JP2000116279A - Water purifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water purifier capable of removing phosphoric acid in water in the water tank. SOLUTION: This water purifier D1 is such one as to be equipped with a water tank 1 for raising fishes-and-shellfishes or the like, a water holding tank 2, an automatic feeding device 3, a filtration tank 10, a set of electrodes 4 in the water holding tank 2, a direct current source for supplying electric current to the electrodes 4, an electrode holder 5, a pumping pipe 6, a pump 7, and a return pipe 12; wherein the water holding tank 2 is intended to remove phosphoric acid in the water in the water tank 1 and set up between the pumping pipe 6 and the filtration tank 10; and the electrodes 4, each of which is made of a rectangular iron plate, serve to leach out iron ions by the aid of electrolysis so as to remove the above-mentioned phosphoric acid, and the iron ions thus leached out react with the phosphoric acid and then flocculate as water-insoluble phosphorus compounds.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a water purification device,
More specifically, the present invention relates to a water purification device for purifying water in an aquarium by removing organic matter such as manure and residual food of living things (such as seafood, turtles and aquatic insects) bred in the aquarium.

[0002]

2. Description of the Related Art Conventionally, in a water tank for breeding creatures, whenever the water quality deteriorates, the water in the water tank is replaced or a water purification device is provided, and the water is purified by the purification device. I am trying to do it.

In the latter case, the water purification device is
Equipped with a filtration tank, pump water from the water tank into this filtration tank with a circulation pump, etc., and filter through the filtration tank (physical filtration and biological filtration)
It is known that the water is returned to a water tank after the water is discharged. Such a water purification device can remove organic substances such as manure and residual food from fish and shellfish, and other substances such as ammonia.

[0004]

However, in such a water purifying apparatus, phosphoric acid increases in the water in the water tank due to the organic matter. Then, algae and aquatic plants are generated in the water tank, and these adhere to the wall surface of the water tank.

[0005] For this reason, not only is it difficult to observe and appreciate the bred fish and the like, but also the dissolved oxygen in the water is reduced, which may cause an oxygen deficiency state. In addition, there is a problem that it is necessary to frequently remove algae and aquatic plants or exchange water, which is troublesome.

[0006] The present invention has been made in view of such circumstances, and an object thereof is to provide a water purification device capable of removing phosphoric acid contained in water in a water tank.

[0007]

According to one aspect of the present invention, an aquarium for breeding creatures, a water storage tank for storing water in the aquarium, and water in the water storage tank are provided with an underwater phosphorus. Ion supply means for supplying ions for removing the acid by precipitation,
Transfer means for transferring water from the water tank to the water storage tank, return means for returning water from the water storage tank to the water tank, an automatic feeding device for feeding the organisms in the water tank, and the automatic feeding device. There is provided a water purification apparatus comprising: a control unit for detecting an integrated amount of bait supplied into an aquarium and controlling an ion supply unit based on the detection result.

[0008] The tank is filled with seawater or freshwater for breeding creatures (such as seafood, turtles and aquatic insects). The water storage tank is disposed outside, such as above or on the side of the water tank, and stores water in the water tank.

The ion supply means supplies ions in the water in the water storage tank for precipitating and removing phosphoric acid in the water, for example, iron ions or aluminum ions.
It is arranged inside or outside the water storage tank. As an example disposed inside, there is at least one set of electrolysis electrodes as described below. One example of an external arrangement includes an electrolysis tank disposed above a water storage tank, an electrode for electrolysis immersed in the electrolysis tank, and ions eluted into the electrolysis tank. Some include an introduction pipe for introducing water into a water storage tank.

[0010] The transfer means directly transfers the water in the water tank to the water storage tank.
Alternatively, the water is transferred indirectly through another component, and for example, a pump including a pump and a pump for pumping water in a water tank is used.

The return means is for returning water from the water storage tank directly to the water tank or indirectly via other components, for example, for returning water purified in the water storage tank to the water tank. Return pipe is used.

[0012] As an automatic feeder, for example, a known automatic feeder comprising a container for storing food, a motor for feeding the food from the container into the water tank, and a controller for controlling the driving of the motor. And the like are preferably used.

