CN218522361U - Swimming pool cleaning robot with ozone sterilization function - Google Patents

Abstract

The utility model discloses a swimming pool cleaning machines people who possesses ozone sterilization function, including the main part, be equipped with water storage tank, electrolytic ozone device and intercommunication water storage tank and electrolytic ozone device's water pipe in the main part, electrolytic ozone device includes anodal room and negative pole room, and the negative pole room passes through hydrogen delivery pipe intercommunication water storage tank. The swimming pool cleaning robot has an ozone sterilization function, and can sterilize water while absorbing and filtering dirt; the water storage tank is provided, so that the efficiency of preparing ozone by the electrolytic ozone device is greatly improved, the risk of blockage of the electrolytic ozone device due to impurity deposition can be eliminated, the maintenance frequency of the electrolytic ozone device is favorably reduced, and the service life of the electrolytic ozone device is prolonged. The negative electrode chamber of the electrolytic ozone device is communicated with the water storage tank through the hydrogen discharge pipe, so that the negative electrode chamber generates hydrogen to fill the space in the water storage tank, and the situation that the water storage tank can not continuously supply pure water to the electrolytic ozone device due to vacuum low pressure can be avoided.

Description

Swimming pool cleaning robot with ozone sterilization function

Technical Field

The utility model relates to a swimming pool cleaning device technical field especially relates to a swimming pool cleaning machines people who possesses ozone sterilization function.

Background

Swimming pools are places where people engage in swimming sports, and pollutants such as garbage, bacteria and the like are inevitably generated in the use of the swimming pools, so that the swimming pools need to be cleaned regularly.

Swimming pool cleaning machines people (including aquatic, underwater robot) can carry out swimming pool cleaning work, and present cleaning machines people product majority can only utilize pumping device to inhale the water of swimming pool inside the robot, then utilizes devices such as string bag or filter to filter debris such as hair, weeds, leaf, particulate matter such as small stone in the aquatic, belongs to the clean mode of physics nature, can't be effectively to all kinds of germs such as common escherichia coli, dysentery bacillus in the swimming pool aquatic clean and kill. Therefore, a special disinfectant is usually required to be manually added, the related disinfectant is mainly strong oxidants such as chloride and the like, the skin of a person is damaged during sterilization, adverse reactions such as allergy and the like are caused, and various chemical substances in water are increased due to the addition of a large amount of disinfectant, so that the swimming risk is increased. Therefore, a green and environment-friendly sterilization technology implementation mode which can kill various bacteria and viruses but does not need to add or generate harmful substances is needed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provides a swimming pool cleaning robot with ozone sterilization function.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a swimming pool cleaning machines people who possesses ozone sterilization function, includes the main part, be equipped with water storage tank, electrolysis ozone device and intercommunication in the main part the water pipe of water storage tank and electrolysis ozone device, electrolysis ozone device includes anodal room and negative pole room, the negative pole room passes through hydrogen delivery pipe intercommunication the water storage tank.

Furthermore, a filtering device is arranged in the main body, the filtering device divides an inner cavity of the main body into a first space and a second space, and a water inlet communicated with the first space and a water outlet communicated with the second space are formed in the main body; the positive electrode chamber is communicated with the second space.

Furthermore, a driving assembly is arranged on the main body and comprises a rotating piece; the positive electrode chamber is communicated with an ozone discharge pipe, and one end, far away from the positive electrode chamber, of the ozone discharge pipe is close to the rotating piece.

Further, the rotating member is a propeller or an impeller.

Further, one end, far away from the negative electrode chamber, of the hydrogen discharge pipe is close to the top of the water storage tank.

Further, the top of water storage tank is equipped with the water filling port, water filling port department is equipped with the cover, the hydrogen delivery pipe is kept away from the one end of negative pole room is located in the water filling port.

Further, still be equipped with the blast pipe on the main part, the blast pipe intercommunication water storage tank and external world.

Furthermore, both ends of the exhaust pipe are lower than one end of the hydrogen discharge pipe far away from the negative electrode chamber.

Further, the exhaust pipe is U-shaped.

Further, the water storage tank and the electrolytic ozone device are respectively arranged in the main body.

