KR101871457B1 - Aquarium with movable filter - Google Patents

Abstract

The present invention relates to an aquarium with a mobile filter. The aquarium including the mobile filter according to the present invention includes a water tank in which a transmission resonance unit connected to an AC power source is provided on a bottom surface, at least one first magnetic substance is disposed around the transmission resonance unit, And a floating buoyancy body including a second magnetic body and a reception resonance unit connected to the filter and receiving the wirelessly transmitted power from the transmission resonance unit The first magnetic body is magnetized by the magnetic field generated by the transmission resonance part in response to the AC power, and the transmission resonance part and the second resonance part are magnetized. A magnetic force pulling the second magnetic body is generated in response to the magnetic field of the first magnetic body and the magnitude of the magnetic force pulled out is made relatively larger than the buoyancy force of the swinging body to move the swinging body down, The strength of the lagging magnetic force is made relatively smaller than the buoyancy force of the floating buoyant body to move the floating buoyant body upward in the water of the water tank . According to the present invention, the filter inside the aquarium can be operated by radio, the filter can be freely moved inside the aquarium, the risk of electric shock due to the conventional connection of the wire can be prevented, It has an advantage that the filtration can be uniformly performed as a whole.

Description

Aquarium with movable filter < RTI ID = 0.0 >

The present invention relates to an aquarium, and more particularly, to an aquarium having a movable filter capable of operating and moving a filter inside the aquarium wirelessly and filtering the water inside the aquarium in a uniform manner as a whole.

Generally, aquariums are equipped with various accessories depending on their use. A filter is one of them. The filter installed in the aquarium filters the water in the aquarium by sucking the water filled in the aquarium and sending it out through the filter. As such, the filter needs to be powered (energy) because it must undergo the process of sucking, filtering and discharging water. To provide such power (energy), a filter is usually connected to a power line to provide power by supplying electric power. However, there is a danger of electric shock and there is a difficulty in managing it by connecting the filter inside the aquarium with the electric wire.

In addition, a conventional filter is generally fixedly installed in an aquarium, and if the filter is fixed at a specific position of the aquarium, there is a problem that water in the entire aquarium is not uniformly filtered.

On the other hand, Korean Patent Registration No. 10-1156799 (Patent Document 1) discloses an aquarium having a filtration function. The aquarium having a filtration function according to the present invention has an inner space of the aquarium 100 having a certain shape A porous horizontal partition 30 horizontally partitioned into a culture zone 10 of the upper layer and a filtration zone 11 of the lower layer and a bottom 12 on the upper surface thereof; And a filtration unit 40 installed at a predetermined portion of the horizontal partition 30 and having a filtration filter 43 to suck and filter the water in the culture zone 10 and discharge the water in the filtration zone 11 And the horizontal partition 30 includes a plate-shaped horizontal plate 31 having perforations and a horizontal direction to the lower surface of the aquarium 100; A plurality of supports (32) having a predetermined height and provided at a predetermined portion of the lower outer periphery of the horizontal plate (31); And a side plate 33 to which both ends of the side are fastened between one support base 32 adjacent to the other and the other support base 32. The horizontal plate 31, the support base 32, and the side plate 33 A plurality of horizontal partitioning units 30-1 including a plurality of horizontal partitioning units 30-1 are arranged in the horizontal direction.

In the case of Patent Document 1 as described above, as the filtration apparatus, the water filtered by the pollutants is allowed to move upward from the bottom of the bottom material such as sand or functional material stacked on the upper surface of the horizontal partition through the perforations of the horizontal partition, It may be effective to flood the pollutants concentrated between the flooring granules with the water in the formative zone and to suck the water containing the floating pollutants back into the filtration device so that the pollutants can be filtered, There is a risk of electric shock because the whole structure is complicated and it is difficult to install and maintain / manage and electric wires are connected to the inside of the aquarium so as to supply power to the motor of the pump 45 installed in the filtration device 40 And the filtration device 40 having the filtration filter 43 are fixed at specific positions of the aquarium, Uniformly filtered and are subject to difficult problems.

Korean Registered Patent No. 10-1156799 (registered on June 6, 2012)

The present invention has been made in view of the above considerations in a comprehensive manner. The present invention is not only capable of operating the filter in the aquarium wirelessly, but also moving it so that the risk of electric shock due to the conventional wire connection can be prevented, The present invention provides an aquarium comprising a mobile filter capable of evenly filtering the water of the entire aquarium.

