KR101047186B1 - Calcium Hydroxide Feeder for Seawater Aquarium - Google Patents

Abstract

The present invention relates to a calcium hydroxide supply device for a seawater aquarium, a pure water supply for supplying pure water that does not contain foreign matter through a water supply pipe, a solenoid valve installed in the water supply pipe to open and close the water supply of pure water, the pure water is installed in the water supply pipe A fine control valve for finely controlling the amount of water to be supplied, and an inlet pipe connected to the water supply pipe for supplying pure water introduced from the water supply pipe, and an outlet pipe for dissolving granular calcium hydroxide to supply the dissolved calcium hydroxide to the aquarium. Controls the amount of pure water delivered by opening and closing the solenoid valve to maintain the pH index set according to the reactor connected to the pH, the pH index of the sea water stored in the aquarium, and the pH index detected by the pH sensor In the calcium hydroxide supply apparatus for seawater aquarium comprising a pH controller, the water pipe A check valve is installed in the water supply pipe to prevent reverse flow of pure water, and a net for loading a certain amount of granular calcium hydroxide is installed in the reactor. An ion resin filter for filtering water with deionized water is installed in the pure water supply. After dissolving the calcium hydroxide into pure water supplied to the reactor through the water pipe, the pH controller opens and closes the solenoid valve by detecting the pH sensor of seawater so that the pH index and alkalinity are maintained or granular calcium hydroxide By opening and closing the solenoid valve so that pure water is supplied to the loaded reactor, the pH index and alkalinity are maintained to promote the growth of marine organisms in the seawater aquarium, and maintain the proper pH index and alkalinity to stabilize the water quality of the seawater.

Seawater, aquarium, pH, alkalinity, calcium hydroxide, reactor

Description

Calcium Hydroxide for Seawater Aquarium {Apparatus for Supply Calcium Hydroxide for Seawater Aquarium}

The present invention relates to a calcium hydroxide supply device for a seawater aquarium, and more particularly, to a device for supplying calcium hydroxide to maintain a constant pH concentration and alkalinity in the seawater aquarium.

In general, aquariums are made of aquatic creatures that live in the water so that they can be viewed as an ornamental. In particular, there is an aquarium containing seawater for raising various creatures that live in the sea. Aquariums have the purpose of breeding, researching and protecting life, and functioning as a medium to connect nature and humans. Early aquariums were exhibited either in simple or segregated form. However, the current aquarium is exhibited with various tanks and ecological environments to show the vivid sea. As a result, aquariums are growing in size, with many species of sea creatures coming together. Materials used for the interior and exterior environment of the exhibition tank also express the environment artificially as part of environmental protection. New materials and materials make it possible to create realistic ecological environments.

The tanks can be categorized by installation, tubular method and size, and care should be taken when designing the tanks for safety, water tightness, rust prevention, water temperature maintenance, water conservation, lighting, and water treatment methods. Other factors to consider include water pressure, seawater, loads when large fish collide, the size and material of the tank, the waterproofing and finishing materials that take into account the hydraulic pressure, and the selection of materials to prevent fatal toxicity and corrosion to the fish.

Moreover, the alkalinity and pH (potential hydrogen) of seawater must be maintained in the seawater aquarium. That is, in the case of a seawater aquarium, the alkalinity, which is a major indicator of pH and water quality, in the aquarium should be maintained due to the growth and excretion of living organisms and the consumption of calcium, which is a major biological component. To this end, conventionally, calcium hydroxide should be continuously added to seawater.

Calcium hydroxide is a basic substance containing hydroxyl groups. It has two hydroxyl groups per molecule of calcium hydroxide, and it dissolves well in water so that only about 0.82g is dissolved in 1L of water, but the degree of dissociation is high. Therefore, calcium hydroxide, once dissolved in water, is strongly basic to pH 12.5. Furthermore, the calcium hydroxide dissolved in water is called lime hydroxide, and when the lime water is blown, the solution becomes cloudy. That is because calcium hydroxide dissolved in water reacts with carbon dioxide in the breath to form calcium carbonate that is insoluble in water. In addition, when a lit candle is brought around limestone, the carbon dioxide is generated as the candle is burned. Using this reaction, calcium hydroxide is often used for the detection of carbon dioxide. However, if carbon dioxide is continuously passed through calcium hydroxide, calcium hydrogen carbonate, a salt that is dissolved in water, is made again, and the solution becomes transparent again. The process of forming calcium carbonate by this reaction is Ca (OH) ₂ + CO ₂ → CaCO ₃ + H ₂ O, and the process of producing calcium bicarbonate by adding large amount of carbon dioxide and reacting with calcium carbonate is CaCO ₃ + H ₂ O + CO ₂ → Ca (HCO ₃ ) ₂ .

