CN213908028U

CN213908028U - Fish tank oxygenation device

Info

Publication number: CN213908028U
Application number: CN202021948343.8U
Authority: CN
Inventors: 李业冲
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-08
Filing date: 2020-09-08
Publication date: 2021-08-10
Anticipated expiration: 2030-09-08

Abstract

The utility model relates to a fish bowl oxygenation device, its characteristics lie in including shell, air bubble stone, suction nozzle, have seted up on the top of shell and have inlayed the dress chamber, have seted up the water conservancy diversion chamber on the chamber end in the dress chamber of inlaying, set up the inlet port that runs through the shell bottom on the chamber end in water conservancy diversion chamber, it has a plurality of support convex parts to distribute round the border all around of shell on the bottom of shell, the air bubble stone inlays the dress in inlaying the dress chamber, the suction nozzle is arranged on the bottom of shell to the one end that makes the suction nozzle docks the intercommunication with the inlet port mutually. The utility model discloses in the use, can be convenient for make the gas-supply pipe set up under the chamber bottom of fish bowl inner chamber to make the gas-supply pipe can not expose in aqueous, and make being connected of fish bowl oxygenation device and gas-supply pipe more firm, and make the fish bowl oxygenation device install the difficult condition that removes that appears in the back on the fish bowl, have equipment convenience, use the reliability high, advantage such as the practicality is good.

Description

Fish tank oxygenation device

Technical Field

The utility model relates to a fish bowl field, especially a fish bowl oxygenation device.

Background

At present, in the process of culturing fish in a fish tank, people often arrange an oxygen aeration disc in the fish tank to increase the oxygen content in the fish tank.

The side wall of the existing aeration plate is generally provided with an air inlet, when in use, an air pipe is inserted into the air inlet, and then the aeration plate connected with the air pipe is put into water in a fish tank from an opening above the fish tank.

The air delivery pipe is exposed in the water of the fish tank, so the air delivery pipe occupies the space of the inner cavity of the fish tank, hinders the swimming of fish and affects the appearance; in the using process, the connection between the gas pipe and the gas inlet is easy to be pushed by water flow to loosen, so that the gas pipe is easy to fall out of the fish tank; meanwhile, the oxygen increasing disc is only placed in the fish tank, so that the oxygen increasing disc is floated and sunk in the fish tank, and the positioning effect on the oxygen increasing disc is not achieved, so that in the using process, the position of the oxygen increasing disc is also easily pushed by water flow to change, and the oxygen in the local place in the fish tank is not uniform enough.

Therefore, in view of the above-mentioned problems with oxygen discs, improvements must be made to the discs to better facilitate their use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the above-mentioned problem and not enough, provide a fish bowl oxygenation device, this fish bowl oxygenation device can make the gas-supply pipe setting under the chamber end of fish bowl inner chamber in the use convenient to make the gas-supply pipe can not expose in aqueous, and make the fish bowl oxygenation device more firm with being connected of gas-supply pipe, and make the fish bowl oxygenation device install the difficult condition that appears removing on the fish bowl after, have advantages such as the equipment is convenient, the use reliability is high, the practicality is good.

The technical scheme of the utility model is realized like this:

the utility model provides a fish bowl oxygenation device which characterized in that includes shell, air bubble stone, suction nozzle, wherein has seted up on the top of shell and has inlayed the dress chamber, seted up the water conservancy diversion chamber on the chamber end in inlaying the dress chamber, set up the inlet port that runs through the shell bottom on the chamber end in water conservancy diversion chamber, it has a plurality of support convex parts to distribute round the border all around the shell on the bottom of shell, the air bubble stone inlays the dress in inlaying the dress chamber, the suction nozzle is arranged on the bottom of shell to make the one end of suction nozzle dock the intercommunication with the inlet port.

Preferably, the shell comprises a mounting ring cover and a base, the embedding cavity and the flow guide cavity are respectively arranged on the mounting ring cover, the supporting convex part and the air inlet hole are respectively arranged on the base, and the mounting ring cover is arranged on the base.

