KR101152640B1 - The filter for aquarium - Google Patents

Abstract

PURPOSE: A filtering apparatus for an aquarium is provided to secure enough filtering capacity regardless of the size thereof. CONSTITUTION: A filtering apparatus for an aquarium comprises an outer housing(10), a filter tub(20), a motor(30), and a discharge structure(40). The outer housing forms the appearance and has an inlet port. The filter tub is prepared inside the outer housing, is supplied with water from a water tub, and is filled with filtering materials. The motor is connected to the lower part of the filter tub and circulates water. The discharge structure is classified into a filter tub return part(50) and a water tub outlet part.

Description

Filtration device for aquarium {The filter for aquarium}

The present invention relates to an filtration device for an aquarium, and more particularly, to an aquarium filtration device capable of arbitrarily adjusting the amount of discharged water and leaching the sludge of the filtration tank.

Aquariums installed in homes and offices use filters to control water quality. Most filters operate by sucking contaminated water from the tank, filtering the contaminants with filter media, and extinguishing the contaminants with aerobic bacteria.

  The conventional filter has a structure in which water introduced from the water tank passes through the filter bath and then flows out into the water tank by an underwater motor or the like. Here, the water flowing out is used to form a stream of water inside the tank to dissolve oxygen in the water of the tank and to install the suspended matter in the bottom of the tank to the filter. In general, because the tank is inhabited by fish and aquatic life, proper water flow helps the tank ecosystem by smoothly dissolving and supplying oxygen. Excessive water flow, however, causes moss, causes noise, and is harmful to fish and plants. For this reason, if the amount of water is excessive, a water flow dispersing device such as a rain bar or a spout or a water discharge control valve are provided on the outlet side of the filter. However, even when the water flow is dispersed, the narrow water tank is still excessive in many cases, and if the output amount is arbitrarily reduced, the water flow inside the filtration tank is weakened, which lowers the filtration capacity. In addition, there is a limit that can not significantly reduce the water output because the submersible motor is overloaded.

  On the other hand, on the side of the filter, various suspended matters contained in the introduced water accumulate at the inlet side of the filter tank. Sufficient water flow is therefore required to cause the suspended matter to collide with the filter media to be crushed. Bacteria in the filtration tanks are extremely fine, so that some of the suspended matter must be crushed to reduce the decomposition time.

  Soft and stable water streams are suitable for water tanks, and strong and fast water streams are required for filtration tanks. However, conventional filters have limitations in meeting these demands.

In order to solve such a structural problem, a gravity filter that can directly supply oxygen to the filtration tank is also widely used. Since aerobic bacteria are mainly used to operate the tank stably, supplying oxygen to improve the filtration capacity is very effective and shows good results. Dissolution of oxygen is proportional to the contact area, so that the filtration tank is large enough or watered in the filtration tank to ensure sufficient oxygen is supplied. This type of filter usually needs to be mounted outside the tank, which makes pipe construction and management difficult, requires extra space, and opens the top, creating the risk of noise generation and leakage.

In addition, aerobic filtration is known to generate a large number of secondary filtration sludge due to digestion. Depending on the type of filter, the filter should be cleaned after several weeks to several months. Cleaning of the filtration tank is not only cumbersome, but also destroys the filtration ecosystem in which the filtration bacteria live and requires at least one week's seal to restore it. In addition, there is a problem in that the aquarium is damaged by decaying the interior of the filter tank when oxygen is not supplied to the filter tank because the cleaning time is missed.

In addition, the required filtration capacity of the aquarium depends on the environment configured in the tank, that is, the presence or absence of plants, the number of fish, and the like. Even if a small tank has a lot of fish, a large filtration capacity is required, and even a large tank can be managed with a small filtration capacity if the internal environment such as plants is good. Therefore, it is necessary to select a suitable filtration capacity according to the generation of the actual pollutant, but due to the water output problem, many consumers are inconvenient because they need to select the filtration capacity according to the size of the tank and supplement it with another type of filter.

  As discussed above, aquarium management actually depends on filter selection and management. The aquarium filter is functionally designed for filtration, but it is used in a special environment such as a water tank. Therefore, the aquarium filter should be designed considering the size, noise, water output, convenience of management, and appearance in addition to the filtration capacity. Aquarium filtration device has sufficient filtration capacity, but it is easy to manage the water flow inside the tank and clean the filtration tank, and it is required to have a small installation space, no noise, and a beautiful appearance.

