KR19980067547U - Aquarium Water Purifier - Google Patents

Abstract

The present invention relates to an aquarium water purifier that performs filtration, sterilization and mucus removal by the action of microorganisms and ozone. The ozone generator that generates ozone is intended to purify the aquarium water more efficiently by configuring the microorganisms to be cultured and the ozone to be put under a series of optimum conditions to simultaneously remove, sterilize and remove bubbles. (12), skimmers (5, 501) for simultaneously disinfecting and removing bubbles by vortexing ozone introduced from the ozone generator (12) together with water supplied from the aquarium (7), and pulverized coral stone The filter medium layer 3 containing 80% or more and the microbial culture layer 4 thereon have at least three or more stages of filtration stages formed at a predetermined rate to allow aerobic bacteria to be cultured, and are supplied from the skimmers 5 and 501. It comprises a filter 1 for filtering the water to be sent to the aquarium (7).

Description

Aquarium Water Purifier

The present invention relates to an aquarium water purifier (Water Purge Appliance for Aquarium) is performed by the action of microorganisms and ozone filtration and sterilization of the aquarium water including fresh water and seawater.

In the conventional aquarium, various filter media are installed in the lower part of the aquarium to filter the suspended substances suspended in the water in the aquarium to prevent water contamination and increase the water change period, or the water discharged to the outside of the aquarium by the motor pump is externally filtered. It is to be filtered by a filter installed separately in the. In terms of the filtration method, filter media such as sand, sponge, cotton, activated carbon, and coral sand are mainly used, and the filter media is a filter media containing substances suspended in water when water in an aquarium passes through the filter media, that is, fish meal waste and excreta. It adheres to or is adsorbed to, or is interposed between the particles constituting the filter medium or sandwiched in the hole of the porous filter medium. In addition, in addition to the above-described filtration, a bubble generator may be additionally installed in order to increase the amount of dissolved oxygen in the water. Recently, it has been known that sterilization or the like can be realized by adding ozone into water.

However, there is a problem that the conventional filtration method as described above does not sterilize germs that propagate in water and does not completely remove suspended solids. In other words, by using only the filter medium as it is only to filter out the visible suspended matter, and because of the remaining suspended matter in the filter medium, water contamination will continue. Also, ultimately, proteins and mucus contained in suspended solids are not removed. These components generate ammonia, nitrite, nitrate, etc. in the water and evenly block dissolved oxygen even when using a bubble generator. Therefore, if the water is not replaced at a certain point, the contamination is intensified. In addition to the mucous, fish meal residues and partial deposition of excreta, such as bacterial growth is active and the risk of death of live fish is high.

And even if ozone can be put into water to sterilize, it is only a part of sterilization of bacteria and partial removal of mucus, and if the floating material and sediment itself in the aquarium are not properly removed, ammonia, nitrite, nitrate, It is impossible to prevent the formation of substances and the propagation of harmful bacteria. Thus, especially in aquariums that use sea water as it is, if these conditions are not met simultaneously, ozone injection is only a subsequent and additional treatment of only bacteria and partial mucus removal, thus substantially preventing water contamination in the aquarium. Purifying is not fully realized.

The purpose of the present invention is to provide a more complete purification of aquarium water by configuring the microorganisms to be cultured and the ozone to be introduced under a series of optimum conditions to simultaneously remove, sterilize, and remove bubbles.

1 is an overall configuration according to an embodiment of the present invention.

2 is a partially cutaway perspective view of the filter barrel and the skimmer.

3 is a partially cutaway perspective view of a skimmer of another embodiment of the present invention.

4 is a working state thereof.