Preferably, a sealant is filled between the top surface of the bubbled stone and the wall of the embedding cavity.

Preferably, a reinforcing convex ring is arranged on the edge of the lower orifice of the air inlet hole.

Preferably, the bottom of the supporting convex part is provided with a groove.

Preferably, the other end of the intake nozzle is provided with a butt joint pipe which is in butt joint communication, the outer circumferential surface of the butt joint pipe is provided with a plurality of convex ring parts, the convex ring parts are arranged side by side along the axial direction of the butt joint pipe, and the diameters of the convex ring parts are gradually increased from the outer end to the inner end of the butt joint pipe.

The utility model has the advantages that: the air inlet nozzle is arranged on the bottom of the shell, so that the air delivery pipe can be conveniently arranged below the cavity bottom of the inner cavity of the fish tank, and the air delivery pipe can not be exposed in water, so that the air delivery pipe can not occupy the space of the inner cavity of the fish tank, the swimming of fish is not hindered, and the integral aesthetic property of the fish tank is improved;

after the gas pipe is arranged below the cavity bottom of the inner cavity of the fish tank, the gas pipe is not easy to be pushed by water flow in the tank, so that the connection between the gas pipe and the air inlet nozzle is not easy to be pushed by the water flow to cause loosening, and the connection reliability of the fish tank oxygenation device and the gas pipe is improved;

after the air delivery pipe is arranged below the cavity bottom of the inner cavity of the fish tank, the position of the air delivery pipe is fixed, so that after the air inlet nozzle of the fish tank oxygen increasing device is connected with the air delivery pipe, the position of the fish tank oxygen increasing device can be limited, the position of the fish tank oxygen increasing device is not easy to move under the pushing of water flow, the probability of uneven oxygen in the local part of the fish tank can be greatly reduced, the reliability of the installation and the positioning of the fish tank oxygen increasing device is improved, and the use reliability of the fish tank oxygen increasing device is improved;

in addition, through foretell structural design, can also set up the gas-supply pipe in the drain department of fish bowl, so as to conveniently make this fish bowl oxygenation device shelter from the drain of fish bowl, and in the use, through the setting that supports the convex part, can make and be formed with the blowdown clearance between the bottom of shell and the bottom of the jar of fish bowl, thereby make the filth in the fish bowl can flow into to the drain from the blowdown clearance, the discharge that had both guaranteed the filth like this is not influenced, still make the whole aesthetic property of fish bowl obtain further promotion, so this fish bowl oxygenation device's practicality is very good.

Through the arrangement of the air inlet nozzle, the air delivery pipe can be conveniently connected with the fish tank oxygenation device.

Through the arrangement of the embedding cavity, the bubble stone can be conveniently and quickly and accurately installed on the shell, and the convenience in assembling the fish tank oxygenation device is improved.

Through the setting of water conservancy diversion chamber, make the gas of following the air inlet nozzle input can better flow in to each tiny gas pocket of air bubble stone to make the bubble that comes out from the air bubble stone more closely, even, this fish bowl oxygenation device's result of use is very good, and this helps improving this fish bowl oxygenation device's use reliability.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a part of the structure of the present invention.

Fig. 3 is a schematic sectional view of the present invention.

Fig. 4 is a schematic view of the usage state of the present invention.

