KR101169392B1 - a filter of aquarium having pump - Google Patents

Abstract

In the present invention, in the separation and removal of foreign matter in the aquarium for saltwater fish supplied by the seawater due to the generation of fine bubbles, the motor and pump in a filter installed in the tank to filter the seawater supplied to the aquarium for saltwater fish ( In the following description, the pump may be easily installed inside the tank and the size of the tank may be minimized.

Filter for an aquarium in which the pump according to the embodiment of the present invention is built,

In the aquarium filter for separating and removing foreign matter in the aquarium for saltwater fish supplied by the sea water due to the generation of fine bubbles,

The first space portion is formed by a first space portion in which a pump in which a suction port communicating with a seawater suction pipe into which seawater is introduced and a discharge port for discharging sea water is formed, and a diaphragm having injection holes for discharging seawater discharged through the discharge port are formed. A body consisting of a second space portion which is isolated against the

An outlet side coupled to the seawater suction pipe, and a bubble generating hose for supplying external air to the suction port to generate air bubbles in the seawater passing through the injection hole;

Removably coupled to the upper body, the foreign matter collection passage consisting of the inner and outer tubes, the foreign matter is separated by the bubbles in the sea water injected through the injection hole is collected,

It is coupled to open and close the outlet of the discharge pipe communicating with the first space portion, and includes an adjustment means for varying the seawater discharged through the outlet in accordance with the rotation angle.

Saltwater fish aquariums, filters, pumps, air bubbles, floats, seawater, foreign bodies, proteins

Description

Filter for aquarium with built-in pumps {a filter of aquarium having pump}

The present invention relates to a filter for an aquarium in which a pump is built to separate and remove foreign substances such as excrement, protein, etc. from the saltwater fish generated in the aquarium supplied with sea water due to the generation of fine bubbles.

More specifically, in the separation and removal of foreign matter in the aquarium for saltwater fish supplied by the micro-bubbles, the motor and pump (hereinafter referred to as a filter installed in the tank to filter the seawater supplied to the aquarium for saltwater fish) In an embodiment, the present invention relates to an aquarium filter in which a pump is built so that the filter can be easily installed inside the tank and the size of the tank can be minimized.

Aquarium filter according to the prior art shown in Figure 1,

An inner moving pipe 2 through which the sea water flows in through the inlet port 2a from the water tank 1 in which the sea water is stored, and an outer moving pipe 3 through which the seawater from which foreign matter contained in the sea water is filtered is moved;

A pump (4) and an injector (5) for pressurizing to decompose protein and suspended matter contained in the seawater sucked through the suction pipe (3a);

A filter 6 for separating the suspended matter including the bubbles contained in the seawater moving along the inner movement pipe 2;

A collecting container 7 installed above the filter 6 to collect bubbles and suspended matter passing through the filter 6;

A primary filtration tank 8 and a secondary filtration tank 9 for filtering seawater from which foreign matters have been separated,

And a sterilization chamber 10 for sterilizing bacteria in seawater passing through the secondary filtration tank 9 by a sterilization lamp (ultraviolet lamp, etc.).

According to the aquarium filter configured as described above, the seawater flowing in from the water tank 1 through the inlet 2a is moved to the upper side of the inner moving pipe (2), the seawater through the suction pipe (3a) pump ( 4) and pressurized by the injector 5, the sea water and air are mixed, and then moved to the inner moving tube (2).

Due to the fine bubbles, foreign matter, including suspended matter such as excreta of saltwater fish, is separated from the seawater. At this time, the suspended matter and bubbles are collected through the filter (6) and collected in the upper collecting tank (7), the seawater passing through the filter (6) is moved downward in the drawing, along the outer moving pipe (3) in the primary filtration tank (8) and the secondary filtration tank 9 pass in order.

The seawater passing through the secondary filtration tank 9 is sterilized by the ultraviolet lamp of the sterilization chamber 10 and then moved to the water tank 1 through the discharge pipe 10a.

As described above, the aquarium filter has a problem in that the above-described pump 4 is installed on the outside of the outer movable pipe 3, so that the working time for connecting the pump 4 and the hose is increased, resulting in poor workability.

In addition, the cost is increased due to the increase in the number of parts constituting the filter for the aquarium, the price competitiveness is lowered, there is a problem that the space for installing the filter is limited because sufficient space for installing the filter indoors is required. .

In addition, after separating the suspended matter or the like contained in the seawater by the filter (6), the primary and secondary filtration tanks (8, 9) to use the primary and secondary filtration tanks (8, 9) to filter the sea water, the primary and secondary filtration tanks (8, 9) The process of periodically managing the microorganisms to be injected) is inconvenient, and if the above-mentioned microorganisms are contaminated, there is a problem that may cause death or disease of saltwater fish.

