KR-200500320-Y1 - FILTERING DEVICE OF AQUARIUM

Abstract

The present invention relates to an aquarium filtration device installed inside an aquarium, comprising a main body including a filter pad storage section for storing a filter pad on the front side separated by a partition wall, a filter material cartridge storage section for storing a filter material cartridge on the rear side of the partition wall, and a submersible motor storage section provided on one side of the filter pad storage section and the filter material cartridge storage section, wherein a submersible motor is embedded therein, wherein the partition wall is formed at a height lower than the height of the submersible motor storage section, and the filter material cartridge storage section has an opening formed on the front side, and the submersible motor storage section has a plurality of slits on the lower part of the submersible motor storage section in contact with the filter material cartridge storage section, and a final water discharge slit on the upper front side. In addition, the present invention is characterized by an aquarium filtration device in which a plurality of filter material cartridges, each capable of containing filter material, can be inserted and installed in the filter material cartridge, and the filter material cartridge has an inlet formed on the upper front surface, through holes formed on both upper sides, and a plurality of slits formed on both lower sides. In addition, the present invention features an aquarium filtration device wherein the underwater motor housing is provided with a cover covering the top, a plate-shaped motor guard having a through hole into which the water outlet of the underwater motor can be inserted is disposed on the upper part of the underwater motor, a plurality of slits are formed in the motor guard, and a fluid filter material is provided on the motor guard. In addition, the present invention features an aquarium filtration device in which the height of the filter media cartridge storage unit and the filter media cartridge is lower than the height of the submersible motor storage unit. Accordingly, according to a preferred embodiment of the present invention, since all components of the filtration device are housed in a main body installed inside an aquarium, there is no problem with the external space occupied by conventional external filters or the suction and discharge pipes exposed inside and outside the aquarium, resulting in excellent aesthetics and space utilization. In addition, according to a preferred embodiment of the present invention, since each filtration device is not complexly installed inside the aquarium, it can provide advantageous effects for securing swimming space for fish and configuring the aquatic plant layout. In addition, according to a preferred embodiment of the present invention, since there is no externally connected pipe, the risk of leakage is eliminated, thereby providing high stability. In addition, according to a preferred embodiment of the present invention, there is no need to move the heavy main body during maintenance, and in particular, by configuring the filter material responsible for biological filtration in a cartridge manner that allows for easy attachment and detachment, the user can easily and quickly clean and replace the filter material.

Inventors

• 김원중

Dates

Publication Date

20260507

Application Date

20260126

Claims (4)

1. In an aquarium filtration device (10) installed inside an aquarium, A filter pad storage section (120) for storing a filter pad (200) on the front side with a partition wall (110) in between; A filter material cartridge storage section (130) for storing a filter material cartridge (300) on the rear side of the above partition (110); and A main body (100) is provided with a submersible motor storage unit (140) in which a submersible motor (400) is built, provided on one side of the filter pad storage unit (120) and the filter media cartridge storage unit (130). The above bulkhead (110) is formed at a height (h2) lower than the height (h1) of the underwater motor storage unit (140), and The above filter cartridge storage unit (130) has an opening (121) formed on the front, and The above underwater motor housing (140) is, An aquarium filtration device having a plurality of slits (141) at the bottom of the submersible motor storage part (140) in contact with the above filter material cartridge storage part (130), and a final water discharge slit (142) at the front upper part.
2. In paragraph 1, The above filter material cartridge storage unit (130) may have a plurality of filter material cartridges (300) inserted therein, each capable of containing a filter material (310) inside. The above filter cartridge (300) is an aquarium filtration device having an inlet (320) formed on the upper front side, through holes (330) formed on both upper sides, and a plurality of slits (340) formed on both lower sides.
3. In paragraph 2, The above underwater motor storage unit (140) is equipped with a cover (600) that covers the top, and A plate-shaped motor guard (500) is disposed on the upper part of the above-mentioned underwater motor (400), having a through hole (510) into which the outlet (410) of the underwater motor can be inserted. A plurality of slits (520) are formed in the motor guard (500), and An aquarium filtration device in which a fluid filter material (143) is provided on the above motor guard (500).
4. In paragraph 3, An aquarium filtration device in which the height (h3) of the filter media cartridge storage section (130) and the filter media cartridge is lower than the height (h1) of the submersible motor storage section (140).