Detailed Description

As shown in fig. 1 and 2, a fish bowl oxygenation device, including shell 1, air bubble stone 2, suction nozzle 3, wherein, as shown in fig. 3, the embedded cavity 11 has been seted up on the top of shell 1, water conservancy diversion chamber 12 has been seted up on the chamber end in embedded cavity 11, set up the inlet port 13 that runs through shell 1 bottom on the chamber end in water conservancy diversion chamber 12, it has a plurality of support convex parts 14 to distribute round the border all around of shell 1 on the bottom of shell 1, air bubble stone 2 inlays the dress in embedded cavity 11, suction nozzle 3 arranges on the bottom of shell 1 to the one end that makes suction nozzle 3 and inlet port 13 meet the intercommunication mutually. The air inlet nozzle 3 is arranged on the bottom of the shell 1, so that the air delivery pipe can be conveniently arranged below the cavity bottom of the inner cavity of the fish tank, and the air delivery pipe can not be exposed in water, so that the air delivery pipe can not occupy the space of the inner cavity of the fish tank, the swimming of fish is not hindered, and the integral aesthetic property of the fish tank is improved; after the gas pipe is arranged below the cavity bottom of the inner cavity of the fish tank, the gas pipe is not easy to be pushed by water flow in the tank, so that the connection between the gas pipe and the air inlet nozzle is not easy to be pushed by the water flow to cause loosening, and the connection reliability of the fish tank oxygenation device and the gas pipe is improved; after the air delivery pipe is arranged below the cavity bottom of the inner cavity of the fish tank, the position of the air delivery pipe is fixed, so that after the air inlet nozzle of the fish tank oxygen increasing device is connected with the air delivery pipe, the position of the fish tank oxygen increasing device can be limited, the position of the fish tank oxygen increasing device is not easy to move under the pushing of water flow, the probability of uneven oxygen in the local part of the fish tank can be greatly reduced, the reliability of the installation and the positioning of the fish tank oxygen increasing device is improved, and the use reliability of the fish tank oxygen increasing device is improved; in addition, through foretell structural design, can also set up the gas-supply pipe in the drain department of fish bowl, so as to conveniently make this fish bowl oxygenation device shelter from the drain of fish bowl, and in the use, through the setting that supports convex part 14, can make and be formed with the blowdown clearance between the bottom of shell 1 and the jar bottom of fish bowl, thereby make the filth in the fish bowl can flow into to the drain from the blowdown clearance, the discharge that had both guaranteed the filth like this is not influenced, still make the whole aesthetic property of fish bowl obtain further promotion, so this fish bowl oxygenation device's practicality is very good. The air inlet nozzle 3 is arranged, so that the air delivery pipe can be conveniently connected with the fish tank oxygenation device. Through the arrangement of the embedding cavity 11, the air bubble stone 2 can be conveniently and quickly and accurately installed on the shell 1, which is beneficial to improving the assembly convenience of the fish tank oxygen increasing device. Through the arrangement of the flow guide cavity 12, gas input from the air inlet nozzle 3 can better flow into each fine air hole of the air bubble stone 2, so that bubbles coming out of the air bubble stone 2 can be finer and more uniform, the using effect of the fish tank oxygen increasing device is very good, and the use reliability of the fish tank oxygen increasing device is improved.

In the practical application process, the air bubble stone 2 is an air bubble stone plate, so that the top surface area of the air bubble stone 2 can be larger, the oxygen supply area of the air bubble stone 2 can be increased, and the oxygen supply amount of the air bubble stone 2 is richer.

In the practical application process, the air inlet nozzle 3 can be made of metal materials such as stainless steel, copper and the like.

As shown in fig. 2 and fig. 3, the housing 1 includes a mounting ring cover 100 and a base 200, the embedding cavity 11 and the diversion cavity 12 are respectively disposed on the mounting ring cover 100, the supporting protrusion 14 and the air inlet 13 are respectively disposed on the base 200, and the mounting ring cover 100 is covered on the base 200. Through the structural design, the fish tank oxygenation device can be conveniently assembled and disassembled.

As shown in fig. 3, a sealant 4 is filled between the top surface of the air stone 2 and the wall of the embedding cavity 11. Through the setting of sealed glue 4, can improve the leakproofness between bubbled stone 2 and the inlay dress chamber 11, avoid gaseous gap outflow between bubbled stone 2 and the dress chamber 11 to make gaseous only can follow bubbled stone 2 outflow, with the bubble of guaranteeing to come out from this fish bowl oxygenation device very closely, even, this use reliability that helps improving this fish bowl oxygenation device.

As shown in fig. 3, a reinforcing protrusion ring 131 is provided on the lower orifice edge of the air intake hole 13. Through the arrangement of the reinforcing convex ring 131, the structural strength of the lower orifice of the air inlet hole 13 can be enhanced, so that the connecting structural strength of the air inlet nozzle 3 and the air inlet hole 13 can be enhanced, the structural reliability of the fish tank oxygen increasing device is improved, and the service life of the fish tank oxygen increasing device is prolonged.

