CN218515019U - Quicksand generating device for aquarium - Google Patents

Abstract

The utility model discloses a quicksand generating device for aquarium relates to the technical field of aquarium landscape architecture, including miniature pump, fixed module and filter, miniature pump includes the water outlet end, fixed module includes the base, the filter is located the one end that fixed module kept away from the base, miniature pump is located between filter and the base, still include first steering tube, second steering tube, third steering tube and fourth steering tube, be provided with the passage between third steering tube and the fourth steering tube, the passage has seted up the sand storage tank towards the one side of filter, the fourth steering tube keeps away from one end of passage and extends to the filter; one end of the pressurizing pipe is positioned in the third steering pipe, and the other end of the pressurizing pipe is positioned in the sand storage groove. Has the beneficial effects that: the existence of the pressurizing pipe enables the flow velocity of water flow to be greatly increased, and simultaneously, the generation of noise is avoided; the device can not generate bubbles, thereby avoiding the problem that sand is influenced by the bubbles and drifts around, and increasing the ornamental value.

Description

Quicksand generating device for aquarium

Technical Field

The utility model relates to a landscape making technical field of an aquarium, in particular to a quicksand generating device for the aquarium.

Background

In order to improve the ornamental value of the aquarium or the fish tank, people can place fish and shrimp in the aquarium and also can place decorative landscape creatures in the aquarium. The quicksand generating device has the effect of dynamically showing the flowing of yarn, so the quicksand generating device is widely favored by people.

Most of the prior aquarium quicksand sounding devices mainly drive sand displacement through an air pump to realize the quicksand effect. However, the air pump can generate air bubbles, and the movement direction of the sand can be uncontrollable in the rising process of the air bubbles, so that the final display effect is not beautiful enough. And the air pump can produce huge noise in the during operation, and this can cause the influence to the existence of fish shrimp in the aquarium.

Disclosure of Invention

To overcome the defects, the utility model aims to provide a quicksand generating device for an aquarium, which aims at solving the problem of poor sight of quicksand in the prior art.

In order to solve the technical problem, the technical scheme of the utility model is that:

a quicksand generating device for an aquarium comprises a micro water pump, a fixing module and a filter plate, wherein the micro water pump comprises a water outlet end, the fixing module comprises a base, the filter plate is positioned at one end, away from the base, of the fixing module, the micro water pump is positioned between the filter plate and the base, the device further comprises a first steering pipe, a second steering pipe, a third steering pipe and a fourth steering pipe, a first connecting pipe is arranged between the first steering pipe and the second steering pipe, one end of the first steering pipe is connected with the water outlet end, the other end of the first steering pipe extends towards the base, the first connecting pipe is connected with one end of the first steering pipe, and the second steering pipe is connected with one end, away from the first steering pipe, of the first connecting pipe; a second connecting pipe is arranged between the second steering pipe and the third steering pipe, one end of the second connecting pipe is in conduction connection with the second steering pipe, and the other end of the second connecting pipe is in conduction connection with the third steering pipe; a material guide pipe is arranged between the third steering pipe and the fourth steering pipe, one end of the material guide pipe is in conducting connection with the third steering pipe, the other end of the material guide pipe is in conducting connection with the fourth steering pipe, a sand storage groove is formed in one surface, facing the filter plate, of the material guide pipe, and one end, far away from the material guide pipe, of the fourth steering pipe extends towards the filter plate; still include the pressurization pipe, the one end of pressurization pipe is arranged in the third steering tube, and the other end of pressurization pipe is arranged in depositing husky groove, it has waterproof fixed glue to fill between pressurization pipe and the third steering tube.

Wherein, the one side that the filter was kept away from to the base is provided with fixed recess, fixed recess is kept away from the one side of filter by the base and is sunken to form to the filter.

The first steering pipe, the second steering pipe, the third steering pipe and the fourth steering pipe are all rubber hoses.