As such, there have been various methods for maintaining calcium concentration and pH by injecting calcium hydroxide into a seawater aquarium.

First, by a mechanical method, a predetermined amount of calcium hydroxide powder is put in a predetermined apparatus and dissolved in a motor and a stirrer. After about 30 minutes or more, a transparent dissolved calcium hydroxide saturated solution can be obtained. This saturated solution of calcium hydroxide is replenished at regular intervals or by the amount of water evaporated in the aquarium. This method is the most effective way to maintain the concentration and pH of calcium, but the device is expensive, requires considerable technical operation, and there is a problem that the organism in the aquarium can be wiped out due to excessive rise in pH due to device malfunction.

In addition, the artificial method is that the user puts a certain amount of calcium hydroxide powder every day or for a certain period of time, and filled with water to dissolve a certain amount into the aquarium. This method is less expensive to maintain than mechanical methods, but it is difficult to maintain due to manpower, and it is difficult to guarantee the survival of living organisms in the aquarium because accurate data on constant calcium concentration and pH cannot be obtained. Was there.

In addition, in order to maintain the calcium concentration and proper pH of seawater, there was a problem in that it is not easy to control the concentration and the hassle of periodically adding the corresponding calcium and pH increasing agent to the aquarium.

The present invention is to solve the above problems, by sensing the pH of the aquarium seawater with a sensor to dissolve the granular calcium hydroxide, so that a certain amount of saturated calcium hydroxide aqueous solution is introduced into the aquarium to maintain a constant calcium concentration and pH of the seawater The purpose is to.

Another object of the present invention is to allow a predetermined amount to be introduced into an aquarium by a timer after dissolving the granular calcium hydroxide so that the calcium concentration and pH of the seawater are kept constant.

The present invention, in order to achieve the above object, a pure water supply for supplying pure water that does not contain foreign matter through the water pipe; A solenoid valve installed on the water pipe to open and close water; A fine control valve installed at the water pipe to finely control the amount of pure water; A check valve installed in the water pipe to prevent backflow of pure water; It is characterized by providing a calcium hydroxide supply device for a seawater aquarium comprising a reactor for dissolving the granular calcium hydroxide with the pure water introduced from the water pipe to supply to the aquarium.

In addition, the present invention is to adjust the fine control valve installed in the water supply pipe for supplying the pure water so that the dissolved calcium hydroxide aqueous solution is supplied after dissolving and supplying pure water to the granular calcium hydroxide loaded in the reactor, and installed in the aquarium to adjust the pH index of sea water It is characterized by providing a calcium hydroxide supply device for the seawater aquarium to control the pH index of the seawater stored in the aquarium by opening and closing the solenoid valve installed in the water supply pipe for supplying pure water by sensing the detected value of the pH sensor to detect.

In addition, the present invention controls the fine control valve installed in the water supply pipe for supplying the pure water so that the dissolved calcium hydroxide aqueous solution is supplied after dissolving and supplying pure water to the granular calcium hydroxide loaded in the reactor, the timer can be set to supply the pure water Another feature is to provide a calcium hydroxide supply device for the seawater aquarium to control the pH index of the seawater stored in the aquarium by opening and closing the solenoid valve installed in the water pipe at a set time interval.

According to the present invention, the aqueous solution in which granular calcium hydroxide is dissolved in the seawater of the seawater aquarium can be continuously added to maintain an appropriate pH index and alkalinity, and it is possible to implement a low-cost calcium hydroxide supply device. It is easy to handle by granular calcium hydroxide and does not need to add other chemicals, thereby reducing the maintenance cost of the aquarium, thereby improving convenience in maintenance of the seawater aquarium.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the calcium hydroxide supply apparatus for a seawater aquarium of the present invention.