The control means detects an integrated amount of the bait supplied into the aquarium by the automatic feeding device. Then, the ion supply means is controlled based on the detection result. As an example of the control by this control means, the phosphate ion concentration in the aquarium is estimated from the integrated amount of the bait supplied to the aquarium by the automatic feeding device, and the ion supply is performed when the estimated concentration becomes a predetermined value or more. There are such things as controlling the means-giving instructions to activate the means.

When the water purifying apparatus is configured as described above, the control means controls the ion supply means to reduce the increase in the concentration of phosphate ions in the water tank due to feeding, thereby achieving stable water purification. It can be carried out.

The predetermined value is, for example, 1.0 to 3.0.
A value in the range of 0 mg / liter is selected. When the phosphate ion concentration is less than 1.0 mg / liter,
Although the effects based on algae and aquatic plants that occur in the aquarium are of an acceptable level, they are not suitable for the breeding environment of living things, and are 3.0 m.
This is because experiments have shown that an effect based on algae or an aquarium cannot be tolerated if the amount exceeds g / liter.

According to another aspect of the present invention, a water tank for breeding organisms, a water storage tank for storing water in the water tank, and disposed in the water storage tank to precipitate and remove phosphoric acid in water. At least one set of electrodes for eluting iron ions or aluminum ions by electrolysis, a power supply for supplying power to the electrodes, a transfer means for transferring water in the water tank to the water storage tank, and a water tank for transferring water from the water storage tank. A feeding means for feeding food to the organisms in the aquarium; detecting the integrated amount of the food fed into the aquarium by the automatic feeding apparatus; and based on the detection result, the power supply. And a control means for controlling the water purification device.

The electrodes are, for example, rectangular plates and are arranged in a predetermined pair of two, and elute iron ions or aluminum ions into the water storage tank by electrolysis. A power supply supplies a current for electrolysis to each set of electrodes.

One set of electrodes is, for example, both iron (or aluminum) electrodes, or one is an iron (or aluminum) electrode and the other is an insoluble metal electrode. In the former case, the passivation of the electrode can be prevented by inverting the polarity of the electrode as desired. In the latter case, an iron (or aluminum) electrode is used as an anode, and an insoluble metal electrode is used as a cathode. Here, examples of the insoluble metal electrode include a silver electrode and a platinum electrode. Further, it is preferable that the pair of electrodes is fixed to, for example, an electrically insulative electrode holder, and the interval between the electrodes is kept constant.

Iron ions or aluminum ions eluted into the water storage tank by electrolysis react with phosphoric acid (orthophosphoric acid) in water to form a water-insoluble phosphorus compound (Fe (O
H) _x (PO ₄ ) _y or Al (OH) _x (P
O ₄ ) _y ) and aggregate, and partly settles and accumulates in the water storage tank. The deposited phosphorus compounds are periodically discarded.
Therefore, the phosphoric acid in the water in the water tank can be removed by the water storage tank.

The control means detects the integrated amount of the bait supplied into the water tank by the automatic feeding device. Then, the power supply for electrolysis is controlled based on the detection result. As an example of the control by this control means, the phosphate ion concentration in the aquarium is estimated from the integrated amount of the bait supplied to the aquarium by the automatic feeding device, and when the estimated concentration exceeds a predetermined value, the power supply To control the power supply to give an instruction to turn on the power supply.

When the water purifying apparatus is configured as described above, the control means controls the power supply for electrolysis, thereby reducing the rise in the concentration of phosphate ions in the water tank due to feeding, thereby achieving stable water purification. It can be carried out.

The predetermined value is, for example, 1.0 to 3.
A value in the range of 0 mg / liter is selected. When the phosphate ion concentration is less than 1.0 mg / liter,
Although the effects based on algae and aquatic plants that occur in the aquarium are of an acceptable level, they are not suitable for the breeding environment of living things, and are 3.0 m.
This is because experiments have shown that an effect based on algae or an aquarium cannot be tolerated if the amount exceeds g / liter.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. Note that the present invention is not limited by this.

