CN218970775U - Swimming pool cleaning device - Google Patents

Abstract

The utility model provides a swimming pool cleaning device, comprising: a cleaner body, a buoyancy unit, and a filtering unit; the buoyancy unit includes a floating battery; the floating battery is electrically connected with the cleaner main body, and the filtering unit is connected with the cleaner main body through a pipeline; the floating battery is attached with a photovoltaic power generation module. The swimming pool cleaner has the beneficial effects that the swimming pool cleaner sucks pool water from the water inlet, the pool water flows through the filter element of the cleaner and reaches the filter unit on the water surface through the flexible pipeline to be filtered, a user can observe the filter unit on the water surface at any time, and meanwhile, the influence of the filter screen blockage on the sewage suction effect of the swimming pool cleaner can be reduced.

Description

Swimming pool cleaning device

Technical Field

The utility model belongs to the technical field of solar cell water floating equipment, and particularly relates to a swimming pool cleaning device with a floating cell.

Background

When the swimming pool cleaner starts up and operates, the motor drives the impeller to rotate, so that the water inlet of the cleaner sucks pool water, the pool water is filtered through the filter box inside the swimming pool cleaner, then the water is discharged from the water outlet on the swimming pool cleaner, the swimming pool cleaner can only be cleaned inside the swimming pool cleaner, the filter screen can only be changed to be in a state of being capable of being seen after the swimming pool cleaner is disassembled, whether the filter screen is changed is determined, and if the filter screen is not changed or cleaned in time, the efficiency of cleaning a pool is greatly reduced.

In the prior art, the electric energy source of the solar floating battery is only one solar panel, when the solar floating battery meets bad weather or cloudy weather and other climates, the solar energy cannot generate electric energy, the charging equipment is not required to supply power at the moment, the length of a cable connected between the battery and the equipment cannot be adjusted, the cable length can be adjusted only by replacing the cable, and the cable requirements of different pools or different equipment can be matched.

Disclosure of Invention

The utility model aims to solve the problems that the swimming pool cleaning device with the floating battery can effectively solve the problems that pool water can only be cleaned in a swimming pool cleaning machine, and the filter screen can only be detached for replacing the filter screen to see the state of the inner filter screen, so that the filter screen can not be replaced or cleaned in time, the efficiency of cleaning a pool is greatly reduced, and the problem that solar energy can not generate electric energy and power can not be supplied to the swimming pool cleaning machine when the floating battery meets bad weather or cloudy weather and other climates is solved.

In order to solve the technical problems, the utility model adopts the following technical scheme: a pool cleaning device, comprising:

a cleaner body, a buoyancy unit, and a filtering unit;

the buoyancy unit includes a floating battery; the floating battery is electrically connected with the cleaner main body, and the filtering unit is connected with the cleaner main body through a pipeline;

the floating battery is attached with a photovoltaic power generation module.

As one specific embodiment, the floating battery is connected to the cleaner body by a cable.

As one specific embodiment, the cleaner body is provided with a first shell, a second shell which is connected with the first shell and forms a swimming pool cleaner shell, a water inlet is arranged on the second shell, and a first water outlet is arranged on the first shell;

and a filter element arranged between the first shell and the second shell, wherein the fluid is filtered through the filter element after passing through the water inlet, and then part or all of the fluid is guided into a pipeline connected with the first water outlet, the other side of the pipeline is connected with a filter unit floating on the water surface, and the fluid is filtered again.

Optionally, the filtering unit comprises a filtering shell, a filter screen arranged in the filtering shell and a water outlet arranged on any side or a plurality of sides except the pipeline side.

Optionally, the buoyancy unit is connected with the filtering unit.

Optionally, the buoyancy unit is mechanically connected to the filter unit.

Optionally, the buoyancy unit is fixedly connected or detachably connected with the filtering unit.

Optionally, the photovoltaic power generation module is at least one solar panel.

Optionally, the solar panel is disposed on the buoyancy unit outer housing or the solar energy is at least a portion of the buoyancy unit outer housing.