Wherein, first steering tube, second steering tube, third steering tube and fourth steering tube all buckle 90.

The fixed module further comprises a temporary storage platform, and the temporary storage platform is located between the sand storage groove and the filter plate.

The sand storage device comprises a sand storage tank, a hopper and a sand storage tank, wherein the hopper comprises a feeding end and a discharging end, the inner diameter of the feeding end is larger than that of the discharging end, the feeding end covers the sand storage tank, and the discharging end is located inside the sand storage tank.

And waterproof sealant is filled between the pressure pipe and the sand storage tank.

After the technical scheme is adopted, the beneficial effects of the utility model are that: firstly, the structure is simple, and the quicksand effect is realized only by combining the micro water pump with a plurality of pipelines;

secondly, the existence of the pressurizing pipe enables the flow velocity of water flow to be greatly increased and simultaneously avoids the generation of noise;

thirdly, sand falls into the sand storage tank again under the blocking of the filter plate, so that the quicksand circulation effect is realized, and the manual sand filling times are reduced;

fourthly, the device can not generate bubbles, thereby avoiding the problem that sand is influenced by the bubbles and scatters, and increasing the ornamental value.

Drawings

Fig. 1 is a structural view of a quicksand generating apparatus.

Fig. 2 is a plan view of the micro-water pump.

Fig. 3 is a front view of the micro-water pump.

Fig. 4 is a bottom view of the quicksand generating device.

Fig. 5 is a structural view of the sand reservoir.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

The directions referred to in the description are all based on the directions of the drift sand generating device for the aquarium in normal operation, the directions of the drift sand generating device in storage and transportation are not limited, and only relative position relations and absolute position relations are represented.

As shown in fig. 1-5, a quicksand generating device for an aquarium comprises a micro water pump 1, a fixing module 2 and a filter plate 3, wherein the micro water pump 1 comprises a water outlet 4, the fixing module 2 comprises a base 5, the filter plate 3 is located at one end of the fixing module 2 far from the base 5, the micro water pump 1 is located between the filter plate 3 and the base 5, the device further comprises a first steering tube 6, a second steering tube 7, a third steering tube 8 and a fourth steering tube 9, a first connecting tube 10 is arranged between the first steering tube 6 and the second steering tube 7, one end of the first steering tube 6 is connected with the water outlet 4, the other end of the first steering tube 6 extends towards the base 5, the first connecting tube 10 is connected with one end of the first steering tube 6, and the second steering tube 7 is connected with one end of the first connecting tube 10 far from the first steering tube 6; a second connecting pipe 11 is arranged between the second steering pipe 7 and the third steering pipe 8, one end of the second connecting pipe 11 is in conduction connection with the second steering pipe 7, and the other end of the second connecting pipe 11 is in conduction connection with the third steering pipe 8; a material guide pipe 12 is arranged between the third steering pipe 8 and the fourth steering pipe 9, one end of the material guide pipe 12 is in conductive connection with the third steering pipe 8, the other end of the material guide pipe 12 is in conductive connection with the fourth steering pipe 9, a sand storage groove 13 is formed in one surface, facing the filter plate 3, of the material guide pipe 12, and one end, far away from the material guide pipe 12, of the fourth steering pipe 9 extends towards the filter plate 3; the sand storage device further comprises a pressurizing pipe 14, one end of the pressurizing pipe 14 is located in the third steering pipe 8, the other end of the pressurizing pipe 14 is located in the sand storage groove 13, and waterproof fixing glue 15 is filled between the pressurizing pipe 14 and the third steering pipe 8. The working principle of the scheme is as follows: the micro-pump 1 pumps the water in the aquarium through the outlet end 4 into the first diverting tube 6. The end of the first turning tube 6 remote from the water outlet end 4 is bent towards the base 5 in order to facilitate the conduction of the water lines of the whole device. The water in the first steering pipe 6 sequentially passes through the first connecting pipe 10, the second steering pipe 7, the second connecting pipe 11 and the third steering pipe 8 and enters the material guide pipe 12. In order to facilitate the sand flowing along with the water flow, the sand storage groove is arranged on one surface of the material guiding pipe 12 facing the filter plate 3, namely, a part of the material guiding pipe 12 facing the filter plate 3 is cut off or the like, so that the inside of the material guiding pipe 12 is exposed in the aquarium, and the part is equivalent to a container and can store the flowing sand. Since sand has a certain weight, it is desirable to increase the flow rate of the water stream in order for the sand to flow with the water stream. If the water flow speed is increased by increasing the working power of the micro water pump 1, the micro water pump 1 consumes more energy, and the micro water pump 1 generates more noise. In order to avoid the above problems, the present solution adopts a method of reducing the diameter of the pipe and increasing tassel, i.e., adding the pressurizing pipe 14 between the third steering pipe 8 and the material guiding pipe 12. The pipe diameter of the pressurizing pipe 14 is far smaller than that of the guide pipe 12 and that of the third steering pipe 8, so that the flow velocity of the water flow in the third steering pipe 8 is greatly increased after passing through the pressurizing pipe 14, and the sand in the sand storage tank 13 can be driven to move along the fourth steering pipe 9. In order to avoid failure of the pressure pipe 14, it is necessary to seal the pressure pipe 14 fixedly, and for this purpose, a waterproof fixing glue 15 is filled between the pressure pipe 14 and the third steering pipe 8. Rivers drive sand and move towards filter 3 place direction along fourth steering tube 9, and when the sand was emergent from fourth steering tube 9, rivers can pass filter 3, and sand then can be blockked by filter 3. The sand blocked by the filter plate 3 falls downward under the influence of the self weight and falls into the sand storage groove 13 again, thereby realizing the dynamic effect of circulating quicksand.