In order to achieve the above-mentioned object, an aquarium comprising a mobile filter according to the present invention comprises:

A water tank in which a transmission resonance unit connected to an AC power source is provided on a bottom surface, at least one first magnetic body is disposed around the transmission resonance unit, and water is filled in the transmission resonance unit;

And a second magnetic body that is connected to the filter and that receives the power transmitted from the transmission transmission unit, and a second magnetic body that is connected to the filter and that receives the power wirelessly transmitted from the transmission resonance unit, Lt; / RTI >

Wherein the first resonant portion is magnetized by a magnetic field generated by the transmission resonant portion in response to the AC power supply, A magnetic force generated by pulling the second magnetic body in response to the magnetic field of the transmission resonance unit and the first magnetic body is generated and the intensity of the magnetic force pulled is made relatively larger than the buoyancy force of the floating body, The buoyant body is moved downward and the strength of the magnetic force to be pulled is made smaller than the buoyancy force of the swimmer buoyancy body to move the swimmer buoyancy body upward in the water of the water bath.

Here, the floating buoyant body preferably has a fish shape.

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In addition, at least one side surface of the water tank may be provided with an electromagnet for moving the floating body in the longitudinal direction.

A first repeater having a coil for relaying self resonance between the transmission resonance unit and the reception resonance unit may be installed on one side of the water tank.

A second repeater may also be disposed between the transmission resonance unit and the reception resonance unit, the second repeater including a coil for relaying self-resonance.

In addition, at least one of a temperature controller, a lighting device, and a bubble generator having a reception resonance part may be installed in the water tank.

In addition, the temperature controller, the lighting device, and the bubble generator may have a specific gravity relatively lower than that of water in the water tank, and may each include a magnetic body.

In addition, at least one pump may be installed on the lower surface of the water tank to float the floated floating body smoothly to the water surface.

In addition, at least one pump for allowing the floating buoyant body to move smoothly in water may be installed in the floating buoyant body.

According to the present invention, not only the filter inside the aquarium can be operated wirelessly by supplying electric power to the filter inside the aquarium using the wireless power transmission system, but also the filter can be freely moved inside the aquarium, The risk of electric shock due to the connection can be prevented, and the water inside the aquarium can be filtered uniformly as a whole.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an embodiment of an overall configuration of an aquarium having a mobile filter according to the present invention. FIG.
FIG. 2 is a view showing a state where a repeater, a temperature controller, a bubble generator, a pump, a controller, and the like are further installed in an aquarium having the mobile filter shown in FIG.
FIG. 3 is a view illustrating a power supply concept for device elements of an aquarium having a mobile filter shown in FIG. 2. FIG.
FIG. 4 is a view showing a configuration of a floating buoyant body of aquarium having a mobile filter according to an embodiment of the present invention.
FIG. 5 is a view showing another embodiment of the structure of a floating buoyant body of aquarium having a mobile filter according to the present invention.
FIG. 6 is a view showing an example in which a plate-like magnetic body is installed below a transmission resonance part in an aquarium with a mobile filter according to the present invention.
7 is a view showing an embodiment of the configuration of a lighting apparatus employed in an aquarium having a mobile filter according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor can properly define the concept of the term to describe its invention in the best way Should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Throughout the specification, when an element is referred to as being "comprising" or "comprising" an element, it is meant that the element may include other elements, . Also, the terms " part, "" module, "and" device " Lt; / RTI >

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

FIG. 1 is a perspective view of an aquarium according to an embodiment of the present invention. FIG. 2 is a sectional view of a mobile filter shown in FIG. A temperature controller, a bubble generator, a pump, and a controller are further installed in the aquarium, and FIG. 3 is a diagram illustrating a concept of power supply to the device elements of an aquarium.

1 to 3, an aquarium 100 including a mobile filter according to the present invention wirelessly supplies electric power from a power transmitting side to a power receiving side using a wireless power transmission scheme, And is largely constituted by including a water tank 110 and a swimming buoyant body 120. [ Here, the wireless power transmission is described in the "wireless lighting aquarium " filed by the same applicant as the present applicant, and therefore, a description thereof will be omitted here.

The water tub 110 has a transmission resonance unit 111 connected to an external AC power source on the bottom surface thereof and at least one first magnetic body 113 is disposed around the transmission resonance unit 111, 105) is filled. The water tank 110 may be made of transparent glass or synthetic resin.