Optionally, the solar panel is disposed on or is at least part of the outer casing of the floating battery.

As one specific embodiment, the buoyancy unit comprises a battery case, and the battery case forms a closed space; the floating battery and the energy storage module are both positioned in the closed space.

Optionally, the filtering unit is connected with the cleaner body through a pipe.

Preferably, the filter unit is connected to the cleaner body through a flexible pipe.

Optionally, the floating battery is connected with the cleaner body through a cable.

Optionally, the floating battery is connected with the cleaner body through a cable.

Optionally, the cleaner body includes a first water outlet; the first water outlet is connected with the filtering unit through a pipeline.

Optionally, a second water outlet is further formed in the cleaner body, and part of the fluid passing through the cleaner body can flow back to the water tank through the second water outlet.

Optionally, a second water outlet is further formed in the first casing, and at least part of the fluid passing through the filtering piece can flow back into the water tank through the second water outlet.

Optionally, the floating battery comprises at least one energy storage module.

Optionally, the energy storage module is a rechargeable battery.

Optionally, the swimming pool cleaning device further comprises a power unit, wherein the power unit is positioned in the cleaner body or the filtering unit; the energy storage module supplies power for the power unit and/or the cleaner body.

Optionally, the power unit provides power for the pool cleaner body;

the power unit provides power for a portion of the fluid in the cleaner body to the filter unit.

Optionally, the swimming pool cleaning device further comprises a filter; the filter element is arranged in the cleaner body.

Optionally, the swimming pool cleaning device further comprises a control unit; the pool cleaner can be controlled by the control unit.

Optionally, the mobile device is connected with the control unit to control the swimming pool cleaner.

Optionally, the pool cleaner is in signal communication with the mobile device via the control unit.

Preferably, the swimming pool cleaner communicates with the mobile device through the control unit.

Optionally, the cleaner body includes a water inlet.

By adopting the technical scheme, the motor drives the impeller to rotate, so that the swimming pool cleaner sucks pool water from the water inlet, the pool water flows through the filter element of the cleaner and reaches the filter unit on the water surface to be filtered through the flexible pipeline, a user can observe the filter unit on the water surface at any time, and can judge when the filter screen in the filter unit needs to be cleaned more easily, and meanwhile, the influence of the filter screen blockage on the dirt sucking effect of the swimming pool cleaner can be reduced.

By adopting the technical scheme, the solar panel can convert light energy into electric energy, the electric energy is stored in the energy storage module, the energy storage module supplies power for the swimming pool cleaner, the cleaning energy is used for continuously supplying power for the swimming pool cleaner, and when the solar power supply is insufficient, the energy storage module can be connected with an external power supply for continuously supplying power for the swimming pool cleaner, and the energy storage module can save energy and ensure the normal use of the swimming pool cleaner.

Drawings

FIG. 1 is a schematic view showing the overall structure of a swimming pool cleaning device with a floating battery according to the present utility model

FIG. 2 is a schematic cross-sectional view of a pool cleaner in a pool cleaner apparatus having a floating battery in accordance with an embodiment of the present utility model

FIG. 3 is a schematic view showing a structure of a buoyancy unit variation in a swimming pool cleaning device with a floating battery according to an embodiment of the present utility model

In the figure:

101. battery housing 102, solar panel 103, and cable

200. Filter unit 301, first housing 302, second housing

303. A water inlet 304, a first water outlet 305, a second water outlet

306. Pipe 307, filter 308, impeller

Detailed Description

The utility model is further illustrated by the following examples and figures:

in the description of the embodiments of the present utility model, it should be understood that the orientation or positional relationship indicated by the terms "top", "bottom", etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description and to simplify the description, and are not indicative or implying that the apparatus or element in question must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present utility model. In the description of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