An object of the present invention is to provide a filtration device for an aquarium that can be arbitrarily controlled and the amount of water discharged into the tank has a sufficient filtration capacity at a smaller capacity and easier to manage.

Precipitation filtration device for an aquarium of the present invention forms an exterior and is provided in the outer housing 10 is provided with an inlet port 15 is formed so that the water of the tank is introduced on one side, the inlet is provided inside the outer housing (10) A filtration tank 20 which receives water from the water tank 15 and is filled with a filter medium 25, and a circulation motor 30 communicating with a lower portion of the filtration tank 20 to circulate water forcibly; A filtration tank return unit 50 for returning some of the discharged water discharged by the motor 30 to the filtration tank 20; Characterized in that it is composed of a discharge structure 40 formed of a water tank outlet 60 to discharge the rest to the tank.

The present invention provides a filtration apparatus which can arbitrarily adjust the amount of water discharged to the water tank by returning a part of the water discharged from the circulation motor to the filtration tank and forming an air layer inside the filtration device. In addition, the present invention provides a filtration device that is easy to manage by depositing the filtration sludge of the water tank and the filtration tank.

1 is a front view of the filtration device for an aquarium according to the present invention.
2 is a side view of an aquarium filtration device according to the present invention
Figure 3 is a perspective view of the incision of the aquarium filtration device according to the present invention.
Figure 4 is a front view of the filtration device for an aquarium according to another embodiment of the present invention.
5 is a side view of an aquarium filtration device according to another embodiment of the present invention
Figure 6 is a cutaway perspective view of an aquarium filtration device according to another embodiment of the present invention.

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

1 to 3 is a front view and a side view and a cutaway perspective view of the aquarium filtration device according to the present invention, Figures 4 to 6 is a front view and a side view of the aquarium filtration device according to another embodiment of the present invention having a leaching portion And incision perspective. Aquarium filtration apparatus according to the present invention and the outer housing 10 is provided with an inlet (15); A filtration tank 20 filled with a filter medium 25 therein; A circulation motor 30 for circulating water forcibly; It consists of a discharge structure 40 for returning some water.

The outer housing 10 is provided with an inlet 15 which forms an appearance and is formed to introduce water from the tank to one side. The outer housing 10 may be installed inside or outside the tank. When installed inside, it is installed on the floor or side, and when installed on the side is fixed with an attachment tool (not shown) such as adsorption rubber. When installed outside the pipe inlet pipe (not shown) to extend the inlet port 15 so that the water inflow.

The filtration tank 20 is provided inside the outer housing 10 to receive the water of the tank from the inlet 15, and the inside is filled with the filter medium 25. As the water flowing from the water tank passes through the filter medium 25, the pollutant is filtered and the pollutant is decomposed by the filter bacteria inhabiting the filter medium 25.

The circulation motor 30 is a kind of small pump that communicates with the lower part of the filtration tank 20 to forcibly suck and discharge the water in the filtration tank 20. The circulation motor 30 is provided inside the outer housing 10 but may be connected to the outside of the outer housing 10 by using a pipe. A predetermined head difference is formed between the water tank and the filtration tank 20 by the head formed by the circulation motor 30, and the water of the water tank is continuously introduced into the filtration tank 20.

  The discharge structure 40 is formed of a filter tank return unit 50 for returning some of the discharged water discharged by the circulation motor 30 to the filtration tank 20 and a water tank output unit 60 for outputting the rest to the tank. Specifically, the discharge structure 40 includes a discharge pipe 41 in communication with the discharge port of the circulation motor 30; A branch pipe 42 for branching the discharge pipe 41; A filtration tank return pipe (51) connected to the other one of the branch pipes (42) to return to the filtration tank (20); Connected to the other one of the branch pipes 42 may be configured as a water tank outlet pipe 61 to be discharged into the tank. Branch pipe 42 may be generally used a T or Y-shaped joint. The flow rate control valve 67 may be attached to the water tank outlet pipe 61 or the filtration tank return pipe 51 to adjust the amount of the water tank discharged water or the amount of return water. Some of the water discharged from the circulation motor 30 is discharged through the water tank outlet 60, and the rest is returned to the filtration tank 20 through the filtration tank sending unit 50 and re-introduced into the filtration tank 20. That is, the water flowing from the water tank and the water returned from the filtration tank return unit 50 are combined and supplied to the filtration tank 20.

