CN220192922U - Cleaning base station, integrated box and cleaning equipment - Google Patents

Abstract

The application discloses a cleaning base station, an integrated box and cleaning equipment, wherein the cleaning base station at least comprises a main body and an integrated box, the main body is provided with a liquid storage cavity and a pipeline piece, and the liquid storage cavity is used for containing liquid; the integrated box is positioned in the liquid storage cavity and is provided with a first cavity and a second cavity, and the outer wall of the integrated box is provided with a water passing hole, a filtering hole and a water outlet hole; the first cavity is internally provided with slow-release sterilization particles, the first cavity is communicated with the liquid storage cavity through a water passing hole, and sterilization ions released by the slow-release sterilization particles diffuse to the liquid storage cavity through the water passing hole; the second cavity is communicated with the liquid storage cavity through the filtering hole, the first filtering piece is covered on the filtering hole, and the second cavity is communicated with the pipeline piece through the water outlet hole, so that the pipeline piece sequentially passes through the water outlet hole, the second cavity and the first filtering piece to extract the liquid containing sterilizing ions. According to the technical scheme, the existing filtering piece and the silver ion module can be integrated into a whole, so that the production cost is reduced, and the installation steps are simplified.

Description

Cleaning base station, integrated box and cleaning equipment

Technical Field

The application relates to the technical field of cleaning, in particular to a cleaning base station, an integrated box and cleaning equipment.

Background

The silver ion module and the filter element are generally arranged in the liquid storage cavity of the existing cleaning base station, the silver ion module is used for sterilizing and disinfecting liquid in the liquid storage cavity, and the filter element is used for filtering impurities so as to ensure the quality of water discharged from the liquid storage cavity.

However, the existing filter element and silver ion module are two independent components, which also means that the filter element and silver ion module need to be produced respectively, the production cost is high, and users need to install the filter element and silver ion module respectively when using the filter element and silver ion module, the installation process is complex, and the use experience of the users is affected.

Disclosure of Invention

The utility model aims at providing a clean basic station, integrated box and cleaning equipment can be with filter and silver ion module integration as an organic whole, reduction in production cost, simplify the installation step.

To achieve the above object, in one aspect, the present application provides a cleaning base station, which includes at least a main body and an integrated box, wherein the main body has a liquid storage cavity and a pipe member, and the liquid storage cavity is used for containing a liquid; the integrated box is positioned in the liquid storage cavity and is provided with a first cavity and a second cavity, and water passing holes, filtering holes and water outlet holes are formed in the outer wall of the integrated box; the first cavity is internally provided with slow-release sterilization particles, the first cavity is communicated with the liquid storage cavity through the water passing holes, and sterilization ions released by the slow-release sterilization particles diffuse to the outside of the first cavity through the water passing holes; the second cavity is communicated with the liquid storage cavity through the filtering hole, a first filtering piece is covered on the filtering hole, and the second cavity is communicated with the pipeline piece through the water outlet hole, so that the pipeline piece sequentially passes through the water outlet hole, the second cavity and the first filtering piece to extract liquid containing sterilizing ions.

In order to achieve the above purpose, another aspect of the present application further provides an integrated box, where the integrated box has a first cavity and a second cavity, and water holes, filtering holes and water outlets are formed on an outer wall of the integrated box; the first cavity is internally provided with slow-release sterilization particles, and the water passing holes are communicated with the first cavity, so that sterilization ions released by the slow-release sterilization particles diffuse to the outside of the first cavity through the water passing holes; the second cavity is respectively communicated with the filtering hole and the water outlet hole, and the filtering hole is covered with a first filtering piece.

To achieve the above object, another aspect of the present application also provides a cleaning apparatus including at least a water tank for containing a liquid and an integrated cartridge, the water tank having a water outlet; the integrated box is positioned in the water tank and is provided with a first cavity and a second cavity, and water passing holes, filtering holes and water outlet holes are formed in the outer wall of the integrated box; the first cavity contains slow-release sterilization particles, the first cavity is communicated with the inner space of the water tank through the water passing hole, and sterilization ions released by the slow-release sterilization particles diffuse to the outside of the first cavity through the water passing hole; the second cavity is communicated with the inside of the water tank through the filtering hole, a first filtering piece is covered on the filtering hole, and the second cavity is communicated with the water outlet through the water outlet, so that the water outlet sequentially passes through the water outlet, the second cavity and the first filtering piece to extract liquid containing sterilizing ions.