As shown in fig. 1 to 3, a swimming pool cleaning device with a floating battery, comprising: the swimming pool cleaner body comprises a first shell 301 with a first water outlet 304, a second shell 302 which is connected with the first shell 301 and forms the swimming pool cleaner shell, and a water inlet 303 is arranged on the second shell 302;

the first shell 301 is positioned at the top of the swimming pool cleaner body, the first water outlet 304 arranged on the first shell is a connecting pipeline 306, the size of the first water outlet 304 is slightly larger than or equal to that of the pipeline 306, so that the pipeline 306 is conveniently inserted into the first water outlet 304, and part or all of fluid enters the pipeline 306 and is transmitted into the filtering unit 200 connected with the pipeline 306 for secondary filtering;

the second housing 302 is positioned at the bottom of the main body of the swimming pool cleaner, the water inlet 303 is arranged on the second housing and used for entering fluid, the fluid enters the swimming pool cleaner to be filtered, the fluid in the swimming pool is sucked into the water inlet 303 through the power assembly, the power assembly comprises an impeller 308 arranged inside the swimming pool cleaner and a motor for providing power for the impeller 308, and the motor controls the impeller 308 to be opened or closed so as to control whether the fluid enters the swimming pool cleaner;

a filter 307 disposed between the first housing 301 and the second housing 302, the fluid passing through the filter 307 after passing through the water inlet 303, and then the power assembly guides part or all of the fluid into a pipe 306 connected to the first water outlet 304, the other side of the pipe 306 is connected to the filter unit 201 floating on the water surface, and the fluid is filtered again;

in some possible embodiments, the filter 307 is configured as a filter box disposed inside the pool cleaner, and the fluid entering from the water inlet 303 passes through the filter 307, is filtered for the first time, and then enters the filter unit 200 through the pipe 306, and is filtered again.

The buoyancy unit comprises a floating battery which is connected with the swimming pool cleaner through a cable 103, and at least one energy storage module is arranged in the floating battery to provide electric energy for the swimming pool cleaner; wherein the energy storage module may be configured as a rechargeable battery.

In some possible embodiments, a second water outlet 305 is further provided on the first housing 301, and a part of the fluid passing through the filter 307 can flow back into the pool through the second water outlet 305, i.e. the fluid entering the swimming pool cleaner is split into two flows, one flows into the filter unit 200 along the pipeline 306, and the other flows back into the pool along the second water outlet 305 on the first housing 301; the second delivery port 305 sets up in the one side of first delivery port 304, and the fluid that flows in the second delivery port 305 can produce a reaction force to the swimming pool cleaner, presses the swimming pool cleaner downwards to the opposite direction of play water for the swimming pool cleaner more stable climbs the wall, reduces the phenomenon that the swimming pool cleaner floats at the in-process that removes.

In some possible embodiments, one side of the filtering unit 200 is fixedly connected with the buoyancy unit, that is, the buoyancy unit is formed integrally with the filtering unit 200, so that a floater may or may not be arranged at the bottom of the filtering unit 200, and the floater in the buoyancy unit is used for floating.

One side of the filter unit 200 is detachably connected with the buoyancy unit, that is, the filter unit 200 may not be connected with the buoyancy unit, that is, the buoyancy unit and the filter unit 200 are separately arranged, so that floats must exist at the bottom of the filter unit 200, and in general, in order to ensure that the filter unit 200 stably floats on the water surface, the floats are symmetrically arranged at the bottom of the filter unit 200.

The filtering unit 200 includes a filtering case, a filtering net disposed inside the filtering case, and a water outlet disposed at any one side or several sides except the pipe side, and generally, the water outlet is disposed at the bottom of the filtering case, so that filtered fluid is conveniently returned to the water tank.

In some possible embodiments, a power assembly is disposed in the filtering unit 200, and its structure is consistent with that of the power assembly in the swimming pool cleaner, and the power assembly includes an impeller and a motor for powering the impeller, where the motor is electrically connected with a floating battery, and the motor controls the impeller to rotate to suck fluid through the pipe 306, and the fluid flows back to the water pool through the water outlet after being filtered by the filter screen, and in general, for better filtering the fluid, the impeller is disposed at the downstream of the filter screen, i.e. at the bottom of the filter screen, so that the fluid is filtered more fully by passing through the filter screen.