  Due to this structure, if the water output from the tank is reduced, the water inflow from the water tank is reduced and the return flow to the filtration tank 20 is increased. Regardless of the amount of inflow and outflow, the amount of inflow and outflow supplied to the filtration tank 20 becomes constant. In other words, even if the amount of input and output with the water tank is arbitrarily adjusted, the amount of water supplied to the filtration tank 20 is kept constant. Therefore, the amount of water output can be arbitrarily adjusted without considering the filtration capacity of the filtration device. In addition, the amount of water output can be arbitrarily adjusted, so the user can select a filtration device of any capacity without considering the size of the water tank.

   And the water to be returned has a strong earth output, which pulverizes the suspended matter accumulated in the upper portion of the filter tank (20). In general, the filtration device implemented by the gravity type has a serious defect that the filtration capacity is lowered during use due to the accumulation of suspended matter in the upper layer of the filtration tank 20 has the effect of crushing the suspended matter by the present invention to solve it.

And if the returning volume is 80%, the water flowing into the filtration tank 20 is discharged after being returned about 4 times on average, which increases the residence time in the filtration tank 20 and increases the filter medium 25 by four times. There is a more compact filtration tank 20 is able to provide abundant filtration capacity.

  In addition, the water passing through the filtration tank 20 is consumed by the aerobic bacteria to reduce the amount of dissolved oxygen, but if the amount of water returned is small can be ignored, but in many cases it is good to supplement the oxygen. The filtration apparatus in which the upper surface of the filtration tank 20 is open may sprinkle the water returned from the upper surface of the filtration tank 20 to increase the amount of dissolved oxygen. However, when watering, there is a problem that noise occurs.

This can be equipped with a filtration device to be submerged in the water of the tank and supply the outside air to the filtration tank 20 to supply oxygen while reducing the noise. To this end, the upper portion of the filtration tank 20 is closed and preferably extends from the upper portion of the filtration tank 20 to the water surface of the water tank, the air supply pipe 55 is preferably further provided. When the circulation motor 30 is driven, the pressure inside the filtration tank 20 and the outer housing 10 drops and thus the outside air flows in such a manner that a predetermined air layer is formed on the filtration tank 20. The water returned to this air layer is sprayed to dissolve oxygen and oxygen is also supplied to the filtration tank 20. This enhances the ability to filter aerobic bacteria to infinite growth.

  In addition, the discharge structure 40 includes a discharge pipe 41 in communication with the discharge port of the circulation motor 30; A branch pipe 42 for branching the discharge pipe 41; A filtration tank return pipe 51 connected to any one of the branch pipes 42 and returned to the filtration tank 20; It is composed of a water tank discharge pipe 61 is connected to the other one of the branch pipes 42 and discharged to the water tank, the air supply pipe 55 is connected to the outlet side of the filtration tank feed pipe 51 to the outside air by the Venturi effect Is attached to the suction, it is preferably further provided with an air discharge pipe 65 is connected to the outlet side of the water tank outlet pipe 61 from the upper portion of the filtration tank 20 so that the air in the upper portion of the filtration tank 20 is discharged by the Venturi effect. Do.

  Venturi effect is the effect of inhaling air due to the pressure drop in the neck and the contraction part, neck, expansion part in the pipeline. It may be implemented using an orifice as shown. The outside air is sucked and supplied by using the water flow of the filtration tank return pipe 51, and the air of the upper part of the filtration tank 20 is sucked using the water tank outlet pipe 61 and discharged to the tank. This allows the air supplied to the filtration tank 20 to be continuously circulated to smoothly supply oxygen. In addition, the air supply pipe 55 may be attached with a backflow prevention mechanism 56 such as a check valve to further clarify the inflow and outflow and to prevent noise.

And by forming a rain plate 45 in the lower portion of the filter feed pipe 51 to be sprayed into the filter tank 20 to further improve the dissolution of oxygen and produce a rainy appearance can also give an interior effect.

  In addition, one side of the lower portion of the filtration tank 20 is formed to be inclined filtration tank inclined portion 21 is opened in the form of a plurality of holes; The other side is composed of a filtration tank discharge portion 22 which is opened to the inlet side of the circulation motor 30 to discharge the water of the filtration tank 20, the upper surface is attached to the lower portion of the filtration tank inclined portion 21 to the contraction portion and the expansion portion. An inclined sedimentation chamber 71 formed; A lower inlet 75 provided at a lower side of the outer housing 10 and opened toward the contraction portion of the inclined precipitation chamber 71 to suck water from the tank; It is preferable to further include a sedimentation tank 70 composed of a sediment accommodating portion 72 in which the precipitate precipitated in the gradient precipitation chamber 71 is accommodated.

