especially, it is possible to manage each aquarium according to the fish species or the size and the number of marbles used in the sushi restaurant which is concentrated in a specific place. This management is centralized. In addition, it is possible to manage the aquarium in different water quality conditions with easy expansion and reduction of the aquarium.

Currently, aquariums are used mainly for the provision of live fish in sushi restaurants, which are located in Seoul and other parts of the province. Especially, the survival of the aquarist (12 ~ 13 ℃) and urek (9 ~ 11 ℃) or sea bream (14 ~ 16 ℃) And the survival temperature of shellfish such as seaweeds and scallops, and molluscs such as octopus and sea cucumber are also different from each other, In the case of aquarium fish, the bubbles are generated due to the secretions of the live fishes and the impurities in the seawater. Therefore, when these bubbles are not removed from time to time, they are visually unsanitary. It is required that a lot of effort is required for economical or management in the operated sushi restaurant.

In addition, these aquariums should be shielded from ultraviolet light by shielding film, and it is necessary to store the appropriate number of digits in the aquarium (about 20 ~ 30㎏ of live fish per ton of water), and the water of such aquarium should be exchanged at least once every 7 days , The inside of the aquarium should be cleaned every time the water of the aquarium is exchanged, and the drain pipes 202 of the plastic used for the aquarium should remove the waste accumulated therein at least once every three months, The filtration tank for filtering the sludge and the like should be cleaned at least once every two weeks, and the filter cloth, filtration sponge, etc. used in the filtration tank should be replaced every two months whenever possible.

These are defined by the management guidelines of a sushi aquarium, but it is impossible to keep them in memory and keep them in order. Especially, it is inconvenient to remove bubbles every 20 ~ 30 minutes to remove bubbles. The difoamer, which is a kind of defoamer, is sprayed by using an atomizer to dissolve it.

In addition, as the aquarium can not be cleaned repeatedly within a certain period of time, the moss is removed using the pesticide ingredient Simazine or Diuron to remove the moss generated on the inner wall of the aquarium, It is clear that the moss will not become.

However, in such a case, the pesticide ingredient used is absorbed into the living body, and thus the health of consumers who eat it is adversely affected.

In addition, water in the aquarium is about 1 ton. When water is exchanged, water in the aquarium is not discharged. However, water vehicles carrying water are discharged to the ground or river in order to reduce the weight. In this case, Of the seawater enters the earth or river and changes the farmland, and the ecosystem can be destroyed.

Therefore, a lot of things are proposed to filter or sterilize water in an aquarium.

However, these things are expensive to install individually in a sushi shop, so that the sushi price of sushi is increased.

In addition, such filtration or sterilization apparatus can not be operated in such a repair process if a repair is delayed due to a lapse of a predetermined time or a frequent failure.

Korean Registered Utility Model No. 20-0204966 (registered on June 19, 2000) Korean Patent Registration No. 10-0898180 (registered date: 10-089189)

Therefore, in the present invention, the water of the aquarium used in the meander or the marine market where the sushi is gathered in a specific place is centrally managed, and thus the management and the operation of the aquarium are available.

In addition, the present invention is not only different in fishes caught by the seasons during the centralized management, but also environments for managing the fish species are different from each other. As a result, So that you can control it.

To this end, in the present invention, at least one main supply pipe (102) is installed in the water storage facility (100) for supplying stored water to each aquarium, for supplying water stored in the maintenance center (200) (103) for supplying water pumped into each of the aquariums to the main supply pipe (102), and an inlet port of the branch pipe (103) is opened An opening / closing valve for filling water inside the aquarium is provided,
A water discharge pipe 202 for discharging water to the outside is installed in each aquarium of the management center 200 and a main discharge pipe 204 for discharging water to the filtration facility 300 is installed in the water discharge pipe 202, A drain device 203 is installed in the drain pipe 202,
One or more connection pipes 302 are connected to the water storage system 100 and the connection pipe 302 is connected to the filtration system 300 for filtering the water discharged from each of the aquariums to secure purified water. A water storage pump 301 for storing the water to be sent to the water storage facility 100,
When the water level of the stored water is within a set range, the water storage pump 100 drives the water storage pump 301 to control the filtered water to be sent to the water storage 100, A main controller 10 for supplying water to each of the aquariums and controlling the water filtered by the filtration facility 300 to be discharged through the external piping 303 is installed,
Each of the aquariums is provided with a sensing means for confirming the state of the water and a driving means for improving the state of the water. A driving means is controlled between the sensing means and the driving means based on the water quality information secured by the sensing means. A sub-controller 20 for controlling the water quality of the aquarium to be within the set range,
A water quality management server (hereinafter, referred to as " water quality management server ") that monitors water quality and management status of the entire aquarium based on information reported from the main controller 10 and the sub- 30)
The water quality management server checks the water quality information reported from each subcontroller 20 and monitors the water quality of each aquarium on the basis of the water quality information and if the water quality of the specific aquarium is out of the set range according to the type of the creature An instruction command for controlling the water quality of the aquarium to be within the set range is generated and transmitted to the sub controller 20 of the aquarium and the main controller 10 of the water storage facility to supply the stored water to the aquarium Is a centralized facility that controls the water quality of the aquarium of the aquarium to be within a set range which is different from each other depending on the species of the creature.