The beneficial effects of the utility model reside in that: the swimming pool cleaning robot is provided with the electrolytic ozone device, has an ozone sterilization function, and can perform ozone sterilization on a water body while dirt absorption and filtration of the swimming pool cleaning robot, so that the sterilization treatment of various bacteria is realized; the swimming pool cleaning robot does not need to use a disinfectant, does not generate any toxic and harmful substances while meeting the sterilization function, and does not interfere the use of a user on the swimming pool; moreover, the swimming pool cleaning robot is provided with a water storage tank for storing pure water, abandons the direct ozone production by utilizing water in a swimming pool and uses the pure water to electrolyze and produce ozone, so that the efficiency of the electrolytic ozone device for producing ozone is greatly improved, the risk of blockage of the electrolytic ozone device due to impurity deposition can be eliminated, the maintenance frequency of the electrolytic ozone device is favorably reduced, and the service life of the electrolytic ozone device is prolonged. The negative electrode chamber of the electrolytic ozone device is communicated with the water storage tank through the hydrogen discharge pipe, so that the negative electrode chamber generates hydrogen to fill the space in the water storage tank, the situation that the water storage tank can not continuously send pure water to the electrolytic ozone device due to vacuum low pressure can be avoided, the working stability of the electrolytic ozone device is effectively guaranteed, and hydrogen can be collected to be used for other purposes, so that the electrolytic ozone device has more economic benefits.

Drawings

Fig. 1 is a simplified schematic view of a swimming pool cleaning robot with ozone sterilization function according to a first embodiment of the present invention;

fig. 2 is a simplified schematic view of a swimming pool cleaning robot with ozone sterilization function according to the second embodiment of the present invention.

Description of reference numerals:

1. a main body; 11. a first space; 12. a second space; 13. a water inlet; 14. a water outlet;

2. a filtration device;

3. a drive assembly; 31. a rotating member; 32. a drive member;

4. a water storage tank; 41. a water injection port; 42. a can lid;

5. an electrolytic ozone device; 51. a positive electrode chamber; 511. an ozone discharge pipe; 52. a negative electrode chamber; 521. a hydrogen gas discharge pipe; 5211. a bending section;

6. a water pipe;

7. an exhaust pipe;

8. a control component;

9. a valve;

10. a gas pressure sensor.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 and 2, a swimming pool cleaning robot with ozone sterilization function comprises a main body 1, wherein the main body 1 is provided with a water storage tank 4, an electrolytic ozone device 5 and a water pipe 6 for communicating the water storage tank 4 and the electrolytic ozone device 5, the electrolytic ozone device 5 comprises a positive electrode chamber 51 and a negative electrode chamber 52, and the negative electrode chamber 52 is communicated with the water storage tank 4 through a hydrogen discharge pipe 521.

From the above description, the beneficial effects of the present invention are: the swimming pool cleaning robot is provided with the electrolytic ozone device 5, has an ozone sterilization function, and can perform ozone sterilization on a water body while dirt absorption and filtration of the swimming pool cleaning robot, so that the disinfection treatment of various bacteria is realized; the swimming pool cleaning robot does not need to use a disinfectant, does not generate any toxic and harmful substances while meeting the sterilization function, and does not interfere the use of a user on the swimming pool; moreover, this swimming pool cleaning machines people has water storage tank 4 that is used for storing the pure water, abandons the water that utilizes in the swimming pool and directly makes ozone and use the pure water electrolysis to make ozone, not only can let the efficiency that electrolytic ozone device 5 prepared ozone improve by a wide margin, can also eliminate electrolytic ozone device 5 because of the risk that impurity deposit blockked up, does benefit to and reduces electrolytic ozone device 5 and maintains the frequency, improves electrolytic ozone device 5's life. The negative electrode chamber 52 of the electrolytic ozone device 5 is communicated with the water storage tank 4 through the hydrogen discharge pipe 521, so that the negative electrode chamber 52 generates hydrogen to fill the space in the water storage tank 4, thereby not only avoiding the situation that the water storage tank 4 can not continuously supply pure water to the electrolytic ozone device 5 due to vacuum low pressure, effectively ensuring the working stability of the electrolytic ozone device 5, but also collecting hydrogen for other purposes, and having more economic benefits.

Further, a filtering device 2 is arranged in the main body 1, the filtering device 2 divides an inner cavity of the main body 1 into a first space 11 and a second space 12, and the main body 1 is provided with a water inlet 13 communicated with the first space 11 and a water outlet 14 communicated with the second space 12; the positive electrode chamber 51 communicates with the second space 12.

As can be seen from the above description, the ozone generated by the anode chamber 51 is mixed with the filtered water, so that the influence of blocking of impurities on the sterilization effect of the ozone can be avoided, and the sterilization effect of the swimming pool cleaning robot can be ensured.