A lower portion of the filtration tank 20 is formed with an inclined filtration tank inclined portion 21; It is configured to be divided into a filter tank discharge portion 22 which is opened to the inlet side of the circulation motor 30 and the water of the filter tank 20 is discharged. The sedimentation tank 70 is provided on the lower side of the filtration tank slope 21, and the precipitation tank 70 is composed of a gradient settling chamber 71, a lower inlet 75, and a sediment accommodating part 72. Since the pressure inside the filtration tank 20 is lower than that of the water tank by the circulation motor 30, a weak inflow of water from the lower inlet 75 toward the filtration tank slope 21 is formed. Water flowing into the contraction portion moves to the expansion portion, causing the water flow to become weaker and allow the solids having a higher specific gravity in the suspended matter to be settled by gravity. Most of the pollutants in the aquarium are excreta of fish, and if the excreta are separated and discharged separately before being crushed, the burden of the filtration tank 20 can be reduced. In addition, the filtration sludge formed by fusion in the filtration tank 20 may fall into the opening of the filtration tank inclined portion 21.

  In addition, the leaching port 82 which is opened in the lower portion of the filtration tank 20; It is more preferable to further include a leaching portion 80 composed of a leaching guide passage 85 to which the leaching port 82 and the precipitate receiving portion 72 are connected. As shown in FIGS. 4 to 6, the settling tank 70 is provided symmetrically. The filter tank outlet 22 is provided at the center, and the leaching path 81 is formed to be inclined in the front-rear direction. A leaching port 82 is formed at the lowermost end of the leaching path 81, and a leaching guide path 85 is provided to connect the leaching port 82 and the precipitate accommodating part 72.

Filter sludge is formed by fusion between contaminants in the process of decomposition and digestion in the filtration tank 20. The filtration sludge is gradually moved to the lower part of the filtration tank 20 by gravity and water flow in the filtration tank 20, and then moved. Is guided to the leachate guideway 85 through the leachate 82 along the leaching path 81 is collected in the sediment accommodating portion (72). Through this, the filtration tank 20 can be maintained at a certain level of cleanliness and the cleaning of the filtration tank 20 can be minimized, thereby reducing the burden on the user.

  Hereinafter, the operation principle of the filtration device for an aquarium according to the present invention.

   The filter is internally attached to the bottom or side of the tank. In the case of the external type, the filter tank 20 and the inlet pipe (not shown) are filled with water. When the circulation motor 30 is driven, some of the discharged water is discharged into the water tank through the water tank outlet 60, and the rest is returned to the filtration tank 20 through the filtration tank transport unit 50. The amount of water output water can be adjusted using the flow control valve 67 provided in the water output water output part 60.

  At the outlet side of the filtration tank return pipe 51, outside air is sucked through the air supply pipe 55 by the Venturi effect and supplied to the filtration tank 20, and at the outlet side of the water tank outlet pipe 61, the filtration tank 20 is formed by the Venturi effect. ) Air is sucked through the air discharge pipe (65) and discharged into the water tank. The water returned is sprayed through the rain plate 45 and oxygen is dissolved while passing through the air layer. In addition, the water to be sprayed pulverizes the suspended matter in the upper layer of the filtration tank 20 to move the suspended matter to the lower layer to prevent the accumulation of suspended matter in the upper layer of the filtration tank 20.

The water received through the inlet 15 and the water returned are combined in the filtration tank 20, and the suspended matter is filtered while passing through the filter medium 25, and ammonia is removed by bacteria, and then moved to the lower portion of the filtration tank 20. The filtration sludge is sedimented by the filtration tank inclined portion 21 provided below the filtration tank 20, and the water of the filtration tank 20 is discharged through the filtration tank discharge unit 22.

Solids floating at the bottom of the tank are collected through the lower inlet 75 provided in the settling tank 70 and the flow rate is reduced while moving from the contraction portion of the gradient settling chamber 71 to the expansion portion, whereby solids precipitate and the water is filtered. Inflow to the (21) is discharged by the circulation motor 30 through the filter tank discharge portion (22). In addition, the filtration sludge formed in the filtration tank 20 and moved to the lower portion of the filtration tank 20 is collected in the sediment accommodating part 72 through the leaching port 82. The sediment contained in the sediment accommodating part 72 is discharged by the manager to the outside. A siphon tube (not shown) may be separately installed to discharge the precipitate.

