Patent Application
20250031677
This application claims priority to Chinese Patent Application No. 202321998401.1, filed on Jul. 27, 2023, which is hereby incorporated by reference in its entirety.
The present disclosure relates to the field of fish tank cleaning technologies, and in particular, to a new type of double-layer pressurized and multi-stage cleaning fish tank cleaning water pump.
With a further development of society and an improvement of people's living standards, fish has entered the public's vision. However, large quantities of excrement and fish feed residues produced by fish will accumulate in a fish tank. If not cleaned up, the excrement and fish feed residues produced by fish will quickly deteriorate water quality, not only causing unpleasant taste, but also causing fish death, and resulting in greater damage to mental and property of fish owner. Therefore, it is necessary to regularly clean them up.
During a cleaning process of the fish tank, it is necessary to extract water from the tank and replace it with new water to maintain hygiene of the water, and a water pump is usually used to complete a pumping operation.
However, in existing technologies, a workload of replacing all water by the existing fish tank water pump is indeed relatively large. Due to a need to replace all water in the fish tank, and a difficulty in completely removing fish discharge and fish feed residue under bottom stones during water replacement, single stage filter screens are often used after three cleaning in existing technologies. Large debris can block and damage the operation of a water pump blade rotor. Water with impurities that does not pass through a clean screen will pass through a return water channel, and it is prone to clogging a water injection port of an injection pressure water chamber. All small and large debris flows to a final fine filter screen sleeve, which is prone to stacking debris in the fine filter sleeve due to too much debris, and thereby forming blockage, and it is not conducive to a practical application.
In response to the aforementioned issues in existing technology, a purpose of the present disclosure is to provide an integrated fish tank cleaning water pump, and to provide specific solutions to problems faced by leisure fish farming.
The technical solution of the present disclosure is as follows: a fish tank cleaning water pump, including a housing, where the housing has a shape of convex cover, a top of an inner wall of the housing is provided with a power cord outlet, a bottom of the housing is provided with a double-layer hood-shaped base, and a top of the double-layer hood-shaped base is provided with a water pump upper component; a top of the water pump upper component is fixedly connected to the top of the inner wall of the housing, an outer side of the double-layer hood-shaped base is fixedly connected to an outer border; a side wall of the housing with the double-layer hood-shaped base and the outer border form a sealed water injection pressure chamber; the top of the inner wall of the housing is fixedly connected to a cleaning chamber, a return water channel is provided at an isolation position between the cleaning chamber and a top of the housing; and a pressure regulating valve is provided at a water outlet position of the cleaning chamber and above the housing; the water injection pressure chamber is communicated with an interior of the return water channel.
In an embodiment of the present disclosure, the top of the double-layer hood-shaped base is fixedly connected to a water pump base, the water pump base is configured to fix the water pump, a top of an inner wall of the double-layer hood-shaped base is provided with a water pump inlet, a top of the water pump base is provided with a water pump outlet guide groove, and the inner wall of the double-layer hood-shaped base is provided with a plurality of water outlets that are communicated with an interior of the water injection pressure chamber; a bottom of the double-layer hood-shaped base is provided with a plurality of inlet recessed holes.
In an embodiment of the present disclosure, the water pump upper component includes a water pump upper housing, the water pump upper housing is fixedly connected between the top of the inner wall of the housing and the top of the water pump base, and the water pump upper housing is internally provided with a sealant sealed water pump coil, which is a water pump coil structure filled with sealant; a center of the sealant sealed water pump coil is provided with an isolation space and a water pump blade rotor; the top of the inner wall of the double-layer hood-shaped base is fixedly connected to a water blocking edge; a bottom of the cleaning chamber that is located in an interior of the water pump outlet guide groove is fixedly connected to a water outlet pipe, and a top of the water outlet pipe extends to an interior of the cleaning chamber.
In an embodiment of the present disclosure, a water flow generated by a rotation of the water pump blade rotor is greater than a total flow of the pressure regulating valve and the water outlets.
In an embodiment of the present disclosure, the bottom of the cleaning chamber is fixedly connected with a cleaning chamber inlet bushing, the cleaning chamber inlet bushing is sleeved on an outer side of the water outlet pipe, and a detachable cleaning net is provided in the cleaning chamber and above the water outlet pipe; a top of the cleaning chamber is provided with a detachable cleaning chamber top cover, and a top of the cleaning chamber top cover is fixedly connected with a cleaning chamber drainage pipe; the pressure regulating valve is fixedly connected to a top of the cleaning chamber drainage pipe; a return water through-hole configured to supply water for the water injection pressure chamber is provided at an insolation position between the top of the cleaning chamber and the top of the housing; the outer side of the double-layer hood-shaped base is provided with a plurality of return water outlets.