The floating battery includes a battery case 101 on which at least one photovoltaic power generation module is disposed; the battery shell 101 is made of light materials such as plastics, so that the phenomenon that the battery sinks due to the fact that the buoyancy of the second floater is insufficient to support the weight of the whole battery due to the fact that the whole battery is too heavy is avoided; the shape of the battery shell 101 is not limited, so that the battery shell can float and move with smaller water surface resistance, is generally circular, is hollow in the middle, and is provided with a photovoltaic power generation module at the hollow part; or the photovoltaic power generation module is laid on the surface of the photovoltaic power generation module.

The photovoltaic power generation module is laid at the outer surface of the battery case 101, i.e. the side capable of contacting sunlight, and in some possible embodiments, the photovoltaic power generation module is configured as solar panels 102, the number of solar panels 102 is not limited, and generally, the number of solar panels 102 is configured as many as possible according to the size of the case 101, so that more solar energy is converted into electric energy, and more clean energy is used.

The input end of the energy storage module is electrically connected with the photovoltaic power generation module, and can store electric energy transmitted by the photovoltaic power generation module, and the output end of the energy storage module is connected with a cable 103 for transmitting the electric energy to the swimming pool cleaner;

the energy storage module is arranged between the battery shell 101 and the cable storage bin, so that one end of the energy storage module can be connected with the external solar panel 102, the other end of the energy storage module is convenient for connecting the cable 103, the energy storage module can serve as a middle storage medium to supply power to the swimming pool cleaner, the electric energy transmitted by the solar panel 102 can be stored in advance, the energy storage module is ready for supplying power to the next swimming pool cleaner, and in some feasible embodiments, the energy storage module is configured as a rechargeable battery.

A cable storage bin for receiving cables is further arranged on one side, far away from the photovoltaic power generation module, of the battery shell 101, a cable outlet is formed in one end of the cable storage bin, and a cable 103 can extend out of the cable outlet and be connected with the swimming pool cleaner;

the cable storage bin can store redundant cables 103, and can adjust the lengths of the cables 103 according to the depths of the pools, so that the lengths of the cables 103 are more matched with the depths of different pools, the deep pools can be met, the shallow pools can be met, the cables 103 are too long and are not scattered in the pools in disorder, the use of the swimming pool cleaning machine is affected, and the swimming pool cleaning machine is stored in order through the cable storage bin.

The cable storage bin is further provided with at least one second floater which enables the whole battery to float to the water surface on one side far away from the photovoltaic power generation module, the bottom of the cable storage bin is generally symmetrically arranged on one side far away from the photovoltaic power generation module, the symmetrical arrangement enables the whole battery to float on the water surface more stably, the second floater can be arranged in four directions in the front-back and left-right directions, the risk of battery rollover can be reduced more stably while the floating is ensured, and the solar cell panel 102 is prevented from being immersed in water.

Specifically, a sealing bin for preventing water from entering is further arranged around the energy storage module to protect the energy storage module, and the sealing bin is arranged between the battery shell 101 and the cable storage bin, so that the energy storage module can be contained in the sealing bin, and the volume and the weight of the whole battery are increased to be slightly larger than those of the energy storage module due to the fact that the sealing bin is generally made of metal;

in some possible embodiments, the sealed cabin is connected with the cable 103 through a connector assembly, the connector assembly is formed by matching a connector and a connector connecting seat adapting to the connector, wherein the connector is arranged at the end of the sealed cabin or the cable 103, the connector connecting seat is arranged at the end of the sealed cabin or the cable 103 and is not on the same side with the connector, when the connector is connected with the connector connecting seat, the energy storage module is connected with the cable 103, and the electric energy in the energy storage module can be transmitted to a swimming pool cleaner with the other end connected with the cable 103; wherein the joint and the joint connecting seat are both waterproof.