As shown in fig. 2, a groove 141 is formed on the bottom of the supporting protrusion 14. Through the structural design, the application of materials can be reduced under the condition of ensuring that the supporting convex part 14 has good structural strength, so that the manufacturing cost of the fish tank oxygenation device can be reduced.

As shown in fig. 3, the other end of the intake nozzle 3 is provided with a butt pipe 31 in butt communication, the outer circumferential surface of the butt pipe 31 is provided with a plurality of protruding ring portions 32, and the protruding ring portions 32 are arranged side by side along the axial direction of the butt pipe 31, and the diameter of the protruding ring portions 32 gradually increases from the outer end to the inner end of the butt pipe 31. The air pipe can be conveniently connected with the air inlet nozzle 3 through the arrangement of the butt joint pipe 31. Through the setting of protruding ring portion 32, make to be in the same place with the gas-supply pipe connection more fast, accurately to the pipe 31, and after connecting well, the condition that the pine takes off also is difficult for appearing to butt joint pipe 31 and gas-supply pipe.

As shown in fig. 3 and 4, in the practical application process, the fish tank 5 used in cooperation with the fish tank oxygen increasing device is respectively provided with a feeding cavity 51, a sewage discharge port 52 and a sewage discharge channel 53, one end of the air pipe 6 passes through the sewage discharge channel 53 of the fish tank 5 and then is placed in the sewage discharge port 52, the fish tank oxygen increasing device is arranged in the feeding cavity 51 of the fish tank 5 and is placed at the sewage discharge port 52, a sewage discharge gap 54 is formed between the fish tank oxygen increasing device and the cavity bottom of the feeding cavity 51 of the fish tank 5, the air inlet nozzle 3 of the fish tank oxygen increasing device is connected with the air pipe 6, and the diameter of the air inlet nozzle 3 of the fish tank oxygen increasing device is smaller than the diameter of the sewage discharge port 52.

Claims

1. An oxygenation device for a fish tank is characterized in that: including shell (1), air bubble stone (2), suction nozzle (3), wherein seted up on the top of shell (1) and inlayed dress chamber (11), set up water conservancy diversion chamber (12) on the chamber end of inlaying dress chamber (11), set up inlet port (13) that run through shell (1) bottom on the chamber end of water conservancy diversion chamber (12), it has a plurality of support convex parts (14) to distribute around the border all around of shell (1) on the bottom of shell (1), air bubble stone (2) inlay and adorn in chamber (11), suction nozzle (3) are arranged on the bottom of shell (1) to the one end that makes suction nozzle (3) and inlet port (13) communicate of pegging graft mutually.

2. The fish tank oxygenation device of claim 1, wherein: the shell (1) comprises a mounting ring cover (100) and a base (200), the embedding cavity (11) and the flow guide cavity (12) are respectively arranged on the mounting ring cover (100), the supporting convex parts (14) and the air inlet holes (13) are respectively arranged on the base (200), and the mounting ring cover (100) is covered on the base (200).

3. The oxygenation device for an aquarium according to claim 1 or 2, wherein: and a sealant (4) is filled between the top surface of the air bubble stone (2) and the wall of the embedding cavity (11).

4. The oxygenation device for an aquarium according to claim 1 or 2, wherein: a reinforcing convex ring (131) is arranged on the edge of the lower orifice of the air inlet hole (13).

5. The oxygenation device for an aquarium according to claim 1 or 2, wherein: the bottom of the supporting convex part (14) is provided with a groove (141).

6. The fish tank oxygenation device of claim 1, wherein: be equipped with butt joint pipe (31) of butt joint intercommunication on the other end of suction nozzle (3), be equipped with a plurality of protruding ring portions (32) on the outer circumferential surface of butt joint pipe (31) to make each protruding ring portion (32) arrange side by side along the axial direction of butt joint pipe (31), the diameter of protruding ring portion (32) is according to the outer end of butt joint pipe (31) to inner orientation crescent.