In an embodiment of the present disclosure, the top of the cleaning chamber top cover is fixedly connected to a fine substance filter sleeve; one side of the pressure regulating valve away from the cleaning chamber drainage pipe is located in the fine substance filter sleeve.
In an embodiment of the present disclosure, one side of the pressure regulating valve away from the cleaning chamber drainage pipe is fixedly connected to an external outlet water hose.
In an embodiment of the present disclosure, the top of the housing is fixedly connected to a wire conduit fixing base, a top of the wire conduit fixing base is fixedly connected to a bushing fastening component, and one side of the bushing fastening component away from the wire conduit fixing base is provided with a wire bushing; the wire bushing is adjusted through the bushing fastening component, and one end of the wire bushing away from the bushing fastening component is fixedly connected to a handle.
In an embodiment of the present disclosure, a waterproof rubber gasket is provided between the wire conduit fixing base and a top of the sealant sealed water pump coil, and a power cord sequentially passes through the top of the sealant sealed water pump coil, the power cord outlet, the wire conduit fixing base, and the wire bushing, extends to one side of the handle and is electrically connected to an external control device.
In an embodiment of the present disclosure, the top of the inner wall of the double-layer hood-shaped base is fixedly connected to a water pump inlet filter grid.
Compared with existing technologies, the advantages and positive effects of the present disclosure are:
Numeral reference, 1—housing; 101—power cord outlet; 102—waterproof rubber gasket; 103—wire conduit fixing base; 104—water injection pressure chamber; 2—water pump upper component; 201—sealant sealed water pump coil; 202—power cord; 203—water pump blade rotor; 204—water outlet pipe; 205—water pump upper housing; 206—water blocking edge; 3—double-layer hood-shaped base; 301—water pump base; 302—water pump inlet; 303—water pump outlet guide groove; 304—water outlet; 305—inlet recessed hole; 306—outer border; 4—cleaning chamber; 401—cleaning chamber inlet bushing; 402—detachable cleaning net; 403—return water outlet; 404—cleaning chamber top cover; 405—cleaning chamber drainage pipe; 5—pressure regulating valve; 6—fine substance filter sleeve; 7—external outlet water hose; 8—wire bushing; 9—bushing fastening component; 10—water pump inlet filter grid; 11—handle.
In order to clarify the purpose, technical solution, and advantages of the embodiments of the present disclosure, the following will provide a clear and complete description of the technical solution in the embodiments of the present disclosure in combination with the accompanying drawings. Obviously, the described embodiments are a part of the embodiments of the present disclosure, not all of them. The components of the embodiments of the present disclosure, which are typically described and shown in the accompanying drawings, can be arranged and designed in various different configurations. Therefore, the following detailed description of the embodiments of the present disclosure provided in the drawings is not intended to limit the protection scope of the present disclosure, but only to represent the selected embodiments of the present disclosure. Based on the embodiments in the present disclosure, all other embodiments obtained by those skilled in the art without creative work fall within the protection scope of the present disclosure.
The following will refer to the attached drawings and specific embodiments to further explain the present disclosure.
As shown in
In this embodiment, the top of the double-layer hood-shaped base 3 is fixedly connected to a water pump base 301, which is configured to fix the water pump. The top of the inner wall of the double-layer hood-shaped base 3 is provided with a water pump inlet 302, and a top of the water pump base 301 is provided with a water pump outlet guide groove 303. The inner wall of the double-layer hood-shaped base 3 is provided with a plurality of water outlets 304 that are communicated with an interior of the water injection pressure chamber 104. The bottom of the double-layer hood-shaped base 3 is provided with a plurality of inlet recessed holes 305. Due to a cross design of the water outlet 304 and the inlet recessed hole 305, both of which are located at the bottom of the double-layer hood-shaped base 3, which renders the bottom periphery of the double-layer hood-shaped base 3 have a denser water flow, the denser water flow is converged together to flush the excrement and fish feed residue towards a center position of the bottom of the double-layer hood-shaped base 3, and the water pump inlet 302 located at a center position of the top of the double-layer hood-shaped base 3 intercepts larger objects and more sewage is promptly sucked in by a water pump inlet filter grid 10, and thereby quickly diluting sewage impurities in the double-layer hood-shaped base 3.
In this embodiment, the water pump upper component 2 includes a water pump upper housing 205, which is fixedly connected between the top of the inner wall of the housing 1 and the top of the water pump base 301. The water pump upper housing 205 is internally provided with a sealant sealed water pump coil 201, and the sealant sealed water pump coil 201 is a water pump coil structure filled with sealant. A center of the sealant sealed water pump coil 201 is provided with an isolation space and a water pump blade rotor 203. The top of the inner wall of the double-layer hood-shaped base 3 is fixedly connected to a water blocking edge 206. A bottom of the cleaning chamber 4 that is located at an interior of the water pump outlet guide groove 303 is fixedly connected to a water outlet pipe 204, a top of the water outlet pipe 204 extends to an interior of the cleaning chamber 4. The water pump upper component 2 and the water pump base 301 at the top of inner layer of the double-layer hood-shaped base 3 form a sealed water pumping-and-pressurization system. Water enters from the water pump inlet 302, after being pressurized by the water pump, flows from the water outlet pipe 204 to the cleaning chamber 4. A periphery of the bottom of the housing 1, the double-layer hood-shaped base 3, the outer border 306, and the cleaning chamber 4 form a sealed water injection pressure chamber 104. The water that is pressurized by the water pump flows from the water outlet pipe 204 to the cleaning chamber 4.