Description

Aquarium Filtering Device {FILTERING DEVICE OF AQUARIUM} FILTERING DEVICE OF AQUARIUM The present invention relates to an aquarium filtration device, and more specifically, to a three-stage composite filtration structure installed integrally in a main body installed inside an aquarium. Generally, aquariums are equipped with filtration systems to purify the water inside the tank. The filtration system circulates water using a pump and installs filters in the circulation path to remove pollutants from the water. Filtration devices are installed inside or outside the tank, and those installed inside the tank are mainly installed on the bottom or side walls. In Korean Registered Utility Model No. 20-0355750, as illustrated in FIG. 10 of the present specification, a water purification device for a live fish aquarium composed of an upper tank, a lower tank, and a water purification tank comprises: a funnel-shaped suction device (101) for sucking up impurities and seawater from the bottom of the aquarium having a plurality of protrusions (102) formed on the bottom surface and a fastening part (103) at the top; a suction pipe (104) having a suction valve (104a) fastened to the tip of the suction device (101) and connected to a motor (105) on the other side; a suction connecting pipe (106) fastened to one side of the motor (105) for sucking up and transporting impurities and seawater into the main body (110); a main body filter (107) having a discharge port (108) with a shape in which the end is separated into multiple parts and a detachable filter screen (109) fastened to the end thereof, and on the bottom surface (110a) of the main body (110). A live fish aquarium water purification device (100) is disclosed, characterized in that a discharge pipe (114) and a carbon bed (111) are formed, a cotton for water purification (112) is placed on the upper part of the base (111), and an activated carbon (113) is placed on the upper part of the cotton for water purification (112) so as to be able to purify the sediment on the bottom surface of the upper tank (11), lower tank (12), and water purification tank (13). However, the live fish aquarium water purification device of the above Korean Registered Utility Model No. 20-0355750 has the problem that the main body must be installed outside the aquarium and the structure purifies the water in the aquarium through the suction pipe (104) and the discharge pipe (114), thereby damaging the aesthetics of the area around the aquarium, occupying a separate space, and posing a risk of leakage. Meanwhile, in the case of filtration devices installed inside aquariums, a method is mainly used in which various types of internal filter products, each performing a single function, are individually prepared and combined to be installed inside the aquarium. For example, a method in which a sponge filter, which is a filter pad connected to an air pump, is installed for primary filtration, a box-type filter driven by a separate submersible motor is installed for additional biological filtration, and furthermore, a separate fluid filter is additionally installed to maximize filtration efficiency. However, the conventional method of combining these individual independent products has the problem that the individual products, as well as the multiple pipes and wires required to operate them, are all exposed inside the aquarium, detracting from the overall aesthetic, and there is the inconvenience of having to manage each piece of equipment individually for maintenance. FIG. 1 is an overall perspective view of a filtration device according to a preferred embodiment of the present invention. FIG. 2 is an exploded perspective view of a filtration device according to a preferred embodiment of the present invention. FIG. 3 is a drawing showing the main body of a filtration device according to a preferred embodiment of the present invention. FIG. 4 is a drawing illustrating the state in which water flows in when a filter pad is mounted in a filter pad storage part in a filtration device according to a preferred embodiment of the present invention. FIG. 5 is a drawing illustrating a state in which a filter material cartridge is mounted in a filter material cartridge storage part in a filtration device according to a preferred embodiment of the present invention. FIG. 6 is a drawing illustrating a filter cartridge in a filtration device according to a preferred embodiment of the present invention. FIG. 7 is a drawing illustrating the internal water flow in a filtration device according to a preferred embodiment of the present invention. FIG. 8 is a schematic cross-sectional view illustrating the operating principle of a filtration device according to a preferred embodiment of the present invention. FIG. 9 is a drawing showing the state in which a filtration device according to a preferred embodiment of the present invention is installed inside an aquarium. FIG. 10 is a drawing of a water purification dev