Therefore, the technical scheme that this application provided, the integrated box has first cavity and second cavity, and first cavity holds the slow-release granule that disinfects that can release the ion of disinfecting to the stock solution chamber, and the second cavity is through the filtration pore and the apopore that cover has first filter piece with stock solution chamber and pipeline intercommunication, like this, when the integrated box installs the stock solution intracavity to clean basic station, the integrated box can play the bacteriostasis effect of disinfecting to stock solution intracavity liquid, filters out water impurity by first filter piece simultaneously. In other words, the integrated box integrates filtering and sterilizing functions, and replaces the existing two parts of the filtering piece and the silver ion module. So, when the installation, compare in current filter and silver ion module's required twice installation operation, the integrated box only needs once installation operation in this application, has simplified the installation step, simultaneously, and the user also need not to consider the installation distance between filter and the module that disinfects, has reduced the installation degree of difficulty, has improved user's use experience. During production, compared with the existing filter element and silver ion module, two parts are required to be produced respectively, only one part is required to be produced, and the manufacturing flow is optimized, so that the production cost is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic top view of a cleaning base station in one embodiment provided herein;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is a schematic view of an exploded view of an integrated cartridge in one embodiment provided herein;

FIG. 4 is a schematic view of a portion of the structure of an integrated cartridge in one embodiment provided herein;

FIG. 5 is a schematic view of another portion of the structure of an integrated cartridge in one embodiment provided herein;

FIG. 6 is a schematic front view of an integrated cartridge in one embodiment provided herein;

FIG. 7 is a schematic left-hand view of an integrated cartridge in one embodiment provided herein;

fig. 8 is a schematic right-hand view of an integrated cartridge in one embodiment provided herein.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the embodiments of the present application will be described in further detail below with reference to the accompanying drawings. Terms such as "upper," "lower," "first end," "second end," "one end," "the other end," and the like as used herein to refer to a spatially relative position are used for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. The term spatially relative position may be intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "below" can encompass both an orientation of above and below. The device may be otherwise oriented (rotated 90 degrees or other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Furthermore, the terms "mounted," "disposed," "provided," "connected," "slidingly connected," "secured," and "sleeved" are to be construed broadly. For example, "connected" may be in a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

The cleaning base station is generally matched with the sweeping robot to be used together, wherein a liquid storage cavity is formed in the cleaning base station, liquid is stored in the liquid storage cavity and used for supplementing water to a water tank of the sweeping robot, and cleaning components of the sweeping robot are cleaned in an auxiliary mode.

The silver ion module and the filter element are generally arranged in the liquid storage cavity of the existing cleaning base station, the silver ion module is used for sterilizing and disinfecting liquid in the liquid storage cavity, and the filter element is used for filtering impurities so as to ensure the quality of water discharged from the liquid storage cavity. However, the existing filter element and silver ion module are two independent components, which also means that the filter element and silver ion module need to be produced respectively, so that the manufacturing procedure is increased, the production cost is higher, and users need to install the filter element and silver ion module respectively when using the filter element and silver ion module, the installation process is complex, and the use experience of the users is affected.

In addition, because the silver ions released by the silver ion module can be intensively distributed in the liquid, in order to ensure that the water discharged from the clean base station contains a large amount of silver ions, the installation distance between the existing filter element and the sterilization module is also required to be certain when the filter element and the sterilization module are installed, and the difficulty of installing the filter element and the silver ion module by a user is also indirectly increased.

Therefore, how to improve the structure of the clean base station, thereby reducing the production cost, simplifying the subsequent installation steps of the user, and improving the use experience of the user becomes a problem to be solved in the field.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. It should be apparent that the embodiments described herein are only some, but not all, of the embodiments of the present application. All other embodiments, based on the embodiments herein, which are within the scope of the protection of the present application, will be within the skill of the art without undue effort.

Referring to fig. 1 to 3, in one implementation, a cleaning base station is generally used in combination with a cleaning device, where the cleaning base station and the cleaning device may form a cleaning system, and the cleaning device cleans a surface to be cleaned, and the cleaning base station is used for charging, moisturizing, cleaning, and the like. Among them, cleaning devices include, but are not limited to, sweeping robots and washing robots.

In this embodiment, the cleaning base station may include at least a main body 10 and an integrated cartridge 20. The main body 10 is used as a basic carrier of the cleaning base station and is used for supporting and protecting other parts on the cleaning base station. The main body 10 may have a liquid storage chamber 11 and a pipe member 12, the liquid storage chamber 11 is used for containing liquid, and the pipe member 12 is used for extracting the liquid in the liquid storage chamber 11 so as to supplement water to the cleaning device or clean the cleaning device. In practical applications, the liquid storage cavity 11 may be formed by opening a cavity on the main body 10, and of course, the liquid storage cavity 11 may also be provided by a box body through connecting the box body to the main body 10. The duct member 12 may be a passage formed in the main body 10, and of course, the duct member 12 may be a pipe connected to the main body 10.