An embodiment of the present invention, the aquarium filter is a built-in pump to improve the water quality of the aquarium by separating and removing proteins, suspended matter, etc. contained in the sea water due to the generation of fine bubbles due to the excretion of the saltwater fish for the aquarium Related to.

Embodiment of the present invention is to improve the workability to install the pump, hose, pump fixing bracket and the filter in the tank according to the pump in the filter, and the pump is built to reduce the size of the tank Related to an aquarium filter.

Embodiment of the present invention relates to an aquarium filter with a built-in pump to reduce the number of parts by reducing the number of parts due to the simplified structure of the fish filter for aquarium fish.

Filter for an aquarium in which the pump according to the embodiment of the present invention is built,

In the aquarium filter for separating and removing foreign matter in the aquarium for saltwater fish supplied by the sea water due to the generation of fine bubbles,

The first space portion is formed by a first space portion in which a pump in which a suction port communicating with a seawater suction pipe into which seawater is introduced and a discharge port for discharging sea water is formed, and a diaphragm having injection holes for discharging seawater discharged through the discharge port are formed. A body consisting of a second space portion which is isolated against the

An outlet side coupled to the seawater suction pipe, and a bubble generation hose for supplying external air to the seawater suction pipe so as to generate air bubbles in the seawater passing through the injection hole;

Removably coupled to the upper side of the body, the foreign matter collection passage consisting of the inner tube and the outer tube collecting foreign matter separated by the bubbles in the seawater injected through the injection hole,

It is coupled to open and close the outlet of the discharge pipe communicating with the first space portion, and includes an adjustment means for varying the seawater discharged through the outlet in accordance with the rotation angle.

According to a preferred embodiment, the above-described adjustment means,

A valve for controlling the opening area of the outlet corresponding to the angle of rotation, and integrally formed with the valve is rotatably coupled to the upper portion of the discharge pipe and a knob for adjusting the opening and closing amount of the valve in accordance with the amount of rotation.

A cover that is rotatably coupled to the upper side of the discharge pipe and coupled so that the inlet side of the bubble generating hose is in communication, and a cover that is rotatably coupled to the upper end of the chamber and adjusts the amount of external air supplied to the seawater suction pipe according to the amount of rotation. It includes.

Coupling means for detachably coupling the foreign matter collection container to the above-mentioned body,

It is formed on the outer surface of the flange formed on the lower end of the inner tube and the upper surface is formed to be inclined in one direction and the inner surface of the flange formed on the upper end of the second space portion is formed opposite the bottom surface is formed to be inclined in one direction The stopper includes a cutout formed between the stopper and the neighboring stopper so as to couple the stopper to the locking jaw to fasten the foreign matter collection container to the body.

The upper end of the inner tube of the above-described foreign matter collection container is formed relatively lower than the upper end of the outer tube.

At least one of the above-described body and the foreign matter collection container is formed of a transparent body.

Aquarium filter with a built-in pump according to an embodiment of the present invention configured as described above has the following advantages.

As the water quality of the aquarium is improved by separating, collecting, and removing proteins and suspended matter contained in the seawater due to the generation of fine bubbles due to the excretion of saltwater fish, it is possible to reduce the inconvenience of frequently exchanging the seawater inside the aquarium. have.

In addition, by placing the pump inside the filter to form a single unit to improve the workability of installing the filter inside the tank, and by reducing the size of the tank can be usefully utilized the limited indoor space in which the water tank is installed.

In addition, by simplifying the structure of the saltwater aquarium filter, the number of parts is reduced, thereby reducing the cost and assembly costs, thereby improving the price competitiveness, and since the foreign matter collector is easily detached from the filter body, the body of the filter is often used. The interior can be cleaned.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, which are intended to be described in detail so that those skilled in the art to which the present invention pertains can be easily carried out, and thus the present invention. It does not mean that the technical spirit and scope of the company is limited.