1 is a block diagram showing a calcium hydroxide supply apparatus for seawater aquarium according to the present invention.

First, the calcium hydroxide supply device for the seawater aquarium of the present invention is to maintain the water quality stability and seawater organisms by maintaining a stable supply of calcium and pH (hydrogen ion concentration) index required for various creatures inhabiting seawater for ornamental purposes To maintain and promote health.

The pure water supplier 20 is to supply pure water that does not contain foreign matter through the water pipe (28). As the pure water supply 20, a reverse osmosis water purifier is applied. Furthermore, the pure water supply 20 includes an ionized filter (ID filter) or ion exchange resin for deionization. Pure water (also called ultrapure water or deionized water) is water with little impurities other than water (H ₂ O). Pure water is determined based on electrical conductivity. In the case of pure water, the electrical resistance is very large, but if some impurities are contained, the electrical resistance is greatly reduced. Therefore, pure electrical resistance is within 18.3KΩ and pH index is 7. Therefore, pure water is introduced into the aquarium 10 through the water pipe 28 to be used as supplemental water.

The water supply pipe 28 is piped between the pure water supply 20 and the reactor 30. The water supply pipe 28 is provided with the solenoid valve 22 which opens and closes the water supply pipe 28 by an electrical signal. The solenoid valve 22 is to open or close by an electrical signal to block or input the pure water transmitted through the water supply pipe 28.

And fine control valve 24 is to be installed in the water pipe (28) to finely control the amount of pure water to be delivered through the water pipe (28). Furthermore, the fine control valve 24 is adjusted to allow more than several ml of pure water to pass through. The adjustment of the amount of pure water through the fine control valve 24 may vary depending on the size of the aquarium or the amount of seawater storage.

In addition, the check pipe 26 is installed in the water supply pipe 28 to prevent the reverse flow of pure water so that the pure water can be delivered only to the reactor 30 through the water supply pipe 28.

Water pipe 28 is connected to the inlet of the reactor (30). The reactor 30 dissolves the granular calcium hydroxide 36 with pure water introduced from the water pipe 28 and supplies it to the aquarium 10. The reactor 30 may be installed inside or outside the aquarium 10 by forming a sealed space therein.

In FIG. 3, the reactor 30 is provided with an inlet pipe 32 connected to the water supply pipe 28 and supplying pure water into the reactor 30. Inlet pipe 32 is piped to the end of the water pipe (28), and is connected to the bottom of the reactor (30). In the reactor 30, the net 34 which loads granular calcium hydroxide 36 in a fixed amount is comprised. The net 34 is trapped so that the granular calcium hydroxide 36 is not dispersed, and is in the shape of a lattice net in which an aqueous solution dissolved by pure water can be discharged, and is made of metal or synthetic resin. In addition, an outlet pipe 38 for supplying the aqueous solution of calcium hydroxide 36 dissolved in the reactor to the aquarium 10 is connected to the reactor 30 at the reactor 30. And a stopper 37 is configured on the upper portion of the reactor 30 to seal the upper portion of the reactor. Therefore, the inlet pipe 32 and the outlet pipe 38 are fixedly inserted through the through hole formed in the stopper 37 at the upper portion of the reactor 30.

Furthermore, a pH sensor 40 for detecting the pH index of seawater stored in the aquarium 10 is installed in the aquarium 10. The pH sensor 40 is installed to be immersed in seawater to measure the hydrogen ion concentration of seawater and output it as an electrical signal. The electrical signal output from the pH sensor 40 is received by the pH controller 42 to visually display the current pH index of seawater. The pH controller 42 compares the set pH index with the pH index received by the current pH sensor 40 and closes the solenoid valve 22 to block the inflow of pure water when the received pH index is smaller than the set pH index. Therefore, the pH controller 42 opens and closes the solenoid valve 22 to maintain the pH index set according to the pH index detected by the pH sensor 40 to control the amount of water to be fed.