Further, a driving assembly 3 is arranged on the main body 1, and the driving assembly 3 comprises a rotating member 31; the positive electrode chamber 51 is communicated with an ozone discharge pipe 511, and one end of the ozone discharge pipe 511 far away from the positive electrode chamber 51 is arranged close to the rotating member 31.

From the above description, under the action of the rotating member 31, the ozone can be fully mixed with the water after being output, so that the ozone is fully contacted with the bacteria, and the sterilization effect is further enhanced.

Further, the rotating member 31 is a propeller or an impeller.

As will be appreciated from the above description, the drive assembly 3 may be either a water jet propulsion assembly or a propeller propulsion assembly.

Further, one end of the hydrogen discharge pipe 521, which is far away from the negative electrode chamber 52, is disposed near the top of the water storage tank 4.

As can be seen from the above description, the water in the water storage tank 4 does not flow back into the negative electrode chamber 52 through the hydrogen gas discharge pipe 521, which is beneficial to ensuring the working stability of the electrolytic ozone device 5.

Further, a water injection port 41 is arranged at the top of the water storage tank 4, a tank cover 42 is arranged at the water injection port 41, and one end of the hydrogen gas discharge pipe 521, which is far away from the negative electrode chamber 52, is located in the water injection port 41.

As can be seen from the above description, when the user injects water into the water storage tank 4, the water is not easy to be injected into the hydrogen discharge pipe 521, which not only facilitates the operation of the user, but also further ensures the working stability of the ozone electrolysis device 5.

Further, still be equipped with blast pipe 7 on the main part 1, blast pipe 7 intercommunication water storage tank 4 and the external world.

As is apparent from the above description, the exhaust pipe 7 is used to exhaust the excessive hydrogen gas in the water storage tank 4.

Further, both ends of the exhaust pipe 7 are disposed lower than the end of the hydrogen discharge pipe 521 away from the negative electrode chamber 52.

As can be seen from the above description, this configuration effectively prevents the water in the pool from flowing backward into the water storage tank 4.

Further, the exhaust pipe 7 is U-shaped.

As can be seen from the above description, the U-shaped exhaust pipe 7 can further prevent the water in the swimming pool from flowing backward into the water storage tank 4.

Further, the water storage tank 4 and the electrolytic ozone device 5 are respectively arranged in the main body 1.

As can be seen from the above description, the outer casing of the main body 1 can protect the water storage tank 4 and the electrolytic ozone device 5, and the built-in water storage tank 4 and electrolytic ozone device 5 can reduce the difficulty of designing the outer shape of the main body 1.

Example one

Referring to fig. 1, a first embodiment of the present invention is: a swimming pool cleaning robot with ozone sterilization function comprises a main body 1 with an inner cavity, wherein a filtering device 2 is arranged in the main body 1, the inner cavity of the main body 1 is divided into a first space 11 and a second space 12 by the filtering device 2, and the main body 1 is provided with a water inlet 13 communicated with the first space 11 and a water outlet 14 communicated with the second space 12; the water purifier is characterized in that a driving assembly 3 is arranged on the main body 1, and the driving assembly 3 is used for driving an external water body to sequentially pass through the water inlet 13, the first space 11, the filtering device 2 and the second space 12 and be discharged from the water outlet 14 so as to push the main body 1. In this embodiment, the filtering device 2 is a filter screen, and in other embodiments, the filtering device 2 may also be in other structural forms.

Be equipped with water storage tank 4, electrolytic ozone device 5 and intercommunication on the main part 1 water pipe 6 of water storage tank 4 and electrolytic ozone device 5, electrolytic ozone device 5 is arranged in the liquid that the electrolysis comes from in water storage tank 4 in order to generate hydrogen and ozone, electrolytic ozone device 5 includes anodal room 51 and negative pole room 52, anodal room 51 generates ozone, negative pole room 52 generates hydrogen, negative pole room 52 passes through hydrogen 521 delivery pipe intercommunication water storage tank 4.

In this embodiment, pure water is stored in the water storage tank 4, and in other embodiments, other liquids for generating ozone through electrolysis may be stored in the water storage tank 4.

The ozone generated by the positive chamber 51 can be directly delivered to the first space 11 or the outside, and the first space 11 has the function of accommodating sundries and garbage, so the benefit of sterilizing and killing bacteria and viruses attached to the sundries and the garbage is not high, and in order to ensure the effectiveness of ozone sterilization and the sterilizing and killing effect, the positive chamber 51 is preferably directly communicated with the second space 12.