Aquarium filter is built in the pump according to an embodiment of the present invention shown in Figure 2 to 6,

In the aquarium filter for separating and removing foreign matter in the aquarium for saltwater fish supplied by the sea water due to the generation of fine bubbles,

A first space portion 15 in which a pump 14 having a suction port 12 communicating with the seawater suction pipe 11 through which the seawater flows from the water tank A and a discharge port 13 for discharging the seawater is formed; Into the second space portion 18 which is separated from the first space portion 15 by the two-stage diaphragm 17 through which the injection hole 16 for ejecting the seawater discharged through the discharge port 13 is formed. Body 19,

The outlet side is connected to the seawater suction pipe 11 so as to communicate, and the bubble generation hose 20 (flexible) which supplies external air to the seawater suction pipe 11 so as to generate air bubbles in the seawater passing through the injection hole 16 (flexible) One synthetic resin material),

The inner tube 21 and the outer tube 22 which are detachably coupled to the upper body 19 and collect foreign substances (such as excretion of saltwater fish) separated by air bubbles in the seawater injected through the injection hole 16. The foreign matter collection container 23 and

It is coupled to open and close the outlet 25 of the discharge pipe 24 communicated to the first space 15, and includes an adjustment means for varying the seawater discharge discharged through the discharge port 25 in accordance with the rotation angle .

The above-mentioned adjustment means,

The valve 26 for adjusting the opening area of the outlet 25 corresponding to the rotation angle and integrally extended to the valve 26 to be rotatably coupled to the upper portion of the discharge pipe 24 and according to the amount of rotation ( And a knob 27 for adjusting the amount of opening and closing of 26).

The chamber 28 is rotatably coupled to the upper side of the discharge pipe 24 and the inlet side of the bubble generating hose 20 is in communication with the chamber 28, and rotatably coupled to the upper end of the chamber 28. It includes a cover 29 for adjusting the amount of external air supplied to the seawater suction pipe 11 according to the total amount.

Coupling means for detachably coupling the foreign matter collection container 23 to the above-described body 19,

A locking projection 31 protruding from an outer surface of the flange 30 formed at the lower end of the inner tube 21 and having an upper surface inclined in one direction, and a flange 32 formed at an upper end of the second space portion 18. The stopper 33 is formed to face the inner side of the) and the bottom surface is inclined in one direction, and the stopper 33 is coupled to the locking jaw 31 to fasten the foreign matter collector 23 to the body 19. And a cutout 34 formed between the neighboring stopper 33 and the stopper 33 so as to be possible.

The upper end of the inner tube 21 of the above-described foreign matter collection container 23 is formed to be relatively lower than the upper end of the outer tube (22).

At least one of the above-described body 19 and the foreign matter collection container 23 is formed of a transparent body (such as an acrylic material) so that the inside can be visually identified.

In the figure, reference numeral 35 is a through hole formed in the lower flange of the diaphragm 17, and 36 is a lid coupled to the foreign matter collection container 23.

Hereinafter, with reference to the accompanying drawings an example of the use of the aquarium filter is built in the pump according to an embodiment of the present invention will be described in detail.

As shown in Figs. 4 (a, b), 5 (a, b) and 6, the pump 14 is driven by the power supplied from the outside in the state where the filter A is fresh in the tank A described above. Done. As the pump 14 is driven, the seawater in the water tank A is sequentially passed through the seawater suction pipe 11 and the suction port 12 of the pump 14 to be sucked to the pump 14 side.

Seawater passing through the discharge port 13 of the pump 14 is injected into the upper portion of the second space portion 18 through the injection hole 16 of the diaphragm 17. In this case, since the external air is supplied to the seawater suction pipe 11 through the bubble generation hose 20, fine bubbles are generated in the seawater discharged through the discharge port 13 of the pump 14.

On the other hand, as shown in Figure 5 (a, b), it is possible to adjust the amount of external air supplied to the seawater suction pipe 11 through the bubble generation hose (20). That is, the amount of external air flowing into the chamber 28 may be adjusted according to the amount of rotating the cover 29 with respect to the chamber 28 rotatably coupled to the upper side of the discharge pipe 24. That is, the opening area of the through hole 28a formed at the top of the chamber 28 can be variably adjusted by the rotation of the cover 29.

Due to the bubbles generated as described above, the foreign matter (feces discharged by the saltwater fish, etc. inside the aquarium) contained in the seawater sprayed through the injection hole 16 is separated from the seawater. At this time, the foreign matter including the suspended matter separated from the sea water is collected in the foreign matter collection container 23 coupled to the upper end of the second space portion 18.

That is, as the seawater injected into the upper portion of the second space portion 18 through the injection hole 16 collides with the lid 36, foreign matter is collected between the inner and outer pipes 21 and 22, and at the same time the seawater The water drops down the second space portion 18 along the inner tube 21. The seawater falling down to the second space portion 18 is moved to the first space portion 15 through the through hole 35 formed through the lower flange of the diaphragm 17.