In summary, the device has the following advantages: firstly, the structure is simple, and the quicksand effect is realized only by combining the micro water pump 1 with a plurality of pipelines; the existence of the pressurizing pipe 14 greatly increases the flow speed of water flow and avoids the generation of noise; thirdly, under the blocking of the filter plate 3, sand falls into the sand storage tank 13 again, so that the quicksand circulation effect is realized, and the manual sand filling times are reduced; fourthly, the device can not generate bubbles, thereby avoiding the problem that sand is influenced by the bubbles and scatters, and increasing the ornamental value.

In order to protect the pipeline circuit of the device, preferably, a fixing groove 15 is arranged on one surface of the base 5 far away from the filter plate 3, and the fixing groove 15 is formed by the surface of the base 5 far away from the filter plate 3 and sunken towards the filter plate 3. Due to the design, the first steering pipe 6, the second steering pipe 7, the third steering pipe 8, the fourth steering pipe 9, the first connecting pipe 10, the second connecting pipe 11 and the material guide pipe 12 can be embedded in the fixed module 2, and the probability of damage of each pipeline due to external force is reduced.

In the present embodiment, the first steering pipe 6, the second steering pipe 7, the third steering pipe 8, and the fourth steering pipe 9 are all rubber hoses. The rubber hose can avoid the breakage of the pipeline due to bending, and because the rubber hose has elasticity, the first connecting pipe 10, the second connecting pipe 11 and the material guide pipe 12 can all select a hard pipeline with the pipe diameter larger than that of the rubber hose, and the purpose is that the hard pipeline can be forcedly plugged into the rubber hose during connection, and the rubber hose can tightly cover the hard pipeline under the action of elasticity, so that the air tightness between the hard pipeline and the rubber hose is ensured; and secondly, the hard pipeline can play a role of supporting the rubber hose. For facilitating the laying of the pipeline, it is preferable that the first, second, third and fourth steering pipes 6, 7, 8 and 9 are all bent by 90 °.