Explanation of symbols on the main parts of the drawings

1: filter barrel 2a, 2b, 2c: filter plate

3: filter medium layer 4: microorganism culture layer

5,501: Skimmer 7: Aquarium

8: ascension pipe 10, 101: entrance

11, 111: vortex induction plate 12: ozone generator

13, 131: bubble tube 14, 141: exit

15, 151: bubble outlet 16: catch water filter

17: motor pump 19: flow control valve

21: bubble discharge tank 23: non-return valve

502: Baffle side 503: Perspective window

A, B, C: filter stage Sa: reservoir

Sb: space

In order to achieve the above object, the present invention provides an ozone generator for generating ozone, a skimmer for simultaneously disinfecting and removing bubbles by vortexing ozone input from the ozone generator with water supplied from an aquarium, and crushed The filter material layer containing at least 80% of coral stones and the microbial culture layer thereon have at least three stages of filtration stages formed at a predetermined rate to allow aerobic bacteria to be cultivated, and the water supplied from the skimmer is filtered to the aquarium. It consists of a sending filter.

The filter material layer includes at least one selected from among sponges, natural sand, cotton, activated carbon, shells, shells, and volcanic stones. Coral stone is the home of aerobic bacteria and contains about 80% or more in the filter media layer, and the culture of aerobic bacteria is most effective when the ratio between the filter media layer and the non-filter layer microbial culture layer is constant. Experimental results show that it works effectively. That is, the ratio of the filter medium layer and the microbial culture layer in each filter stage is about 4: 1 to 5: 1. More preferably, a ratio of about 5: 1 was shown to be optimal for the culture of aerobic bacteria. Coral stone is not used as it is, but crushed to a constant (large volume) size is suitable for cultivating aerobic bacteria.

In addition, when the filter stage is three stages or less under the above conditions, the culture of aerobic bacteria is very weak in the microbial culture layer of each filter stage, and the bacterial culture power is activated when the stage is three or more stages.

The skimmer is installed independently of the filter barrel, and forms a vortex through the vortex forming means so that the bubbles of ozone introduced from the ozone generator can contact the water supplied through the motor pump in the aquarium.

According to the above configuration, the water flowing from the aquarium is forcibly sent to the skimmer and sterilized by the ozone introduced from the ozone generator, and discharges bubbles generated by contact with the mucus in the water flowing from the aquarium. . This sterilized and defoamed water is sent to a filter barrel. Aerobic bacteria inhabit in the filter media layer of each filter stage of the filter barrel, and aerobic bacteria culture and actively propagate in the microbial culture layer, which is a non-filter material layer. These aerobic bacteria eat the suspended substances in the water coming from the aquarium, that is, organic substances such as live manure and fish tailings and proteins in the water. Then it is fed to the aquarium.

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

Figure 1 shows an embodiment of the present invention as a whole, Figure 2 is a partially cutaway perspective view of the filter barrel and the skimmer. In the filter cylinder 1, three porous plates 2a, 2b, and 2c are provided at equal intervals vertically. Each of the porous plates 2a, 2b and 2c is bored as shown in Fig. 2, and three filtration stages are formed in the state where the three porous plates 2a, 2b and 2c are provided. . On each filter plate 2a, 2b, and 2c, a filter medium is laid and the filter medium layer 3 is formed, respectively. When the height of the filter medium layer 3 in each filter stage is a, and the height of the microorganism culture layer 4 without the filter medium is t. To be taken. The filter medium of the filter medium layer 3 is composed mainly of coral stones that are relatively largely crushed. The upper portion of the filter 1 is open, and the skimmer 5 receives the defoamed and sterilized water. And, the water filtered in the filter tank (1) is to be sent to the aquarium (7) through the hose (6), in this case, the over charge pipe (Over charge pipe) in order to prevent the overflow of the water in the filter tank (1) (6a) is installed on the upper side of the filter (1) and connected to the hose (6) to the aquarium (7). In the filter barrel 1, a rising pipe 8 for discharging the filtered water to the aquarium 7 is installed and connected to the hose 6. The lower end of this riser 8 is located in the storage space Sa formed in the lower part of the porous plate 2c.