The driving assembly 3 comprises a driving member 32 and a rotating member 31 which are connected, and when the driving assembly 3 is a jet propulsion assembly, the rotating member 31 is a propeller; when the drive assembly 3 is a propeller type propulsion assembly, the rotary member 31 is a propeller. As a preferred embodiment, the positive electrode chamber 51 is communicated with an ozone discharge pipe 511, and one end of the ozone discharge pipe 511 far away from the positive electrode chamber 51 is arranged close to the rotating member 31.

Specifically, one side of the rotating member 31 is a water suction side, and the other side thereof is a water discharge side, and one end of the ozone discharge pipe 511 away from the positive electrode chamber 51 is located on the water suction side of the rotating member 31. Preferably, a port of an end of the ozone discharging pipe 511 remote from the positive electrode chamber 51 faces the rotary member 31. The structure can lead the ozone bubbles output from the ozone discharge pipe 511 to be better scattered by the rotating piece 31, thereby forming more sufficient contact with bacteria in the water body and being beneficial to further improving the ozone sterilization effect.

In order to prevent the liquid in the water storage tank 4 from flowing back into the hydrogen gas discharge pipe 521, the end of the hydrogen gas discharge pipe 521 far away from the negative electrode chamber 52 is close to the top of the water storage tank 4.

The top of water storage tank 4 is equipped with water filling port 41, and in order to prevent that the user from when annotating the liquid to water storage tank 4, hydrogen discharge pipe 521 is poured into to the accident, water filling port 41 department is equipped with cover 42, hydrogen discharge pipe 521 keeps away from the one end of negative pole room 52 is located in water filling port 41. More specifically, the port of the end of the hydrogen gas discharge pipe 521 remote from the negative electrode chamber 52 is flush with the opening of the water injection port 41, or the port of the end of the hydrogen gas discharge pipe 521 remote from the negative electrode chamber 52 is slightly higher/lower than the opening of the water injection port 41.

As a further modification, optionally, an end of the hydrogen gas discharge pipe 521 remote from the negative electrode chamber 52 is provided offset from the center of the water injection port 41. And/or, the end of the hydrogen discharge pipe 521 far away from the negative electrode chamber 52 has a bent part 5211, and the bent part 5211 is present so that the end of the hydrogen discharge pipe 521 far away from the negative electrode chamber 52 faces the peripheral wall of the water injection port 41 or the bottom of the water storage tank 4.

Optionally, an exhaust pipe 7 is further arranged on the main body 1, the exhaust pipe 7 is communicated with the water storage tank 4 and the outside, and the communicating part of the exhaust pipe 7 and the water storage tank 4 is close to the upper part of the water storage tank 4. In order to prevent water in the swimming pool from flowing backward into the water storage tank 4, both ends of the exhaust pipe 7 are lower than the end of the hydrogen discharge pipe 521 far away from the negative electrode chamber 52. In this embodiment, the exhaust pipe 7 is U-shaped, but in other embodiments, the exhaust pipe 7 may have other shapes.

In order to avoid the water storage tank 4 and the electrolytic ozone device 5 from causing extra resistance to the advancing of the main body 1, it is preferable that the water storage tank 4 and the electrolytic ozone device 5 are respectively arranged in the main body 1. Of course, the water storage tank 4 and the ozone electrolyzing device 5 are not necessarily disposed in the main body 1, and it is also feasible that at least a partial region of at least one of the two is exposed to the main body 1.

It will be readily understood that the water storage tank 4 may be a separate component from the housing of the main body 1 or may be a unitary structure integrally formed with the housing of the main body 1. In this embodiment, the water storage tank 4 is located above the electrolytic ozone device 5 so that the liquid in the water storage tank 4 can be smoothly transported into the electrolytic ozone device 5, and in other embodiments, a water pump may be disposed on the water pipe 6, that is, the liquid in the water storage tank 4 is pumped into the electrolytic ozone device 5 by the action of the water pump.

The main body 1 is also internally provided with a power supply and a control component 8, and the control component 8 is respectively electrically connected with the power supply, the ozone electrolysis device 5 and the driving component 3.