As shown in FIG. 4 (a, b), the seawater that has fallen into the first space part 15 is discharged to the water tank A through the discharge port 25 of the discharge pipe 24. At this time, the amount of seawater exiting the discharge pipe 24 can be adjusted by the amount of rotation of the knob 27 coupled to the discharge pipe 24. That is, the seawater amount can be adjusted by variably adjusting the opening area of the outlet 25 by the rotation of the valve 26 formed at the lower end of the knob 27.

As shown in FIG. 3, the foreign matter collected in the above-described foreign matter collection container 23 may be separated from the filter and disposed at a designated place. That is, in the case of holding the foreign matter collecting container 23 and rotating it counterclockwise, the stopper 33 formed to face the inner surface of the flange 32 formed on the upper end of the second space part 18 and the inner tube corresponding thereto. The locking of the locking step 31 formed on the outer surface of the flange 30 formed at the lower end of the 21 is released.

At this time, when the locking jaw 31 is located in the cutout 34 formed between the stopper 33 and the stopper 33, the foreign matter collection container 23 can be separated from the body 19.

On the other hand, the technical information for circulating the sea water by communicating the aquarium (A) in which the filter is installed and the aquarium containing the saltwater fish is a technical content used in the art, so their detailed description is omitted.

As described above, the aquarium filter having a built-in pump according to an embodiment of the present invention, as the pump is installed inside the filter for filtering foreign substances, including the excreta discharged from the sea fish, the pump, the outside air in the tank The workability of installing the supply hose, the pump fixing bracket and the filter is improved, and the size of the water tank is reduced so that the space for installing the aquarium is not limited.

1 is a schematic view of a strainer for an aquarium according to the prior art,

Figure 2 is a perspective view of the combination of the aquarium filter is built in the pump according to an embodiment of the present invention,

3 is a partial perspective view showing the discharge means for discharging sea water from the body of the aquarium filter shown in FIG.

Figure 4 (a, b) is a state of use of the discharge means shown in Figure 3,

Figure 5 (a, b) is a use state for adjusting the air supply amount supplied to the pump shown in Figure 2,

6 is a state diagram used in the aquarium strainer is built in the pump according to an embodiment of the present invention.

* Explanation of symbols used in the main part of the drawing

11; Seawater suction line

13; Outlet

15; First space part

17; Plate

19; Body

21; Inner tube

23; Debris collector

25; outlet

27; Knob

29; cover

31; Jam

33; stopper

Claims (6)

In the aquarium filter which separates and removes the foreign matter inside the aquarium for the saltwater fish which is supplied with the seawater due to the formation of fine bubbles: The first space is formed by a first space portion in which a pump having a suction port communicating with a seawater suction pipe into which seawater is introduced and a discharge port for discharging seawater is formed, and a diaphragm having injection holes for discharging seawater discharged through the discharge port. A body consisting of a second space portion isolated from the portion; An air outlet hose coupled to the seawater suction pipe so as to communicate with each other, and supplying external air to the seawater suction pipe so as to generate air bubbles in the seawater passing through the injection hole; Removably coupled to the upper side of the body, the foreign matter collection container consisting of an inner tube and an outer tube to collect the foreign matter separated by the bubbles in the sea water injected through the injection hole; And It is coupled to open and close the outlet of the discharge pipe communicating with the first space portion, for the aquarium with a pump, characterized in that it comprises an adjustment means for varying the seawater discharged through the outlet in accordance with the rotation angle filter. The method of claim 1, wherein the adjusting means, A valve for controlling the opening area of the outlet corresponding to the angle of rotation, and integrally formed with the valve rotatably coupled to the upper portion of the discharge pipe and a knob for adjusting the opening and closing amount of the valve according to the amount of rotation Filter for the aquarium is built in, characterized in that. According to claim 2, The chamber is rotatably coupled to the upper side of the discharge pipe and the inlet side of the bubble generating hose is coupled to communicate with, rotatably coupled to the top of the chamber and supplied to the seawater suction pipe according to the amount of rotation Filter for the aquarium is built in, characterized in that it comprises a cover for adjusting the amount of external air. According to any one of claims 1 to 3, The coupling means for detachably coupling the foreign matter collector to the body, A latching jaw formed on an outer surface of the flange formed at the lower end of the inner tube and having an upper surface inclined in one direction; A stopper which is formed to face an inner surface of the flange formed at the upper end of the second space portion and the bottom surface is inclined in one direction; And a cutout formed between the stopper and the stopper adjacent to the stopper by coupling the stopper to the locking jaw to fasten the foreign matter collecting container to the body. The filter of claim 4, wherein the upper end of the inner tube of the foreign matter collection container is formed to be relatively lower than the upper end of the outer tube. The filter of claim 5, wherein at least one of the body and the foreign matter collection container is formed of a transparent body.

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