The skimmer 5 is independently installed around the filter barrel 1. In one embodiment, it is provided on the bracket 9 welded to one side of the filter 1. The skimmer 5 has a cylindrical body and has an inlet 10 through which water enters the aquarium 7, and a vortex induction plate 11 capable of forming a vortex in the water flowing through the inlet 10. ), And bubble tubes 13 for dispersing ozone introduced from the ozone generator 12 into bubbles in the vortices generated by the vortex induction plate 11 are respectively installed in the lower part of the body, and the filter barrel 1 The outlet 14 for discharging water and the foam outlet 15 for discharging the foam are respectively provided on the upper portion of the body.

Specifically, the inlet 10 of the skimmer 5 has a motor pump 17 and a hose so that water forcibly pushed from the motor pump 17 through the catchment filtration tube 16 in the aquarium 7 flows into the lower part of the body. (18), a flow rate regulating valve (19) is provided in the hose (18) to adjust the flow rate of water. The vortex induction plate 11 is formed with a plurality of holes, and is provided laterally in the inner lower portion of the body. The bubble tube 13 is located on the vortex induction plate 11, has a circular ring shape, and a plurality of fine holes are perforated in all directions, and micro bubbles are scattered in water. Bubble tube 13 is connected to the ozone generator 12 and the hose (20). Once defoamed and sterilized water forms an outlet 14 on the upper side of the body in order to be discharged into the filter barrel 1 through the outlet (14). And the foam outlet (15) is formed in the center of the upper surface of the body is connected to the hose 22 to the bubble discharge tank 21, the foam generated in the body is the hose 22 in the foam outlet (15) It is discharged to the bubble discharge tank 21 accordingly.

In addition, in the middle of the hose 22 connected to the bubble discharge tank 21, a non-return valve 23 for feeding back the water contained in the discharged bubble into the filter container 1 is installed.

As shown in FIG. 1, the non-return valve 23 is installed so that the circular valve 24 can rotate about a central axis, and discharged so that the inflow side of the water and foam can be opened under the load of the water. The heavy side, the right side of the valve 24 is to be hung down on the locking step (25).

As the ozone generator 12, YS-1 to YS-6, BN-2 to BN40 of Nagano Bio Co., Ltd., Japan, which is a low concentration pure ozone generator used mainly for water treatment and air purification of food and various workplaces. The mold was selectively applied depending on the size of the aquarium and the capacity of the filter barrel.

Therefore, the water which flows down from the aquarium 7 to the catchment filtration tube 16 is sent to the skimmer 5 by the motor pump 17. At this time, the flow rate is performed by adjusting the flow rate control valve 19. Water introduced into the skimmer (5) includes mucus secreted from the body of live fish, protein in the water, fish tailings, feces and the like. Of course, among these suspended matters, fishmeal residues or excreta are already filtered primarily in the catchment filtration tube 16, so only relatively fine suspended matter enters. Such water is caused to vortex while passing through the hole of the vortex induction plate 11, since the bubble introduced in the bubble tube 13 is ozone introduced into the ozone generator 12 as microbubbles, the bubble is skimmer by the vortex (5) Evenly distributed within. The bacteria in the water that come in contact with the scattered bubbles are sterilized, and the mucus bubbles. The purified water is sent into the filter container 1 through the outlet 14, and the bubbles rise and are discharged into the bubble discharge tank 21 through the bubble discharge port 15. In the process of discharging this foam, the water contained in the foam is filtered through the non-return valve 23 installed in the middle of the hose 22 and discharged into the filter 1.

Water entering the filter barrel (1) contains floating suspended solids with water. These suspended substances in water are filtered by the aerobic bacteria incubated because the aerobic bacteria inhabiting the filter medium layer 3 are cultured in the microbial culture layer 4. Filtration of such suspended matter is achieved when passing through the filter medium layer 3 at the bottom of the filter barrel 1. The water collected through the lowermost filter medium layer 3 into the storage space Sa rises along the rising pipe 8 and is supplied to the aquarium 7 through the hose 6.