The calcium hydroxide supply device for the seawater aquarium configured as described above adjusts the amount of pure water introduced into the reactor 30 through the water pipe 28, and dissolves the granular calcium hydroxide 36 loaded in the reactor 30 by the pure water introduced therein. To be supplied to the aquarium 10. That is, after supplying and dissolving the granular calcium hydroxide 36 loaded in the reactor 30 to dissolve, the fine control valve 24 installed in the water supply pipe 28 for supplying the pure water is introduced to dissolve the calcium hydroxide solution, and the aquarium After the pH controller 42 detects the detection value of the pH sensor 40 installed at (10) to detect the pH index of seawater, the solenoid valve 22 installed at the water supply pipe 28 for supplying pure water is opened and closed. The pH index of the seawater stored in (10) is to be adjusted automatically. At this time, the pH index of the seawater stored in the aquarium 10 is adjusted to be maintained within approximately 8.0 ~ 8.3.

On the contrary, in the embodiment of FIG. 2, the solenoid valve 22 is opened and closed at the set time by setting the time with the timer 50. The timer 50 can be set based on 24 hours. For example, by dividing the day or night, the solenoid valve 22 is opened from 8 am to 6 pm to inject pure water, and the pure water is added from 6 pm to 8 am by closing the solenoid valve 22. You can set it so that it doesn't work. The opening and closing time of the solenoid valve 22 by the timer 50 may vary depending on the size of the aquarium or the amount of seawater or the amount of seawater creatures. Moreover, it is preferable that the time setting of the timer 50 is made by the experimental value according to the conditions in the corresponding aquarium to which the present invention is applied.

Therefore, the calcium hydroxide supply device for the seawater aquarium according to the configuration of FIG. 2 is a reactor 30 by opening and closing the solenoid valve 22 by setting the timer 50 to the time that the pure water flows into the reactor 30 through the water pipe 28. ) To adjust the pure water flowing into, and the granular calcium hydroxide 36 loaded in the reactor 30 is dissolved by the introduced pure water to be introduced into the aquarium 10. That is, after supplying and dissolving the granular calcium hydroxide 36 loaded in the reactor 30 to dissolve the fine control valve 24 installed in the water supply pipe 28 for supplying the pure water so that the dissolved calcium hydroxide aqueous solution is injected, The timer 50, which can be set, opens and closes the solenoid valve 22 installed in the water supply pipe 28 for supplying pure water at a set time interval so that the pH index of seawater stored in the aquarium 10 is automatically adjusted.

As described above, the supply of the calcium hydroxide supply device for the seawater aquarium of the present invention dissolves the granular calcium hydroxide, not the powder, into pure water supplied to the reactor through a water pipe, and then the pH controller opens and closes the solenoid valve by detecting the pH sensor of the seawater. Ensure index and alkalinity are maintained. In addition, the pH index and alkalinity are maintained by opening and closing the solenoid valve so that pure water is supplied to the reactor loaded with granular calcium hydroxide at a predetermined time interval set in the timer. Therefore, the growth of marine life in the seawater aquarium is promoted and the water quality of the seawater is stabilized by maintaining the proper pH index and alkalinity.

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who has a can easily know.

1 is a block diagram showing a calcium hydroxide supply apparatus for a seawater aquarium according to an embodiment of the present invention.

Figure 2 is a block diagram showing a calcium hydroxide supply apparatus for a seawater aquarium according to the present invention in another embodiment.

3 is a block diagram showing a granular calcium hydroxide reactor of the present invention.

Claims (8)

Pure water supply for supplying pure water not containing foreign matter through the water supply pipe, Solenoid valve installed in the water supply pipe to open and close the water supply, Fine control valve installed in the water supply pipe to finely control the amount of pure water, A reactor connected to the inlet pipe for supplying the pure water introduced from the water pipe and the outlet pipe for dissolving the granular calcium hydroxide to supply the dissolved calcium hydroxide to the aquarium through a plug that seals the upper portion of the seawater stored in the aquarium. Into the calcium hydroxide supply device for seawater aquarium comprising a pH sensor for detecting the pH index, and a pH controller for controlling the amount of pure water by opening and closing the solenoid valve to maintain the pH index set according to the pH index detected by the pH sensor In A check valve is installed in the water supply pipe to prevent the backflow of pure water delivered through the water supply pipe, and a network for loading a predetermined amount of granular calcium hydroxide is installed in the reactor. An ion resin filter for filtering water with deionized water is provided to the pure water supply. Calcium hydroxide feeder for installed seawater aquarium. delete delete delete delete delete delete delete

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