As shown in FIGS. 1 and 2, a water purification apparatus D according to one embodiment of the present invention comprises a water tank 1, a water storage tank 2, an automatic feeding device 3, a filtration tank 10, A set of electrodes 4.4, a DC power supply (not shown) for supplying a current to the electrodes 4.4, an electrode holder 5, a pumping tube 6 and a pump 7 as transfer means, and a return means as return means. Return pipe 12
And

The aquarium 1 is for rearing fish and shellfish and the like, and is formed of a box having a substantially rectangular planar shape. The water storage tank 2 is for removing phosphoric acid in water in the water tank 1, is provided adjacent to the pumping pipe 6, and is mounted on an inner lid 8 covered on an opening edge of the water tank 1. I have. The water in the tank 1
The water is pumped into the water storage tank 2 by the pump 6 and the pump 7.

A pair of electrodes 4 in the water storage tank 2 are
Each of them is a rectangular plate-like iron plate, and elutes iron ions for removing phosphoric acid in water by electrolysis. The electrode holder 5 has an electrical insulation property, is attached to the upper ends of the electrodes 4, and keeps a constant distance between them.

The iron ions eluted into the water storage tank 2 by the electrolysis react with phosphoric acid (orthophosphoric acid) in water to form a water-insoluble phosphorus compound (Fe (OH) _x (PO ₄ ) _y ) and agglomerate. Some of them float in water, and the other precipitates and accumulates in the water storage tank 2.

The filtration tank 10 is provided adjacent to and downstream of the water storage tank 2 and introduces the water electrolyzed in the water storage tank 2 through the upper advancing port 2a to remove the phosphorus compound. At the same time, it is for physical filtration and biological filtration of organic matter in water such as fish excrement and residual food, and has a built-in filter 11 for performing filtration.

The filter 11 is made of a needle-punched sheet-shaped nonwoven fabric made of polypropylene as a raw material (as an example, a basis weight: 400 g / m ² , a thickness of 4.0 mm, and a gas permeability of 1).
60 cc / cm ² / sec).

The return pipe 12 is provided adjacent to the filtration tank 10 and penetrates through the inner lid 8. The return pipe 12 passes through the filtration tank 10, is purified, and overflows water from the upper convection port 10 a.
It is for returning to.

The automatic feeding device 3 is provided adjacent to the filtration tank 10 and penetrates through the inner lid 8, and is a container 3 for storing food.
a, a motor (not shown) for feeding food from the container 3a into the water tank 1, and a controller (not shown) for controlling the driving of the motor.

In FIG. 1, reference numeral 13 denotes an outer lid which covers the edge of the end wall of the inner lid 8, which comprises a water storage tank 2, a filtration tank 1.
0, the pumping tube 6, the pumping pump 7, and the return tube 12 are covered. Reference numeral 16 denotes a strainer connected to the pumping pipe 6, and reference numeral 21 denotes a gravel layer disposed at the bottom of the water tank 1.

1 and 2, reference numeral 17 denotes a water storage tank 2.
Aerating tube located at the bottom of the aerial. The aeration pipe 17 is connected to a supply pipe 19 from an air supply blower 18 arranged outside the water storage tank 2.
Compressed air is supplied to the bottom portion of the water storage tank 2 through the through-hole, and the surfaces of the electrodes 4 are washed by generated bubbles. Also, 20
Denotes a control unit, which controls the operation of the pump 7 and the blower 18 and controls the electrolysis of the water storage tank 2.

FIG. 3 shows a flow sheet of the water purification process in the water purification apparatus D configured as described above.

The control unit 20 is connected to the automatic feeding device 3 and the power supply. The control unit 20 calculates the integrated amount of the bait supplied into the water tank 1 by the automatic feeding device 3 within a certain time, estimates the phosphate ion concentration in the water tank 1 based on the calculation result, and estimates the estimated concentration. Is turned on when the value is not less than a predetermined value.

The control of the water purification device D will be described in more detail with reference to FIG.