The floating body 120 is made of a material having a specific gravity lower than that of the water 105 of the water tub 110. As shown in FIG. 4, the floating body 120 includes a filter 120f for filtering contaminants in the water, a filter 120f electrically connected to the filter 120f, (Reception resonant coil) 120c and a second magnetic body 120m for receiving the radio-transmitted power from the antenna 111 and the second magnetic body 120m. Here, the floating buoyant body 120 may be made of polyurethane, silicone, or the like.

In addition, as shown in FIG. 5, the swinging body 120 may be configured such that a receiving resonant portion (receiving resonant coil) 120c is formed of a cylindrical body having closely wound coils.

The aquarium 100 including the mobile filter according to the present invention having the above-described structure wirelessly transmits electric power from the transmission resonance unit 111 to the reception resonance unit 120c, And the first magnetic body 113 is magnetized by a magnetic field generated by the transmission resonance unit 111 in response to the AC power supply and the magnetic field generated by the transmission resonance unit 111 and the first magnetic body 113 A magnetic force generated by pulling the second magnetic body 120m in response to a magnetic field is generated and the magnitude of the magnetic force pulled is made relatively larger than the buoyancy force of the swivel buoyant body 120, And the force of the magnetic force to be pulled is made smaller than the buoyancy force of the swimmer 120 so that the swimmer 120 can be moved upward in the water of the water bath .

Here, if the buoyant force of the buoyant buoyant body 120 is reduced, the buoyant buoyant body 120 can be moved up and down in water with a small magnetic force. At this time, it is preferable that the transmission resonance coil of the transmission resonance unit 111 and the reception resonance coil of the reception resonance unit 120c are positioned in parallel so as to face each other. This is to maximize the efficiency of self resonance between the transmission resonance coil and the reception resonance coil.

As described above, in the aquarium 100 provided with the mobile filter according to the present invention as described above, around the transmission resonance section 111, a magnetic field generated by the transmission resonance section 111 causes magnetization The first magnetic body 113 may be disposed. In order to allow the transmission resonance unit 111 side to have a stronger magnetic force by using the principle of the electromagnet, it is preferable that the transmission resonance unit 111 does not contact the coil, The first magnetic body 113 can be disposed, and preferably, the first magnetic body 113 is arranged on the side where the coil can be guided. Here, the second magnetic body 120m of the floating body 120 and the first magnetic body 113 of the transmission resonance part 111 are all magnetized by a magnetic field and disappear when the magnetic field disappears. As shown in FIG. 2, the first magnetic body 113 may include a plurality of first magnetic bodies 113 having a predetermined size around the coil of the transmission resonance unit 111, As shown in FIG. 6, in the form of a single integrated plate-like first magnetic body 113p disposed under the coil of the transmission resonance unit 111 (that is, in the form of a flat plate-like first magnetic body 113p) And a coil of the transmission resonance unit 111 is installed in the antenna.

In addition, an electromagnet (not shown) may be installed on at least one side of the water tub 110 to move the floating body 120 in the forward, backward, and leftward directions. That is, the swinging body 120 can be moved forward, backward, leftward or rightward through the repetitive operation that the electromagnet provided on the side surface of the water tub 110 has magnetic property and is lost.

A first repeater 115 having a coil for relaying self resonance between the transmission resonance unit 111 and the reception resonance unit 120c may be installed on one side of the water tub 110. [

A second repeater 114 having a coil for relaying self-resonance may be further disposed between the transmission resonance unit 111 and the reception resonance unit 120c. The second repeater 114 may be disposed in parallel with the resonance coil of the transmission resonance unit 111, but may be inclined at a predetermined angle with respect to the resonance coil of the transmission resonance unit 111. When arranged in such a manner as to be inclined, the degree of freedom of arrangement of the reception resonance coil of the reception resonance section 120c can be increased.

In addition, at least one of a temperature controller 116, a lighting device 117, and a bubble generator 118 having a reception resonance part may be installed in the water tub 110. In this case, power can be received by the transmission resonance unit 111 regardless of the direction of the resonance coil of the reception resonance unit of the devices. However, when the first and second repeaters 115 and 114 are installed, Lt; RTI ID = 0.0 > range. ≪ / RTI >

The temperature controller 116, the illuminator 117 and the bubble generator 118 have a specific gravity relatively lower than that of the water 105 of the water tub 110 and may include magnetic bodies, respectively. The temperature controller 116, the lighting device 117 and the bubble generator 118 have a specific gravity lower than that of water. By providing the magnetic body in this manner, the temperature controller 116, the bubble generator 118, and the bubble generator 118 can be moved inside the aquarium .