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The present invention enables the management of aquariums in the same condition by centralized management of the aquariums distributed and distributed in the aquaria and the marine market, and it is possible to manage the aquarium according to the size of the aquarium or according to live fishes, shellfishes or mollusks contained in the aquarium The seawater that is made available and used is water treatment or abandoned and is abandoned and is excellent in environmental protection. In the case of a company using each aquarium, hygienic management is possible at low cost.

In addition, when the water quality is centrally managed, the number of new aquariums can be further expanded or reduced in accordance with the season, and the environment of the aquarium can be easily controlled.

1 is an exemplary diagram of a management system according to an embodiment of the present invention.
2 is a schematic diagram of a management system in accordance with an embodiment of the present invention.
3 is a block diagram of a management system in accordance with an embodiment of the present invention.
4 is a block diagram of a main controller 10 for controlling a filtration tank and a reservoir according to an embodiment of the present invention.
5 is a block diagram of a sub-controller 20 that controls each aquarium according to an embodiment of the present invention.
6 is an exemplary view showing a water quality management server 30 managing a main controller 10 and a sub-controller 20 according to an embodiment of the present invention.
7 is a block diagram showing a configuration of a water quality management server 30 according to an embodiment of the present invention.
8 is a flowchart of a management system according to an embodiment of the present invention;
9 is a flowchart of another management system according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view illustrating an aquarium, a filtration facility, and a water storage facility according to an embodiment of the present invention.

As shown in the drawings, the present invention provides a water treatment system comprising a management center 200 having a plurality of aquariums for separating seafood such as octopus and sea squirt according to the type of seafood, And a filtration facility 300 for filtering the water discharged from each aquarium to secure purified water and discharging the purified water to the outside or sending it to the water storage facility 100 for storage .

At this time, the water storage facility 100 stores clean filtered water through the filtration facility 300, and may receive and store water from the outside at times. In some embodiments, It is also possible to control the temperature and salinity of the water required by each aquarium, including the tank, and then supply it to each aquarium.

One or more main supply pipes 102 are installed in the water storage facility 100 to supply clean water to the maintenance center 200 and water is pumped to the maintenance center 200 through the main supply pipe 102 One or more feed pumps 101 for feeding are provided. For reference, the main supply pipe 102 is provided with a branch pipe 103 for supplying water pumped into each aquarium, and the branch pipe 103 is provided with an inlet opening to fill the water pumped into the aquarium. Off valve is provided.

At this time, as shown in FIG. 2, the aquarium 201 is provided with a sub-controller 20 for each aquarium, and the sub-controller checks the temperature, salinity or turbidity of the water to display water quality information Depending on the embodiment, the type of seafood and seafood contained in the aquarium, the replacement time of the water, and the management status of when all the water is discharged and cleaned is displayed.

In addition, the aquarium 201 is controlled so that the state of the water is kept constant by the sub-controller 20, and when the water level falls below the set range or the turbidity increases, Or to discharge the water that it contains.

In addition, a camera may be installed in the aquarium 201 according to an embodiment, and the state or the water quality state of seafood or seafood existing inside the aquarium through the camera is transmitted to the water quality management server 30 located at a remote place The water quality of the entire aquarium can be managed by the water quality management server 30 located at a remote place while being visually monitored.

The aquarium 201 is provided with a drain pipe 202 for discharging dirty water and the drain pipe 202 is connected to the main drain pipe 204 and sent to the filtration facility 300. At this time, each drain pipe 202 is provided with a drain device 203 for draining the soiled water by the main drain pipe 204.

At this time, the filtration facility 300 filters the collected water and reuses it or discharges it to the outside. For reference, the filtration facility 300 primarily filters the secretions or impurities that are blown by live fishes using a sand layer, passes through an activated carbon layer for adsorbing various bacteria or organic matter in a primary filtration state in the sand layer, do. In this case, the activated carbon is injection molded in the form of a certain block and treated in a single housing, so that a large amount of seawater can be treated and the lifetime of the activated carbon can be maintained for a long time. The filtration facility 300 may include a plurality of filtration tanks. In some filtration tanks, a sterilizing device may be installed to remove bacteria such as Vibrio bacteria or Salmonella bacteria that may remain in the filtered water . In the present invention, it is possible to remove microorganisms remaining in the seawater by installing an ozone generator and an ultraviolet device. In the present invention, however, OH radicals (Radical) having strong oxidizing power are generated by irradiating ultraviolet rays on the surface of the photocatalyst, It is possible to secure sterilization processing ability of 99% or more.

The filtration facility 300 may include at least one connection pipe 302 connected to the water storage facility 100 and for filtering the water filtered through the connection pipe 302 into the water storage facility 100, A water pump 301 is installed and an external pipe 303 for discharging water to the outside or an external pipe 303 for supplying water which is insufficient from outside is provided.

3 is a block diagram schematically illustrating the configuration of a system for managing the entire aquarium, the filtration facility 300, and the water storage system 100 according to an embodiment of the present invention.

The management system according to the embodiment of the present invention includes a main controller 10 for controlling the water storage facility 100 and the filtration facility 300, and each aquarium is installed separately, A water quality management server 30 for monitoring the water quality and management status of the entire aquarium on the basis of information reported and connected to the main controller 10 and the subcontroller 20, .