Example two

Referring to fig. 2, a second embodiment of the present invention is a further improvement made on the basis of the first embodiment, and the difference from the first embodiment is that: be equipped with on the blast pipe 7 with 8 electric connection's of control module valve 9, the inboard on 4 upper portions of water storage tank is equipped with gas pressure sensor 10, gas pressure sensor 10 with 8 electric connection of control module works as when gas pressure sensor 10 detects 4 interior gas pressures of water storage tank and is greater than the predetermined threshold value, control module 8 control valve 9 is opened to emit unnecessary hydrogen in the water storage tank 4.

To sum up, the swimming pool cleaning robot provided by the utility model is provided with the ozone electrolysis device, has the ozone sterilization function, and can perform ozone sterilization on the water body while the swimming pool cleaning robot absorbs and filters dirt, thereby realizing the sterilization treatment of various bacteria; the swimming pool cleaning robot does not need to use a disinfectant, does not generate any toxic and harmful substances while meeting the sterilization function, and does not interfere the use of a user on the swimming pool; moreover, this swimming pool cleaning machines people has the water storage tank that is used for storing the pure water, abandons the water that utilizes in the swimming pool and directly makes ozone and use the pure water electrolysis to make ozone, not only can let the efficiency of electrolytic ozone device preparation ozone improve by a wide margin, can also eliminate the risk that electrolytic ozone device blockked up because of impurity deposition, does benefit to and reduces electrolytic ozone device maintenance frequency, improves the life of electrolytic ozone device. The negative electrode chamber of the electrolytic ozone device is communicated with the water storage tank through the hydrogen discharge pipe, so that the negative electrode chamber generates hydrogen to fill the space in the water storage tank, the situation that the water storage tank can not continuously send pure water to the electrolytic ozone device due to vacuum low pressure can be avoided, the working stability of the electrolytic ozone device is effectively guaranteed, and hydrogen can be collected to be used for other purposes, so that the electrolytic ozone device has more economic benefits. One end that the anodal room was kept away from to ozone discharge pipe and ozone discharge pipe that are equipped with the intercommunication anodal room is close to the side setting that absorbs water of the rotating member in the drive assembly, under the effect of rotating member, can with water intensive mixing behind the ozone output to make ozone and bacterium fully contact, and then reinforcing bactericidal effect.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a swimming pool cleaning machines people that possesses ozone sterilization function, includes the main part, its characterized in that: be equipped with water storage tank, electrolytic ozone device and intercommunication in the main part the water pipe of water storage tank and electrolytic ozone device, electrolytic ozone device includes anodal room and negative pole room, the negative pole room passes through hydrogen delivery pipe intercommunication the water storage tank.

2. The swimming pool cleaning robot with ozone sterilization function according to claim 1, wherein: the main body is internally provided with a filtering device, the filtering device divides an inner cavity of the main body into a first space and a second space, and the main body is provided with a water inlet communicated with the first space and a water outlet communicated with the second space; the positive electrode chamber is communicated with the second space.

3. The swimming pool cleaning robot with ozone sterilization function according to claim 1, wherein: the main body is provided with a driving assembly, and the driving assembly comprises a rotating piece; the positive electrode chamber is communicated with an ozone discharge pipe, and one end, far away from the positive electrode chamber, of the ozone discharge pipe is close to the rotating piece.

4. The swimming pool cleaning robot with ozone sterilization function according to claim 3, wherein: the rotating member is a propeller or an impeller.

5. The swimming pool cleaning robot with ozone sterilization function according to claim 1, wherein: one end of the hydrogen discharge pipe, which is far away from the negative electrode chamber, is close to the top of the water storage tank.

6. The swimming pool cleaning robot with ozone sterilization function according to claim 5, wherein: the top of water storage tank is equipped with the water filling port, water filling port department is equipped with the cover, the hydrogen delivery pipe is kept away from the one end of negative pole room is located in the water filling port.

7. The robot of claim 5, which is capable of sterilizing with ozone, and comprises: the main body is further provided with an exhaust pipe, and the exhaust pipe is communicated with the water storage tank and the outside.

8. The swimming pool cleaning robot with ozone sterilization function according to claim 7, wherein: the two ends of the exhaust pipe are lower than one end of the hydrogen discharge pipe far away from the negative electrode chamber.

9. The swimming pool cleaning robot with ozone sterilization function according to claim 8, wherein: the exhaust pipe is U-shaped.

10. The swimming pool cleaning robot with ozone sterilization function according to claim 1, wherein: the water storage tank and the ozone electrolysis device are respectively arranged in the main body.

Images