The control unit 20 first detects the amount of food fed and supplied into the water tank 1 by the automatic feeding device 3. Next, the integrated amount of the bait supplied into the water tank 1 within a certain period is calculated. Then, the phosphate ion concentration A in the water tank 1 is estimated based on the calculation result. This means that the tank 1
It is based on the assumption that a substantially proportional relationship is established between the integrated amount of food supplied into the tank and the phosphate ion concentration in the water tank.

The controller 20 turns on the power when the estimated phosphate ion concentration A is equal to or higher than a predetermined value of 2.0 mg / liter. Next, the integrated amount of food is reset, and electrolysis is performed for 24 hours. Thereafter, the power is turned off.

FIG. 5 shows the relationship between the phosphate ion concentration in the water tank 1 and the elapsed days controlled by the control unit 20 of the water purification device D. According to FIG. 5, the phosphate ion concentration is:
It fluctuates between 2.0 mg / liter and 0.2 mg / liter.

In this embodiment, the phosphate ion concentration is estimated based on the integrated amount of the supplied food,
Although the power supply is controlled, a switch for turning on the power supply for a predetermined time is provided, and the user presses the switch when the user checks the water quality and confirms that the phosphate ion concentration is equal to or higher than a predetermined value. Such a configuration may be adopted. Further, a configuration may be provided that includes a control unit that turns on the power based on the integrated amount of the bait supplied into the water tank 1.

Further, in this embodiment, iron ions are eluted by electrolyzing the electrodes 4 of the iron plate arranged in the water storage tank 2, but the iron ions are eluted. An ion generator is provided, and the water storage tank 2
May be configured to supply the ions.

[0042]

According to the first aspect of the present invention, there is provided a water tank for breeding creatures, a water storage tank for storing water in the water tank,
Ion supply means for supplying ions for precipitating and removing phosphoric acid in the water to the water in the water storage tank, transfer means for transferring water in the water tank to the water storage tank, and water from the water storage tank to the water tank A feeding means for feeding food to the organisms in the aquarium; an automatic feeder for detecting an integrated amount of food fed into the aquarium by the automatic feeding apparatus, and supplying ions based on the detection result. Control means for controlling the means. Therefore, it becomes possible to stably and surely remove the phosphoric acid contained in the water in the water tank by coagulating it as a water-insoluble phosphorus compound in the water storage tank by the ion supply means. In addition, the control means controls the ion supply means, whereby the increase in the phosphate ion concentration in the water tank due to feeding can be reduced, and stable water purification can be performed.

According to the second aspect of the present invention, the control means estimates the phosphate ion concentration in the water tank from the integrated amount of the food supplied to the water tank by the automatic feeding device, and the estimated concentration is a predetermined value. When this is the case, the ion supply means is controlled. Therefore, the control means estimates the phosphate ion concentration in the water tank and controls the ion supply means, so that the increase in the phosphate ion concentration in the water tank due to feeding is more reliably reduced, and stable water purification is achieved. It can be performed finely.

According to the third aspect of the present invention, the predetermined value is in a range of 1.0 to 3.0 mg / liter. Therefore, an effect based on algae and aquatic plants generated in the water tank can be allowed, and the above-mentioned effect of the water purification device according to claim 2 can be secured.

According to the fourth aspect of the present invention, there is provided a water tank for breeding organisms, a water storage tank for storing water in the water tank, and a phosphoric acid disposed in the water storage tank for removing phosphoric acid in water. At least one pair of electrodes for eluting iron ions or aluminum ions by electrolysis, a power supply for supplying power to the electrodes, a transfer means for transferring water in the water tank to the water storage tank, and water from the water storage tank. Returning means for returning to the aquarium, an automatic feeding device for feeding the organisms in the aquarium, and detecting the integrated amount of the bait supplied to the aquarium by the automatic feeding device and based on the detection result, Control means for controlling the power supply. Therefore, by the electrolysis in the water storage tank, the phosphoric acid contained in the water in the water storage tank can be aggregated as a water-insoluble phosphorus compound in the water storage tank and can be stably and reliably removed. In addition, the control means controls the power supply, so that the increase in the phosphate ion concentration in the aquarium due to feeding can be reduced to perform stable water purification.