For reference, the sub-controller 20 checks the water quality of the assigned aquarium and reports it to the water quality management server 30, and when the water quality is bad, the sub-controller 20 operates the aquarium drive means so that it falls within the set range Control. For example, if the sub-controller 20 confirms the water quality of the aquarium through the sensing means and confirms that the water quality is poor, the sub-controller 20 drives the drain device 203 to discharge dirty water to the outside, The water quality of the aquarium is set within the set range by receiving clean water from the water tank 100.

4 is a block diagram briefly showing configurations of a sub-controller 20 according to an embodiment of the present invention,

Referring to this, a sub-controller 20 is provided for each aquarium, and is connected to the sensing means 220 installed around the sub-controller 20. At this time, the sensing means 220 is installed inside the aquarium and is connected to a temperature sensor 223 for sensing the water temperature, including a water level sensor 221 for sensing the water level. The sensing means 220 is installed inside the aquarium and includes a salinity sensor 224 for sensing the salinity of the water, a turbidity sensor 224 for sensing how much water is contaminated by the secretions of the fish and shellfish living in the aquarium, (222), and is connected to the sub-controller (20).

The sub-controller 20 is connected to the driving means 210 for constantly controlling the quality of the aquarium based on the information obtained through the sensing means. At this time, the driving means 210 may include an opening / closing valve 211 for opening or closing the inlet or outlet, and a drain 203 for discharging the sewage outside the outlet. In addition, the driving means 210 includes a heater / cooler 212 for maintaining the temperature of the water according to the embodiment, an oxygen supplier 213 and an ultraviolet sterilizer 214 for removing microorganisms remaining on the wall surface when cleaning the aquarium, And so on. The sub-controller 20 may include a camera module 24 according to an embodiment of the present invention.

For reference, the sub-controller 20 may report the water quality information secured through the sensing means to the management server 30, receive the corresponding instruction command, operate the driving means to manage the water to improve water quality , The water quality of the aquarium may be set within the set range by the sub-controller 20 alone according to the embodiment.

The subcontroller 20 has a button portion 27 and a display portion 22 on the outside and a transfer portion 29, a water quality control portion 26, a water texture portion 28, A signal processing unit 23 and an instruction unit 21. The driving unit 210 and the sensing unit 220 are connected to the interface on one side and the other side.

For reference, the display unit 22 visually displays the aquarium state information including the water quality information including the temperature of the water, the salinity, the turbidity, and the time when the aquarium was cleaned or the water was replaced.

In addition, the water texture part 28 acquires analog information through each level sensor, a turbidity sensor, a temperature sensor or a saltiness sensor connected to the interface, and acquires analog information through a digital information .

Also, the water quality control unit 26 checks the water level, temperature, salinity, and turbidity of the aquarium based on the digital information reported through the water texture unit. At this time, control is made to display the aquarium state information together with the water quality information through the display unit. When the determined temperature, salinity, water level, and turbidity are out of the set range, the water quality control unit instructs the transmission unit to transmit the confirmed information to the designated water quality management server 30, and receives the corresponding instruction command do. At this time, the water quality control unit may load the set range value according to the embodiment and report to the water quality management server 30 only when the water quality of the aquarium is out of the set range, and receive the instruction command.

The transmission unit 29 is directly connected to the water quality management server 30 through a wired line so as to transmit or receive the information secured by the sub-controller. However, the transmission unit 29 may be an IEEE (Institute of Electrical and Electronics Engineers) IEEE 802.11b / (WiFi Module), a WiMAX Module (WiMAX Module), or a low-power Bluetooth module based on the IEEE 802.16e standard and is activated by the water quality controller in the sleep state, You can also send and receive. When such a transmission unit receives an instruction command from the water quality management server 30, it applies it to the water quality control unit.

For reference, the instruction unit 21 drives a valve, a heater, an oxygen generator, an ultraviolet sterilizer, and the like, which are drive means, by the water quality control unit based on the instruction command to improve the quality of the aquarium.

At this time, the instruction unit 21 may discharge the water of the aquarium entirely or level by level and may improve water quality of the aquarium by receiving the water of the water storage facility 100. However, when the oxygen supply unit, salt, The water quality can be improved by adjusting the water quality by being driven and by being located within the set range.

In addition, the signal processing unit 23 controls the camera module to secure image information photographed in real time according to the H.323 protocol, and transmits the acquired image information to the channel formed through the transmission unit.

The button unit 27 includes an instruction button for driving the on / off valve or the drain to discharge or supply water, a button for raising or lowering the water temperature by driving the heater / cooler, A button for driving the sterilizer of the aquarium, and the like.

In addition, the sub-controller 20 may include the water quality information storage unit 25 according to the embodiment. The water quality information storage unit 25 may store a set range value including the temperature, salinity, or turbidity of the aquarium, and the range value stored when the water quality control unit is called.

Therefore, in the present invention, even if any type of fish and shellfish is accommodated, only the sub-controller is installed in each aquarium, the water quality state is reported to the management server 30, and a new aquarium can be easily expanded or reversed .

In addition, each of the aquariums can be managed with different water quality according to the fish species while the range values set are different from each other.

5 is a block diagram briefly showing a configuration of the main controller 10 according to an embodiment of the present invention.

The main controller 10 controls the water storage facility 100 and the filtration facility 300 so as to supply necessary water to each aquarium and treat the soiled water.