3 and 4 show a skimmer of another embodiment. The skimmer 501 is formed of a box-shaped body formed with a baffle surface 502 for inducing the flow direction of bubbles and bubbles on one side, and an inlet 101 through which water is introduced from the aquarium 7 is located at the bottom of the body. , The vortex induction plate 111 for forming a vortex in the water flowing through the inlet 101 is located upright in the bottom of the baffle surface 502 of the body, generating a swirl flow on the discharge side of the vortex induction plate 111 The space Sb is formed, and the bubble tube 131 for dispersing ozone introduced from the ozone generator 12 into the vortices generated by the vortex induction plate 111 is formed in the lower portion of the space Sb. Located in, the outlet 141 for discharging water to the filter barrel (1) is installed on the body side of the upper portion of the space (Sb) away from the baffle surface (502), the bubble outlet 15 for discharging the foam is at the top of the body Installed on the side of the body to check the water level inside Window 503 is installed. The skimmer 501 may be provided on either side of the filter barrel 1.

Therefore, the water introduced into the body through the inlet 101 of the skimmer 501 causes the vortex while passing through the hole of the vortex induction plate 111, and is introduced from the ozone generator 12 in the bubble pipe 131. Because ozone is scattered into the microbubbles, the bubbles are evenly distributed in the body space by the vortex. The water containing the air bubbles scattered in this way has a low pressure acting on the baffle surface 502, so that the flow velocity is increased on the baffle surface 502 side. Accordingly, the water rises along the baffle surface 502 to form a swirl flow in the space Sb as shown by the arrow of FIG. 4. The bacteria in the water that come into contact during the turn are sterilized and the mucus foams. The purified water is sent into the filtration tank 1 through the outlet 141 in a position not affected by the vortex and the swirl flow, and the bubbles rise and are discharged into the bubble discharge tank 21 through the bubble outlet 151. .

Table 1 below is an example in which bacteria sterilized by ozone were tested under predetermined microbial concentration, water temperature, and ozone concentration in water.

TABLE 1

In Table 1 above, pH is the pH of sterile brine used to dilute to a predetermined microbial concentration.

The present invention has a filtration device that is easy to cultivate and filter aerobic bacteria, and sterilize and remove mucus according to the ozone generating device. The removal of suspended substances such as mucus, protein in the water, sterilization of various bacteria, and defoaming at the same time can provide almost perfect aquarium water purification. Accordingly, even if the aquarium water, including fresh water and seawater, which is difficult to transport and change, is left unchanged for a long time, the water quality does not change, and the aquarium is easy to maintain, and the freshness of the live fish is also effective in raising fish.

Claims (3)

An ozone generator that generates ozone, a skimmer that simultaneously disinfects and removes bubbles by vortexing ozone introduced from the ozone generator with water supplied from an aquarium, and a filter material layer containing at least 80% of pulverized coral stone. And a microorganism culture layer thereon, which has at least three or more stages of filtration stages formed at a predetermined rate to allow the culture of aerobic bacteria, and filters the water supplied from the skimmer to send to the aquarium. 2. The skimmer according to claim 1, wherein the skimmer has a cylindrical body and is formed by an inlet through which water enters the aquarium, a vortex induction plate for forming a vortex in the water flowing through the inlet, and the vortex induction plate. Bubble tubes for dispersing ozone from the ozone generator into air bubbles are installed at the lower part of the body, and outlets for discharging water through the filter barrel and foam outlets for discharging bubbles are respectively installed on the upper part of the body. Aquarium water purifier made with. According to claim 1, wherein the skimmer is formed of a box-shaped body formed with a baffle surface to induce the flow direction of bubbles and bubbles on one side, the inlet through which water is introduced from the aquarium is located at the bottom of the body, the inlet through the inlet The vortex induction plate which forms a vortex in the water to be located is upright on the bottom of the baffle surface of the body, a space for generating a swirl flow on the discharge side of the vortex induction plate is formed, ozone generated in the vortex generated by the vortex induction plate A bubble tube for dispersing ozone from the device into the bubble is located in the lower part of the space, and an outlet for discharging water into the filter is installed on the side of the body above the space away from the baffle surface. The aquarium is installed on the upper side, characterized in that the viewing window is installed on the side of the body to check the water level inside Water purifier.