During the process of falling, part of the sand is influenced by the water flow and falls around, and although only a small part of the sand is collected, the sand cannot be reused. So we need to collect this part of the sand, for which purpose the fixed module 2 also comprises a temporary storage platform 16, said temporary storage platform 16 being located between the sand storage tank 13 and the filter plate 3. Part of the sand which drifts randomly will fall onto the temporary storage platform 16, and when a certain amount of sand is accumulated on the temporary storage platform 16, the sand will drift towards the sand storage tank 13, so that the part of the sand is reused.

In order to increase the collection range of the sand storage tank 13, it is preferable that the sand storage tank further comprises a hopper 17, wherein the hopper 17 comprises a feeding end 18 and a discharging end 19, the inner diameter of the feeding end 18 is larger than that of the discharging end 19, the feeding end 18 covers the sand storage tank 13, and the discharging end 19 is located inside the sand storage tank 13.

In order to further increase the sealing performance, it is preferable that a waterproof sealant 20 is filled between the pressurization pipe 14 and the sand storage tank 13.

The present invention is not limited to the above specific embodiments, and those skilled in the art can make various changes without creative labor from the above conception, and all the changes fall within the protection scope of the present invention.

Claims (7)

1. The utility model provides an aquarium is with husky generating device that flows, includes micro water pump, fixed module and filter, micro water pump is including going out the water end, fixed module includes the base, the filter is located the one end that the base was kept away from to fixed module, micro water pump is located between filter and the base, its characterized in that: the steering device is characterized by further comprising a first steering pipe, a second steering pipe, a third steering pipe and a fourth steering pipe, wherein a first connecting pipe is arranged between the first steering pipe and the second steering pipe, one end of the first steering pipe is connected with the water outlet end, the other end of the first steering pipe extends towards the base, the first connecting pipe is connected with one end of the first steering pipe, and the second steering pipe is connected with one end, far away from the first steering pipe, of the first connecting pipe; a second connecting pipe is arranged between the second steering pipe and the third steering pipe, one end of the second connecting pipe is in conducting connection with the second steering pipe, and the other end of the second connecting pipe is in conducting connection with the third steering pipe; a material guide pipe is arranged between the third steering pipe and the fourth steering pipe, one end of the material guide pipe is in communication connection with the third steering pipe, the other end of the material guide pipe is in communication connection with the fourth steering pipe, a sand storage groove is formed in one surface of the material guide pipe facing the filter plate, and one end of the fourth steering pipe, far away from the material guide pipe, extends towards the filter plate; still include the pressurization pipe, the one end of pressurization pipe is arranged in the third steering tube, and the other end of pressurization pipe is arranged in depositing husky groove, it has waterproof fixed glue to fill between pressurization pipe and the third steering tube.

2. An aquarium drift sand generating device as defined in claim 1, wherein: the one side that the filter was kept away from to the base is provided with fixed recess, fixed recess is kept away from the one side of filter by the base and is sunken to form to the filter.

3. An aquarium drift sand generating device as defined in claim 1, wherein: the first steering pipe, the second steering pipe, the third steering pipe and the fourth steering pipe are all rubber hoses.

4. An aquarium drift sand generating device as defined in claim 1, wherein: the first steering pipe, the second steering pipe, the third steering pipe and the fourth steering pipe are all bent by 90 degrees.

5. An aquarium drift sand generating device as defined in claim 1, wherein: the fixed module further comprises a temporary storage platform, and the temporary storage platform is located between the sand storage groove and the filter plate.

6. An aquarium drift sand generating device as defined in claim 1, wherein: the sand storage device is characterized by further comprising a hopper, wherein the hopper comprises a feeding end and a discharging end, the inner diameter of the feeding end is larger than that of the discharging end, the feeding end covers the sand storage groove, and the discharging end is located inside the sand storage groove.

7. An aquarium drift sand generating device as defined in claim 1, wherein: waterproof sealant is filled between the pressurizing pipe and the sand storage tank.

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