At this time, the main controller 10 is connected to the filtration device 310 that filters the water discharged from each aquarium, and removes Vibrio bacteria or Salmonella remaining in the water caught through the filtration device 310 Which is connected to the sterilizing device. In addition, the main controller 10 is connected to the open / close valve 304 and the flow meter 312 provided in the pair of external pipes 303, so that how much water is supplied from the outside and, conversely, It is possible to confirm how much the filter 300 has discarded the filtered water.

The main controller 10 is connected to a water storage pump 301 installed in a connection pipe 302 between the water storage facility 100 and the filtration facility 300, A water level sensor 105 for checking the amount of water and a temperature sensor 106 for checking the stored water temperature so as to drive the heater or the cooler 108 to set the temperature of the stored water in a predetermined range If the amount of stored water is small, water is supplied from the filtered water or the outside through the filtration facility 300 and stored. The main controller 10 includes a saltiness sensor 107 for detecting the salinity of the stored water. When the salinity of the stored water is less than or equal to a reference value, water is supplied from the outside to increase or decrease the salinity. Manage it to be within range.

The main controller 10 includes a flow controller 14, a flow information storage unit 13, a display unit 12, a driving unit 11, a flow rate information transfer unit 16, a flow rate sensing unit 15).

For reference, the flow rate sensing unit 15 acquires analog information through the sensors and converts the analog information into digital information of a form recognizable by the flow rate controller. A level sensor is connected to the interface to sense how much water is in the reservoir tank and reports this to the flow controller. In addition, when the temperature sensor is connected to the interface, the temperature of the water stored in the water storage tank is sensed and reported to the flow controller. When the salinity sensor is connected to the interface, the salinity of the seawater stored in the storage tank is checked and reported to the flow controller. Also, the flow rate sensing unit checks the amount of seawater or fresh water flowing through the external pipe 303 when the interface is connected to the flow meter, and reports the flow rate to the flow rate control unit.

The flow rate information transmission unit 16 transmits the flow rate information secured through the flow rate sensing unit to the designated water quality management server 30 in response to an instruction from the flow rate control unit and receives an instruction command from the water quality management server 30, report. The flow information transmitting unit may be a WiFi module or a WiMAX module based on IEEE (Institute of Electrical and Electronics Engineers) 802.11b / g / n or IEEE 802.16e standard, or a low- And is in a sleep state at a certain time, and is automatically activated while being activated by the flow rate control unit to transmit flow rate information.

In addition, the flow controller 14 controls the driving unit based on the fact that the flow rate is sensed through the flow rate sensing unit to manage the stored water, and supplies water required for the aquarium.

If the amount of water stored in the flow rate controller 14 is insufficient, the flow controller 14 reports the water quantity to the water quality management server 30, and the water is supplied to the filtration facility 300 through the filtration facility 300 When the flow rate controller determines that the temperature of the stored water is out of the set range through the flow rate sensing unit according to the embodiment, the flow rate controller reports it to the water quality management server 30, The water quality of the stored water is controlled to be within the set range by receiving an instruction to lower the temperature or raise the temperature. When it is confirmed that the salinity of the flow rate stored in the reservoir tank is out of the set range through the flow rate sensing unit, the flow rate controller reports the salinity to the water quality management server 30, And the salinity of the stored water is controlled to be within the set range

The flow rate controller 14 checks the value of the flow meter installed in the external pipe 303 and counts the amount of water introduced from the outside or the amount of water discharged to the outside for a set period of time, report.

In addition, the flow rate information storage unit 13 stores flow rate information, and may store instruction commands to be reported depending on the embodiment. That is, the flow control unit loads the instruction command corresponding to the flow rate information into the flow rate information storage unit and builds the filtration facility 300 and the water storage facility 100 so as to manage the filtration facility 300 and the water storage facility 100 independently of the instruction of the water quality management server 30 It is possible.

The driving unit 11 drives the device connected to the interface in response to an instruction from the flow controller. More specifically, when the filtering device is connected to the interface, the driving device 11 drives the filtering device, . In addition, if the sterilizing device 311 is connected to the interface, the driving unit causes sterilization of the microorganisms remaining in the water. In addition, when the driving unit 11 is connected to the valve through the interface, water may be supplied from outside to fill the reservoir tank with fresh water or seawater, and the salinity may be lowered or supplemented. In addition, the driving unit 11 may discharge the filtered water to the outside when the water is overcharged in the water storage 100 according to the embodiment. In addition, if the driving unit is connected to the heater or the cooler through the interface, the temperature of the water stored in the water storage tank may be increased or decreased. The driving unit is connected to the supply pump 101 through an interface and controls the supply pump 101 to pump the water stored in the storage tank to the main supply pipe 102 to fill each aquarium will be.

6 is a block diagram briefly showing a configuration of the water quality management server 30. Referring to FIG. 6,

The water quality management server 30 of the present invention reports the state of each aquarium through the subcontroller 20 and monitors the water status of each aquarium. At this time, the water quality management server 30 controls the main controller 10 to supply the water stored in the water storage facility 100 to the aquarium when the water condition is bad. In addition, the water quality management server 30 controls the state of the water of the aquarium to be within the set range according to the embodiment.