A heat dissipation piece for conducting heat of the photovoltaic power generation module is arranged on one side, close to the cable storage bin, of the photovoltaic power generation module, one end of the heat dissipation piece is contacted with the photovoltaic power generation module, and the other end of the heat dissipation piece extends to the outside of the battery shell 101; wherein,,

the specific shape of the heat dissipation piece is not limited, and the heat dissipation piece can be strip-shaped, net-shaped or other shapes, and is preferably in a shape with more contact area with the solar panel 102 for fully dissipating heat, and is uniformly dissipating heat, and the shape of the contact surface of the heat dissipation piece and the solar panel 102 is generally symmetrically arranged, so that the heat dissipation of the heat dissipation piece is uniform, and the service life of the solar panel 102 is prolonged;

generally, the heat dissipation member is made of metal, one side contacting with the solar panel 102 is in a grid shape, two sides are connected with the battery shell 101, and the other side extends into water or extends to the outside of the battery shell 101, so that the heat dissipation member can contact with air and water, and can rapidly dissipate heat of the solar panel 102.

The cable storage bin comprises an upper cover connected with the battery shell 101 and a lower cover movably connected with the upper cover, the top end of the upper cover is connected with the bottom end of the battery shell 101, the size of the contact surface of the upper cover and the battery shell 101 is equal to that of the battery shell 101, and the size and shape of the contact surface are consistent with those of the battery shell 101 in general, so that the appearance of the floating battery is concise and attractive; the size and shape of the side of the upper cover far away from the battery case 101 are not limited, and are generally smaller than the battery case 101, so as to keep the floating battery from turning over, and the upper cover is arranged at the center shaft and is in a regular shape.

The size of the lower cover is consistent with the size and shape of the upper cover, the lower cover is movably connected with the upper cover, in some feasible embodiments, one side of the lower cover is rotatably connected with the upper cover, the other side of the lower cover is connected with the upper cover through a buckle, when the inspection cable 103 needs to be opened, the buckle is opened, and the other side of the lower cover is opened and closed along a hinge;

in some possible embodiments, a plurality of fixing members for winding the cable 103 around the inside of the upper cover are further provided, and may receive the surplus cable 103, and the fixing members may be fixing cylinders, which are disposed along the upper cover for a circle and have a certain distance from the edge, and the cable 103 may be wound along the fixing cylinders, and the length of the fixing cylinders is at least greater than the diameter of the cable 103 and shorter than the distance between the upper cover and the lower cover.

In some possible embodiments, a winding shaft for winding the cable 103 is arranged in the upper cover, the surface of the cable 103 is wound with the surface of the winding shaft, and the winding spring in the winding shaft can wind the redundant cable 103, so that convenience of the device is improved.

In some possible embodiments, graduations are marked on the surface of the cable 103, so that a user can know how long the cable 103 remains after being stored.

The battery shell 101 is also provided with a power interface connected with an external power supply, the power interface is electrically connected with the energy storage module and provides electric energy for the energy storage module, and the power interface penetrates through the sealing bin and is electrically connected with the energy storage module, and the joints are all subjected to waterproof treatment; the energy-saving swimming pool cleaner is connected with an external power supply to continuously supply power to the swimming pool cleaner, and when the solar power supply is insufficient, the energy saving is realized, and meanwhile, the normal use of the swimming pool cleaner can be ensured.

In some possible embodiments, the swimming pool cleaning device further comprises a control unit connected with external signals and connected with the swimming pool cleaning device in a wireless way, and the swimming pool cleaning device can be controlled to respond to external instructions, for example, the control unit can be connected with a mobile phone, and the swimming pool cleaning device connected with a floating battery, such as the swimming pool cleaning device, can be controlled to move back and forth and left and right or in what mode to clean. The controller sets up on floating battery and can better receive external command, if set up the controller on the swimming pool cleaner, then exist because water is the medium influence and receive external command, leads to receiving signal difference.

In some possible embodiments, the pool cleaner communicates wifi with the mobile device through the control unit.