According to the fifth aspect of the present invention, the control means estimates the phosphate ion concentration in the water tank from the integrated amount of the food supplied to the water tank by the automatic feeding device, and the estimated concentration is set to a predetermined value. When the above occurs, the power supply is controlled. Therefore, the control means estimates the phosphate ion concentration in the aquarium and controls the power supply, so that the increase in the phosphate ion concentration in the aquarium due to feeding is more reliably reduced, and stable purification of water is finely performed. It can be carried out.

According to the sixth aspect of the present invention, the predetermined value is in a range of 1.0 to 3.0 mg / liter. Therefore, an effect based on algae and aquatic plants generated in the aquarium can be allowed, and the above-described effect of the water purification device according to claim 5 can be secured.

[Brief description of the drawings]

FIG. 1 is a front sectional view of a water purification device according to one embodiment of the present invention.

FIG. 2 is a configuration explanatory view of an upper part of the water purification device of FIG. 1 as viewed from above.

FIG. 3 is a flow sheet of a water purification process in the water purification device of FIG. 1;

FIG. 4 is a flowchart relating to control in the water purification device of FIG. 1;

FIG. 5 is a graph showing the relationship between the phosphate ion concentration in the water tank and the number of elapsed days controlled by the control unit of the water purification device in FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Water tank 2 Water storage tank 3 Automatic feeder 4 Electrode 5 Electrode holder 6 Pumping tube 7 Pumping pump 8 Inner lid 9 Filter 10 Filtration tank 11 Filter 12 Return pipe 13 Outer lid 16 Strainer 17 Aeration pipe 18 Blower 19 Air supply pipe 20 Control part

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification FI FI Theme coat ゛ (Reference) C02F 1/58 F term (Reference) 2B104 CF17 EA01 EE12 EF09 4D038 AA05 AB45 AB46 AB02 BA02 BA04 BA06 BB10 BB17 BB18 BB19 BB20 4D061 DA06 DB11 DB18 DB19 DC13 EA07 EB17 EB19 EB20 EB27 EB28 EB30 EB31 EB37 EB39 ED06 FA13 FA15 GA30 GC20 4D062 BA10 BA19 BA23 BB06 CA20 DA02 DA12 DC02 EA24 EA32 FA02 FA15 FA26

Claims (6)

[Claims] 1. A water tank for breeding an organism, a water storage tank for storing water in the water tank, and an ion supply means for supplying ions to the water in the water storage tank for precipitating and removing phosphoric acid in the water. Transfer means for transferring water in the water tank to the water storage tank, return means for returning water from the water storage tank to the water tank, an automatic feeding device for feeding the organisms in the water tank, and the automatic feeding A water purification apparatus comprising: a control unit that detects an integrated amount of bait supplied to an aquarium by the device and controls an ion supply unit based on the detection result. 2. A control means for estimating a phosphate ion concentration in an aquarium from an integrated amount of bait supplied to the aquarium by an automatic feeding device, and when the estimated concentration exceeds a predetermined value, the ion supply means. The water purifying apparatus according to claim 1, wherein the water purifying apparatus is controlled. 3. The water purifying apparatus according to claim 2, wherein the predetermined value is in a range of 1.0 to 3.0 mg / liter. 4. A water tank for breeding organisms, a water storage tank for storing water in the water tank, and iron ions or aluminum ions disposed in the water storage tank for precipitating and removing phosphoric acid in water. At least one set of electrodes eluted by electrolysis, a power supply for supplying power to the electrodes, transfer means for transferring water from the water tank to the water storage tank, return means for returning water from the water storage tank to the water tank, and a water tank An automatic feeding device for feeding food to living organisms therein, and control means for detecting the integrated amount of food supplied into the aquarium by the automatic feeding device and controlling the power supply based on the detection result. A water purification device, characterized in that: 5. A control means for estimating a phosphate ion concentration in an aquarium from an integrated amount of bait supplied to the aquarium by an automatic feeding device, and turning on the power supply when the estimated concentration exceeds a predetermined value. The water purification apparatus according to claim 4, which is controlled. 6. The water purification device according to claim 5, wherein the predetermined value is in a range of 1.0 to 3.0 mg / liter.