The water quality management server 30 includes flow rate information and water quality information DB 35 and 36, a water quality information acquisition module 31, a flow rate information acquisition module 32, an aquarium management module 33, A flow rate control module 37, and a water quality control module 38, as shown in FIG. Here, the module means a functional and structural combination of hardware and software for carrying out the technical idea of the present invention.

For reference, the flow information and water quality information DBs 36 and 36 convert the water quality information and flow rate information sent from the sub-controller 20 and the main controller 10 into a database, in particular, set the range values of each aquarium into a database have. In addition, the result values for deriving such that the water quality information is within the set range value in accordance with the degree of deviation from the set range value are stored in the database.

For reference, Tables 1 and 2 below show the types of creatures and set range values that are active in each aquarium.

Classification Live fish Weather No subject Temperature (proper temperature) subject Temperature (proper temperature) 01 Flatfish 09-18 (12-13 ° C) Sora Gong 06-14 (08-11 ℃) 02 Rockfish 08-12 (09-11 ℃) scallop 06-14 (07-10 ℃) 03 bass 12-18 (14-15 < 0 > C) Repair 06-14 (08-10 ℃) 04 Sea bream 13-18 (14-16 ° C) Rice 06-14 (08-10 ℃) 05 Zuldorm 12-18 (14-15 < 0 > C) Horsehair 06-14 (08-10 ℃) 06 Seabream 12-18 (14-15 < 0 > C) silk 06-14 (08-10 ℃) 07 Nasty 07-16 (10-13 < 0 > C) Tiny shellfish 06-14 (08-10 ℃) 08 Strength Bridge 09-16 (12-13 ° C) Clam 06-16 (08-10 ℃) 09 A fagot 12-18 (14-15 < 0 > C) Back 04-10 (04-05 ℃) 10 Sashimi 09-16 (12-13 ° C) White moth 06-14 (08-10 ℃) 11 Ratfish 09-18 (10-13 ° C) Silk shell 06-14 (08-10 ℃) 12 Point siege 09-18 (12-13 ° C) Frown 06-14 (08-10 ℃) 13 Participant mi 09-16 (10-13 < 0 > C) Fleshbrush 06-14 (08-10 ℃) 14 Grease 10-20 (12-14 ° C) Match 06-14 (08-10 ℃) 15 Dodoma 12-18 (14-15 < 0 > C) Sora Gong 06-14 (08-10 ℃) 16 Bomdo 12-18 (14-15 < 0 > C) Unphysi 06-14 (08-10 ℃) 17 The 12-18 (14-15 < 0 > C) Vietnam 06-14 (08-10 ℃) 18 Chalcops 09-16 (12-13 ° C) Key shell 06-18 (14 ° C) 19 Ishigari 09-16 (12-13 ° C) Blush dog 06-14 (08-10 ℃) 20 Dry 09-16 (10-12 ° C) Black Mossy 06-14 (08-10 ℃) 21 Word mussel 06-14 (08-10 ℃) 22 Jae Jae Lee 09-16 (12-13 ° C) qn Rosa 06-14 (10-13 ° C) 23 mullet 06-13 (08-10 ℃) Stone shell 06-14 (08-10 ℃) 24 East 06-13 (08-12 ℃) Coiler 06-14 (08-10 ℃) 25 Third century 09-16 (12-13 ° C) Fierce 06-14 (08-10 ℃) 26 Geesin 09-16 (12-13 ° C) Great Shellfish 06-14 (08-10 ℃) 27 Reference 06-14 (08-10 ℃) 28 Rice cake 06-14 (08-10 ℃)

Classification Abalone Fish No subject Temperature (proper temperature) subject Temperature (proper temperature) 01 abalone 10-20 (12-14 ° C) Pacific 05-14 (10 ° C) 02 A pentacle 10-20 (12-14 ° C) Freshwater eel 05-25 (12-18 ° C) conger 05-20 (09-12 ℃) Conger eel 05-20 (09-12 ℃) Classification Mollusc No subject Temperature (proper temperature) Shrimp 01 Octopus 04-16 (10-12 < 0 > C) subject Temperature (proper temperature) 02 Phiman 04-14 (09-10 ℃) Flower 02-12 (04-06 ℃) 03 Stone octopus 06-18 (10-13 ° C) Chickpeas 02-12 (04-06 ℃) 04 Dogfight 08-20 (13-15 ° C) Great deal 10-25 (18-20 < 0 > C) 05 Sea urchin 06-16 (11 [deg.] C) 06 Red sea ginseng 04-18 (10-12 ° C) 07 Sea cucumber 04-20 (10-12 < 0 > C) moorage 08 sea squirt 02-20 (10-13 < 0 > C) subject Temperature (proper temperature) 09 Silk silk 06-26 (10-13 ° C) King Crab 02-10 (04-07 ℃) 10 Stony 04-18 (10-13 ° C) Lobsters 02-10 (04-07 ℃) 11 Juku 05-14 (09-10 ℃) snow crab 02-10 (04-07 ℃) 12 Mountain squid 06-18 (09-12 ℃) Hairy 02-10 (04-07 ℃) 13 Cuttlefish 06-18 (09-12 ℃) crab 02-10 (04-10 ℃)

For reference, the water quality information acquisition module 31 acquires water quality information by analyzing the information sent from the sub-controllers 20, and reports the acquired water quality information to the aquarium management module.