As described above, the filtration apparatus according to the present invention forms an appropriate air, water and sludge flow using one purified motor 30 to provide an efficient filtration function to the aquarium. In particular, by returning some of the water discharged from the circulation motor 30, the manager can arbitrarily adjust the amount of water discharged, and an air layer is provided on the upper side of the outer housing 10 to provide abundant oxygen to the filtration tank 20 to improve filtration capacity. A device can be provided. In addition, by providing the settling tank 70 and the leaching portion 80 in the lower portion of the filtration tank 20 to precipitate or leach the solids of the water tank and the filtration sludge of the filtration tank 20 can be easily managed for a long time.

10: external housing 15: inlet
20 filtration tank 21 filtration tank inclined portion 22 filtration tank discharge portion 25 filter medium
30: circulation motor
40: discharge structure 41: discharge pipe 42: branch piping
50: filtration tank sending unit 51: filtration tank sending pipe 55: air supply pipe
60: water tank outlet 61: water tank outlet pipe 65: air discharge pipe
70: sedimentation tank 71: inclined sedimentation chamber 72: sediment receiving unit 75: lower inlet
80: leaching part 82: leaching port 85: leachate guide

Claims (6)

The outer housing 10 is provided with an inlet 15 formed to form an appearance so that water in the tank is introduced into one side,
A filtering tank 20 provided inside the outer housing 10 to receive water from the water tank from the inlet 15 and filled with a filter material 25 therein;
A circulation motor 30 in communication with a lower portion of the filtration tank 20 to circulate water forcibly;
A filtration tank return unit 50 for returning some of the discharged water discharged by the circulation motor 30 to the filtration tank 20; Aquarium filtration device, characterized in that consisting of a discharge structure 40 formed of a water tank outlet 60 to discharge the rest to the tank
The method of claim 1
The discharge structure 40 and the discharge pipe 41 is in communication with the discharge port of the circulation motor 30; A branch pipe 42 for branching the discharge pipe 41; A filtration tank return pipe (51) connected to any one of the branch pipes (42) and returned to the filtration tank (20); Aquarium filtration device, characterized in that consisting of the water tank outlet pipe 61 is connected to the other one of the branch pipe 42 and discharged to the tank
The method of claim 1
The upper part of the outer housing 10 is closed,
Aquarium filtration device further comprises an air supply pipe 55 extending from the upper portion of the outer housing 10 to the water surface of the tank flows in and out
The method of claim 3,
The discharge structure 40 and the discharge pipe 41 is in communication with the discharge port of the circulation motor 30; A branch pipe 42 for branching the discharge pipe 41; A filtration tank return pipe (51) connected to any one of the branch pipes (42) and returned to the filtration tank (20); Is connected to the other one of the branch pipes 42 is composed of a water tank outlet pipe 61 to discharge to the tank,
The air supply pipe 55 is connected to the outlet side of the filter feed pipe 51 is attached so that the outside air is sucked by the Venturi effect,
Aquarium characterized in that it further comprises an air discharge pipe 65 is connected to the outlet side of the water tank outlet pipe 61 from the top of the filter tank 20 is attached to the air discharged from the top of the filter tank 20 by the Venturi effect Filtration device
The method of claim 1
One side of the lower portion of the filtration tank 20 is formed to be inclined and the filtration tank inclined portion 21 is opened in the form of a plurality of holes; The other side is composed of a filter tank discharge portion 22 which is opened to the inlet side of the circulation motor 30 to discharge the water of the filter tank 20,
An inclined sedimentation chamber (71) having an upper surface attached to the lower portion of the filter tank inclined portion (21) and formed of a contraction portion and an expansion portion; A lower inlet 75 provided at a lower side of the outer housing 10 and opened toward the contraction portion of the inclined sedimentation chamber 71 to introduce water from the tank; Aquarium filtration device characterized in that it further comprises a sedimentation tank 70 consisting of a sediment accommodating portion 72 is accommodated in the precipitate precipitated in the gradient settling chamber 71
The method of claim 5
A leaching port 82 which is opened in the lower part of the filtration tank 20; The filtration device for an aquarium, characterized in that further comprising a leaching portion 80 consisting of a leachate guideway 85 is connected to the leaching port 82 and the precipitate receiving portion 72

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