The following list a few specific embodiments:

example 1

The first shell 301 is provided with a first water outlet 304, and the second shell 302 is provided with a water inlet 303; the first water outlet 304 is connected with a pipeline 306, and the other end of the pipeline 306 is connected with the filtering unit 200; the impeller 308 sucks the pool water into the pool cleaner through the water inlet 303, filters the pool water through the filter 307 inside the pool cleaner, and then the whole fluid flows into the filter unit 200 through the pipe 306, is filtered again, and flows back into the pool.

Example 2

The first shell 301 is provided with a first water outlet 304, a second water outlet 305 and a water inlet 303; the first water outlet 304 is connected with a pipeline 306, and the other end of the pipeline 306 is connected with the filtering unit 200; the impeller 308 sucks pool water into the swimming pool cleaner through the water inlet 303, after being filtered by the filter 307 inside the swimming pool cleaner, part of fluid flows into the filter unit 200 through the pipeline 306 for secondary filtration and then flows back into the pool, and the other part of fluid flows out through the second water outlet 304 at the top of the swimming pool cleaner after being filtered by the filter 307 inside the swimming pool cleaner and flows back into the pool.

The foregoing describes the embodiments of the present utility model in detail, but the description is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (19)

1. A pool cleaning device, comprising:

a cleaner body, a buoyancy unit, and a filtering unit;

the buoyancy unit includes a floating battery; the floating battery is electrically connected with the cleaner main body, and the filtering unit is connected with the cleaner main body through a pipeline;

the floating battery is attached with a photovoltaic power generation module.

2. A pool cleaning device as claimed in claim 1, wherein the buoyancy unit is coupled to the filter unit.

3. A swimming pool cleaning device as recited in claim 2, wherein the buoyancy unit is fixedly or removably coupled to the filter unit.

4. A swimming pool cleaning device according to claim 1, wherein the photovoltaic power module is at least one solar panel.

5. A swimming pool cleaning device according to claim 4, wherein the solar panel is provided on or as at least part of the buoyancy unit housing.

6. A swimming pool cleaning device according to claim 1, wherein the filter unit is connected to the cleaner body by a conduit;

the floating battery is connected with the cleaner body through a cable.

7. A swimming pool cleaning device as recited in claim 6, wherein the filter unit is coupled to the cleaner body via a flexible conduit.

8. A swimming pool cleaning device according to claim 7, wherein the filter unit comprises a filter housing, a filter screen disposed within the filter housing, and a water outlet opening on either side or sides other than the conduit side.

9. A swimming pool cleaning device according to claim 1, wherein the cleaner body comprises at least one water outlet.

10. A pool cleaning device as claimed in claim 9, wherein the cleaner body includes a first water outlet; the first water outlet is connected with the filtering unit through a pipeline.

11. A swimming pool cleaning device according to claim 1 or 9, wherein a second water outlet is provided in the main body of the cleaner through which at least part of the fluid passing through the main body of the cleaner can flow back into the pool.

12. A swimming pool cleaning device according to claim 1, wherein the floating battery comprises at least one energy storage module.

13. A swimming pool cleaning device according to claim 12, wherein the energy storage module is a rechargeable battery.

14. A pool cleaning device as claimed in claim 12 or 13, further comprising a power unit located within the cleaner body or within the filter unit; the energy storage module supplies power for the power unit and/or the cleaner main body;

the power unit provides power for the cleaner main body;

the power unit provides power for at least a portion of the fluid in the cleaner body to the filter unit.

15. A pool cleaning device as claimed in claim 1, wherein the pool cleaning device further comprises a control unit; the pool cleaner can be controlled by the control unit.

16. A pool cleaning apparatus as claimed in claim 15, wherein a mobile device is connected to the control unit for controlling the pool cleaner.

17. A pool cleaning apparatus as claimed in claim 16, wherein the pool cleaner is in signal communication with the mobile device via the control unit.

18. A pool cleaning device as claimed in claim 17, wherein: the swimming pool cleaning machine is in wifi communication with the mobile device through the control unit.

19. A pool cleaning device as claimed in claim 1, wherein the cleaner body includes a water inlet.

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