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The flow information acquiring module 32 analyzes the information sent from the main controller 10 to acquire the flow rate information, and reports the acquired flow rate information to the aquarium management module.

The aquarium management module 33 loads the result value from the flow information and the water quality information DB to generate an instruction command when the water quality of the aquarium is out of the set range based on the obtained flow rate information and the water quality information.

At this time, the aquarium management module 33 controls not only the water quality information but also whether the valve is opened or closed, the amount of water introduced into the aquarium, the date of cleaning, and the like. In addition, the aquarium management module not only counts the operation of the water storage facility 100 and the filtration facility 300, the amount of water supplied from the outside, and the amount of water stored in the water storage facility 100, The amount of water supplied to each aquarium and the amount of discharged water are counted or the flow rate information counted from the main controller 10 is received and controlled to be displayed through the display device.

7 shows a screen being monitored according to an embodiment of the present invention. At this time, the display device displays a status window for displaying information such as temperature, salinity, turbidity, and species of each aquarium through a display module, Display each aquarium. In addition, the display module displays the state of the fish and shellfish and seafood living in the aquarium through the camera connected to the sub-controller 20, and the state of the aquarium through the image window.

At this time, the displayed image window can be displayed as a status window by receiving real-time information, but the administrator can check the status window and receive and display image information only when there is a request.

The water quality control module 38 transmits the instruction command generated by the aquarium management module to the corresponding aquarium so that the sub controller 20 instructs the water in the aquarium to be within the set range, Manage water quality by directing ultraviolet rays to clean, or by instructing water to be supplied or discharged according to water level.

Also, the flow control module 37 may transmit the instruction command generated by the aquarium management module to the main controller 10 to instruct the filtration device or the sterilizing device to operate, or to fill the water storage tank with the filtered water, Instructs the water to be discharged to the outside, and in some cases, the water is supplied from the outside to instruct the water tank to increase or decrease the salinity of the water storage tank.

Accordingly, the present invention can be applied to a water treatment facility 100 and a filtration facility 300 connected to an aquarium of the management center 200 by assembling a management center 200 by collecting aquarium of a sushi bar concentrated in a specific place in one place, And the water quality of each aquarium is concentrated, so that it is possible to economically manage the quality of the aquarium while keeping it clean. In addition, if only the subcontroller 20 is installed in the aquarium, the aquarium can be further expanded and the aquariums can be managed in different water quality conditions.

FIG. 8 shows a process of managing the water quality while the sub-controller 20 installed in each aquarium according to the embodiment of the present invention is operated alone.

Referring to this, the sub-controller 20 installed in each aquarium periodically secures the water quality information of the aquarium through the sensing means.

At this time, when the sub-controller 20 acquires the water quality information, the range value stored in the water quality information storage unit is loaded to check whether the water quality of the aquarium is inside or outside the set range value.

At this time, when the sub-controller 20 confirms that the water quality of the aquarium is out of the set range, the sub-controller 20 recognizes that the water quality of the aquarium is poor, and the sub- Load the result value and generate the instruction command.

The sub-controller 20 drives the driving means on the basis of the instruction command to improve the water quality of the aquarium to be within the set range value.

For reference, when the sub-controller 20 drives the driving means to improve the water quality of the aquarium,

The sub controller 20 drives the drain device 203 to discharge part or all of the water to the filtration facility 300 and confirm the level of the aquarium through the sensing means.

At this time, when the water level of the aquarium drops below the set level, the sub controller 20 receives the water stored in the water storage facility 100 and fills the aquarium so that the water quality of the aquarium is set within the set range And the process of the process.

9 shows a process of managing water quality and flow rate while controlling the sub controller 20 and the main controller 10 through the water quality management server 30 according to an embodiment of the present invention.

The subcontroller 20 installed in each aquarium periodically monitors the water quality of the aquarium,

Checking whether the water quality of the aquarium is out of a predetermined range through the sensing means,

The subcontroller 20 recognizes that the quality of the aquarium is poor when the quality of the aquarium is out of the set range and drives the driving means to drain the water to the filtration facility 300 through the drain,

The sub-controller 20 checks the water level of the aquarium through the sensing water end and receives water stored in the water storage system 100.

When the sub-controller 20 recognizes that the quality of the aquarium is poor through the sensing means, the sub-controller 20 transmits the water quality information of the aquarium to the water quality management server 30,

The sub-controller 20 further includes receiving an instruction command from the water quality management server 30,

The sub-controller 20 includes a step of operating the driving means on the basis of the instruction command transmitted by the water quality management server 30.

At this time, the driving means discharges water to the filtration facility 300 and at the same time, the salinity, turbidity or temperature of the aquarium is kept within the set range by the water supplied from the water storage facility 100.

For reference, the filtration facility 300 and the water storage facility 100 receive the water drained by the aquarium through the main controller 10 and purify through the filtration apparatus,

The main controller 10 drives the sterilizing device to remove microorganisms remaining in purified water.

At this time, the main controller 10 confirms the water level of the water storage facility 100, and when the water level of the water storage facility 100 is in the set range or more, the valves of one external pipe 303 of the pair of external pipes 303 are opened / The clean water discharged through the filtration facility 300 is discharged to the outside,

Closing the valves of the other outer pipe 303 of the pair of outer pipes 303 to supply clean water from the outside when the water level of the water storage facility 100 is lower than a predetermined range.