In this embodiment, a flow rate generated by a rotation of the water pump blade rotor 203 is greater than a total flow rate of the pressure regulating valve 5 and the water outlet 304, so that the injection pressure chamber 104 has a sufficient pressure to eject the water from the pressure chamber.
In this embodiment, the bottom of the cleaning chamber 4 is fixedly connected with a cleaning chamber inlet bushing 401, which is sleeved at an outer side of the water outlet pipe 204. A detachable cleaning net 402 is provided in the cleaning chamber 4 and above the water outlet pipe 204. A top of the cleaning chamber 4 is provided with a detachable cleaning chamber top cover 404. A top of the cleaning chamber top cover 404 is fixedly connected with a cleaning chamber drainage pipe 405. A pressure regulating valve 5 is fixedly connected to a top of the cleaning chamber drainage pipe 405, and a return water through-hole configured to supply water to the water injection pressure chamber 104 is provided at an isolation position between the top of the cleaning chamber 4 and the top of the housing 1. A plurality of return water outlets 403 are provided on an outer side of the double-layer hood-shaped base 3, water enters from the water pump inlet 302, is pressurized by the water pump, and reaches to the cleaning chamber 4 through the water outlet pipe 204. After being filtered by the detachable cleaning net 402, a part of clean water flows back from the water return channel to the water injection pressure chamber 104 and is ejected through the water outlet 304, and impurities are then deposited in the cleaning chamber 4 by gravity.
In this embodiment, the top of the cleaning chamber top cover 404 is fixedly connected to a fine substance filter sleeve 6. One end of the pressure regulating valve 5, which is far away from the cleaning chamber drainage pipe 405, is located in the fine substance filter sleeve 6. A part of clean water flows through the pressure regulating valve 5 of the cleaning chamber drainage pipe 405 to the fine substance filter sleeve 6, and after cleaning, it flows into the fish tank or is discharged outside the fish tank through an external outlet water hose 7.
In this embodiment, the top of the housing 1 is fixedly connected to a wire conduit fixing base 103, and a top of the wire conduit fixing base 103 is fixedly connected to a bushing fastening component 9. One side of the bushing fastening component 9 away from the wire conduit fixing base 103 is provided with a wire bushing 8, which is adjusted through the bushing fastening component 9. One end of the wire bushing 8 away from the bushing fastening component 9 is fixedly connected to a handle, which is convenient to adjust a distance between the handle and the housing 1, and it is convenient to use and adapt to different operators.
In this embodiment, a waterproof rubber gasket 102 is provided between the wire conduit fixing base 103 and a top of the sealant sealed water pump coil 201, which facilitates a passage of the power cord 202 so as to prevent water leakage in the pressure chamber. A power cord 202 sequentially passes through the top of the sealant sealed water pump coil 201, the power cord outlet 101, the wire conduit fixing base 103, and the wire bushing 8, extends to one end of the handle, and is electrically connected to an external control device, thereby providing a drive for the water pump blade rotor 203.
The top of the inner wall of the double-layer hood-shaped base 3 is fixedly connected to a water pump inlet filter grid 10, which is configured to intercept large objects from entering the water pump blade rotor 203.
Where, there are three levels filtering.
First level filtering: the water pump inlet filter grid, which blocks large hard objects with a diameter of more than 3 mm (preventing damage to the water pump blade rotor).
Second level filtering: cleaning net, there are a plurality of types of cleaning nets. Replacing cleaning nets with different specifications can achieve filtering of material with different sizes. Water before the return water channel can be cleaned so as to prevent debris from blocking the water outlet of the water injection pressure chamber.
Third level filtering: fine substance filter sleeve: which cleans the water from the cleaning chamber again to meet higher standards of cleaning requirements.
As shown in
As shown in
Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present disclosure, and not to limit it; although detailed explanations have been provided for the present disclosure with reference to the aforementioned embodiments, those skilled in the art should understand that it is still possible to modify the technical solution recorded in the aforementioned embodiments, or to equivalently substitute some or all of the technical features therein; these modifications or substitutions do not render the essence of the corresponding technical solutions deviate from the scope of the technical solutions of each embodiment of the present disclosure.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202321998401.1 | Jul 2023 | CN | national |