7, the illumination device 117 includes a light emitting portion 117a for providing illumination to the water tub 110, a reception resonance portion 117b electrically connected to the light emitting portion 117a, And a magnetic body 117c which is magnetized in response to a magnetic field generated by the transmission resonance unit 111. Here, the light emitting unit 117a may include one color or a plurality of LEDs of different colors.

In addition, at least one pump 119 may be installed on the lower surface of the water tub 110 to smoothly float the floating swimming body 120 to the water surface. Here, we will try to explain in detail in this regard.

In order to move the floating buoyant body 120 with a small magnetic force, the floating buoyancy of the floating buoyant body 120 must be reduced. In this case, the floating buoyant body 120 descending down due to the weak magnetic field moves back to the water surface It may be difficult. In this case, the pump 119 installed at the lower part of the aquarium is operated and pumped in the upward direction, so that the floating body 120 can be moved from the lower part to the upper water surface. At this time, of course, the pump 119 may be operated in a direction other than the upward direction to move the floating buoyant body 120 in another direction.

At least one pump may be installed in the floating buoyant body 120 to allow the floating buoyant body 120 to move smoothly in water. This is the same principle as the operation of the pump 119 installed in the lower part of the aquarium (the water tank) described above. The pump installed in the floating body 120 can be connected to the reception resonance coil and operated. In addition, when a battery that can be charged by the reception resonance coil is provided inside the swing body 120, it may be operated by the battery.

As described above, the aquarium including the mobile filter according to the present invention not only operates the filter in the aquarium wirelessly by supplying electric power to the filter inside the aquarium using the wireless power transmission system, There is an advantage that it can move freely.

In addition, by supplying electric power using the wireless power transmission system, it is possible to prevent the danger of electric shock due to the conventional wire connection, and to freely move the filter inside the aquarium, There are advantages.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the spirit and scope of the invention. Be clear to the technician. Accordingly, the true scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the same should be construed as being included in the scope of the present invention.

100: (invention) an aquarium with a mobile filter
110: water tub 111: transmission resonance part
112: controller 113: first magnetic body
114: second repeater 115: first repeater
116: Temperature regulator 117: Lighting device
117a: light emitting portion 117b: receiving resonance portion
117c: magnetic substance 118: bubble generator
119: Pump 120: Floating buoyant body
120c: receiving resonance part 120f: filter
120m: second magnetic body

Claims (10)

A water tank in which a transmission resonance unit connected to an AC power source is provided on a bottom surface, at least one first magnetic body is disposed around the transmission resonance unit, and water is filled in the transmission resonance unit;
And a second magnetic body that is connected to the filter and that receives the power transmitted from the transmission transmission unit, and a second magnetic body that is connected to the filter and that receives the power wirelessly transmitted from the transmission resonance unit. Lt; / RTI >
Wherein the first resonant portion is magnetized by a magnetic field generated by the transmission resonant portion in response to the AC power supply, A magnetic force generated by pulling the second magnetic body in response to the magnetic field of the transmission resonance unit and the first magnetic body is generated and the intensity of the magnetic force pulled is made relatively larger than the buoyancy force of the floating body, And a movable filter for moving the buoyant body downward and making the strength of the magnetic force to be pulled relatively smaller than the buoyancy force of the swimmer buoyant body to move the swimmer buoyant body upward in the water of the water bath.
The method according to claim 1,
Wherein the floating buoyant body is of fish-like shape.
delete The method according to claim 1,
Wherein at least one side of the water tank is provided with an electromagnet for moving the floating body in the front, rear, and left directions.
The method according to claim 1,
Wherein a first repeater having a coil for relaying self-resonance between the transmission resonance unit and the reception resonance unit is installed on one side of the water tank.
The method according to claim 1,
And a second repeater including a coil for relaying self-resonance is disposed between the transmission resonance unit and the reception resonance unit.
The method according to claim 1,
Wherein at least one of a temperature regulator, a lighting device, and a bubble generator having a reception resonance part is installed in the inside of the water tank.
8. The method of claim 7,
Wherein the temperature regulator, the illumination device, and the bubble generator have a specific gravity relatively lower than that of the water in the water tank, and each of the temperature regulator, the illumination device, and the bubble generator has a magnetic body.
The method according to claim 1,
Wherein at least one pump is provided on the lower surface of the water tank to smoothly float the floated buoyant water immersed in the water to the water surface.
The method according to claim 1,
Wherein at least one pump for moving the floating buoyant body smoothly in water is installed in the floating buoyant body.

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