The main controller 10 drives the water storage pump 301 to control the water in the filtration facility 300 to be pumped into the water storage tank.

Then, the main controller 10 checks the stored water, monitors the water to be within the set range, and supplies the water to each aquarium.

At this time, the main controller 10 counts and displays the flow rate information of the amount of the water introduced into the reservoir tank and the amount of the water discharged to the outside or the amount of the water introduced from the outside for a predetermined period of time and displays the displayed flow rate information at the water quality management server 30 ).

The main controller 10 receives a command from the water quality management server 30 and controls the water inside the water tank to be within a predetermined range or instructs water to be stored in the aquarium.

At this time, the water quality management server 30 monitors the water quality of the entire aquarium through the water quality information sent periodically by the sub-controller 20 installed in each aquarium.

At this time, the water quality management server 30 can monitor based on the water quality information periodically sent by the sub-controller 20, but the water quality management server 30 requests the specific sub-controller 20 for the water quality information based on the identification information, Acceptance can also be used to monitor the status of the aquarium individually.

When the water quality of the aquarium is out of the set range based on the received water quality information, the water quality management server 30 generates an instruction command to be within the set range. At this time, Or to the main controller 10 to take the designated operation.

That is, when the sub controller 20 drains the water, the main controller 10 collects and filters the abandoned water, and when the water level of the aquarium drops below a certain level, When the water stored in the storage tank falls below a predetermined range, the water is supplied from the filtration facility 300 to be filled in the reservoir tank, I will give you.

The subcontroller 20 is installed in each aquarium and the main controller 10 is installed in the water storage facility 100 and the filtration facility 300 so that the subcontroller 20 and the main The controller 10 is managed so that the water quality of the aquarium is within the set range so that the aquarium can be economically managed while keeping each aquarium clean. Furthermore, since a new aquarium is installed inside the management center 200 and the subcontroller 20 is installed in the aquarium, the quality of the aquarium can be monitored, so that the aquarium can be easily expanded or reduced .

10: main controller 11:
12: display unit 13: flow rate information storage unit
14: Flow control unit 15: Flow rate sensing unit
16: flow rate information transmission unit 17: flow rate control button unit
20: sub-controller 21:
22: display unit 23: signal processor
24: camera module 25: water quality information storage unit
26: water quality control unit 27:
28: water texture part 29:
30: management server 31: water quality information acquisition module
32: flow rate information acquisition module 33: aquarium management module
34: Display module 35: Water quality information DB
36: Flow rate information DB 37: Flow rate control module
38: water quality control module 100: water storage facility
301: Water pump 102: Main supply pipe
103: branch tube 104: opening / closing valve
200: Management Center 201: Aquarium
202: discharge pipe 203: drain device
204: main discharge pipe 300: filtration facility
301: Water pump 302: Connection pipe
303: External piping 304: Valve

Claims (21)

One or more main supply pipes 102 are installed in the water storage facility 100 for supplying stored water to each aquarium and water is supplied to the maintenance center 200. The main supply pipe 102 is provided with one or more A supply pipe 101 for supplying water pumped into each of the aquariums to the main supply pipe 102 and a water supply pipe 103 for opening water in the aquarium by opening the inlet of the branch pipe 103, An opening / closing valve for filling is provided,
A water discharge pipe 202 for discharging water to the outside is installed in each aquarium of the management center 200 and a main discharge pipe 204 for discharging water to the filtration facility 300 is installed in the water discharge pipe 202, A drain device 203 is installed in the drain pipe 202,
One or more connection pipes 302 are connected to the water storage system 100 and the connection pipe 302 is connected to the filtration system 300 for filtering the water discharged from each of the aquariums to secure purified water. A water storage pump 301 for storing the water to be sent to the water storage facility 100,
When the water level of the stored water is within a set range, the water storage pump 100 drives the water storage pump 301 to control the filtered water to be sent to the water storage 100, A main controller 10 for supplying water to each of the aquariums and controlling the water filtered by the filtration facility 300 to be discharged through the external piping 303 is installed,
Each of the aquariums is provided with a sensing means for confirming the state of the water and a driving means for improving the state of the water. A driving means is controlled between the sensing means and the driving means based on the water quality information secured by the sensing means. A sub-controller 20 for controlling the water quality of the aquarium to be within the set range,
A water quality management server (hereinafter, referred to as " water quality management server ") that monitors water quality and management status of the entire aquarium based on information reported from the main controller 10 and the sub- 30)
The water quality management server checks the water quality information reported from each subcontroller 20 and monitors the water quality of each aquarium on the basis of the water quality information and when the water quality of the specific aquarium is out of the set range according to the type of creature An instruction command for controlling the water quality of the aquarium to be within the set range is generated and transmitted to the sub controller 20 of the aquarium and the main controller 10 of the water storage facility to supply the stored water to the aquarium Is a centralized facility that controls the quality of the aquarium water of the aquarium to be within a different set range depending on the type of creature. The method according to claim 1,
The water quality management server 30 converts the water quality information and the flow rate information sent from the sub controller 20 and the main controller 10 into a database and stores the flow rate information and the water quality information DB A water quality information acquiring module for acquiring water quality information by analyzing the information sent from each of the subcontrollers 20 and reporting the acquired water quality information to the aquarium management module at this time, A flow information acquiring module for acquiring information and reporting the acquired flow information to the aquarium module, and a display module for controlling the display module based on the obtained flow information and the water quality information to display the water quality of each aquarium, An aquarium management module for generating a corresponding instruction command when the aquarium is out of the set range value, A display module for displaying a state of a corresponding aquarium in which a camera module is photographed through an image window, a display module for displaying information of temperature, salinity, turbidity and species of each aquarium through a management module, A water quality control module for transmitting an instruction to the sub controller 20 of the aquarium to indicate that the water quality of the aquarium is within a set range and an instruction command generated by the aquarium management module to the main controller 10, A flow control module for instructing to drive the sterilizing device or instructing to fill filtered water into the reservoir tank, or to instruct the filtered water to be thrown out, or to indicate that the quality of the stored water is within a set range Features aquarium cleanliness maintenance system. 3. The method of claim 2,
The sub controller 20 includes a display unit for visually displaying a water quality state and a management state of the aquarium, a button unit for instructing driving of the set range value or the opening / closing valve or the drain device 203, The water quality information and the aquarium are checked periodically by controlling the water texture section, and the water quality information and the aquarium are displayed through the display unit, and the state of the aquarium is reported by controlling the transmitting unit. A transfer unit for transferring the water quality information to the designated water quality management server 30 in accordance with the instruction of the water quality control unit and receiving a corresponding instruction command; driving the driving means on the basis of the received instruction command; And an instruction unit for causing the state to be within the set range,
The main controller 10 includes a display unit for visually expressing the flow rate state stored in the reservoir tank, a button unit for changing the set range value and driving the reservoir pump 301 or the sterilizing device or the filtration device, A flow rate sensing unit for acquiring flow rate information of the stored water, the inflowed water, the outflowed water, or the filtered water through the sensor and the flow meter installed in the water storage facility 100 or the filtration facility 300; A flow rate information transfer unit for transferring the flow rate information to the designated water quality management server 30 and receiving a corresponding instruction command and a control unit for controlling the driving unit based on the flow rate information obtained through the flow rate sensing unit On the other hand, a flow controller for receiving an instruction command from the water quality management server 30 and supplying water to a specific aquarium, Receiving a storage unit and an instruction of the flow controller filtering device or sterilization device or the water storage valve or pump 301 or feed pumps 101 aquarium clean maintenance system, characterized in that made in a driver for driving. The method of claim 3,
The sub-controller (20) includes a camera module for capturing a water quality state of an aquarium The method according to claim 1,
The sensing means of the sub-controller 20 includes a water level sensor for sensing the water level of the water, a saltiness sensor for sensing the salinity of the water, a turbidity sensor for measuring the water level of pollution, And a temperature sensor for measuring the temperature of the water. The method according to claim 1,
The driving means of the subcontroller 20 includes an opening / closing valve for opening or closing an inlet or an outlet, a drain 203 for discharging water from the aquarium outside the outlet, a heater for raising or lowering the temperature of the water, An aquarium cleaner maintenance management system comprising a cooler for lowering the temperature of water, an oxygen feeder for filtering and filling deficient oxygen, and an ultraviolet sterilizer for removing microorganisms remaining on the wall of the aquarium The subcontroller 20 installed in each aquarium periodically secures the water quality information of the aquarium through the sensing means; When the sub-controller 20 acquires the water quality information, transmitting the water quality information to the designated water quality management server 30 through the transmission unit; The sub-controller 20 receiving an instruction command from the water quality management server 30; The sub-controller 20 operates the driving means in accordance with the instruction command to control the water quality of the aquarium to be within the set range,
Determining whether the water quality of the aquarium is out of the set range; and if the water quality of the aquarium is out of the set range, Determining that the quality of the water quality of the sub-controller 20 is poor; and reporting the water quality information to the water quality management server and requesting a corresponding instruction command,
The main controller 10 instructs the water pump 301 to pump the water retained by the filtration facility 300 to the water storage facility 100 and store the water when the water level of the water storage facility 100 is within a set range Or if the main controller 10 confirms the water level of the water storage facility 100 and the water level of the water storage facility 100 is equal to or greater than a predetermined range, discharging the water secured by the filtration facility 300 through the external pipe 303, The main controller 10 counts the amount of water flowing into the water storage system 100, the amount of water discharged to the outside, and the amount of water introduced from the outside into the water storage system 100 for a predetermined period of time, The main controller 10 receives an instruction command from the water quality management server 30 and the main controller 10 controls the water quality of the water stored in the water storage facility 100 Within the set range of water status , And the main controller 10 further includes a step of driving the supply pump 101 to instruct each of the aquariums to supply the stored water through the main supply pipe 102 and the branch pipe 103 And a method of cleaning and maintaining an aquarium 8. The method of claim 7,
The water quality management server 30 periodically receives the water quality information from the sub-controllers 20 installed in each aquarium,
The water quality management server 30 periodically receives flow rate information from the main controller 10,
The water quality management server 30 analyzes the acquired flow rate information and the water quality information, displays and monitors the water quality status for each aquarium or sub-controller 20,
The water quality management server 30 generates an instruction command,
Wherein the water quality management server (30) further comprises the step of sending an instruction command to the sub controller (20) and the main controller (10) to take a designated operation delete delete delete delete delete delete delete delete delete delete delete delete delete

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