The integrated box 20 is located in the liquid storage cavity 11, and the integrated box 20 is used for sterilizing the liquid in the liquid storage cavity 11 and filtering the liquid extracted by the pipeline piece 12 to ensure the quality of the liquid discharged through the pipeline piece 12. Specifically, the integrated box 20 has a first cavity 21 and a second cavity 22, and water holes 23, filter holes 24 and water outlet holes 25 are formed on the outer wall of the integrated box 20. Wherein, first cavity 21 holds slow-release sterilization granule, and first cavity 21 communicates with stock solution chamber 11 through water hole 23. Thus, the liquid in the liquid storage cavity 11 can enter the first cavity 21 through the water passing holes 23, so that the slow-release sterilization particles are soaked, the slow-release sterilization particles release sterilization ions, and the sterilization ions released by the slow-release sterilization particles can diffuse to the outside of the first cavity 21 through the water passing holes 23, so that the sterilization and bacteriostasis effects on the liquid in the liquid storage cavity 11 are achieved. It should be noted that, the outer wall of the integrated box 20 is understood as the outer surface of the integrated box 20, and when the integrated box 20 has a rectangular parallelepiped structure, for example, the outer wall of the integrated box 20 includes the top surface of the integrated box 20, the bottom surface of the integrated box 20, and four sides of the integrated box 20.

In this embodiment, the volume of the first cavity 21 should be larger than the volume of the second cavity 22, so that more slow-release sterilization particles can be contained in the first cavity 21, the duration of the slow-release sterilization particles acting on the liquid is increased, and meanwhile, the number of sterilization ions released by the slow-release sterilization particles into the liquid can be increased, and the sterilization and bacteriostasis effects are improved. In practical application, the slow-release sterilization particles can dissolve silver ions capable of sterilizing when meeting water, and the sterilization principle of the silver ions is that the silver ions act on cell walls and cell membranes of bacteria and swell, loosen, increase permeability and flow out contents, so that the bacteria die. In addition, silver ions are natural bacteriostat, have powerful bacteriostasis effect and can not produce drug resistance, so that the liquid containing silver ions can also realize the functions of sterilizing and bacteriostasis on the liquid storage cavity 11, the clean water tank of the cleaning equipment and the cleaning parts. It should be noted that after the slow-release sterilization particles meet the liquid, the slow-release sterilization particles can be dissolved not only to dissolve silver ions, but also to dissolve a mixture of silver ions and other ions, or other ions with antibacterial effect, and the application is not limited in particular.

In the present embodiment, the second chamber 22 communicates with the liquid storage chamber 11 through the filter hole 24, so that the liquid in the liquid storage chamber 11 can enter the second chamber 22 through the filter hole 24. The filter hole 24 is covered with a first filter element 26, and the second cavity 22 is also communicated with the pipe element 12 through a water outlet hole 25. Thus, when the cleaning base station provides liquid to the outside through the pipe member 12, the pipe member 12 can sequentially pump the liquid containing sterilizing ions through the water outlet hole 25, the second cavity 22 and the first filter member 26, and it is understood that the pumped liquid needs to be filtered through the first filter member 26 and then flows out through the water outlet hole 25, so that the liquid pumped by the pipe member 12 is filtered by the first filter member 26, and the cleanliness of the liquid entering the second cavity 22 is ensured.

Optionally, the first filter member 26 is at least one of a filter mesh, a filter paper, a filter membrane, a sponge, and a filter cartridge.

It should be noted that the integrated cartridge 20 integrates both filtering and sterilizing functions, instead of the two components of the existing filter and silver ion module. So, when the installation, compare in current filter and silver ion module's required twice installation operation, the integrated box 20 only need once installation operation in this application, has simplified the installation step, simultaneously, the user also need not to consider the problem of filter and the installation distance between the module that disinfects, has reduced the installation degree of difficulty, has improved user's use experience. During production, compared with the existing filter element and silver ion module, two parts are required to be produced respectively, only one part is required to be produced, and the manufacturing flow is optimized, so that the production cost is reduced.

In one embodiment, the water passing hole 23 may be covered with a second filter member 27, and the second filter member 27 is used for filtering the liquid flowing between the first chamber 21 and the liquid storage chamber 11. Thus, the second filter element 27 can prevent the slow release sterilization particles in the first cavity 21 from drifting into the liquid storage cavity 11 through the water passing holes 23, so as to prevent the slow release sterilization particles from blocking the first filter element 26, and can reduce the dirt in the liquid storage cavity 11 from entering the first cavity 21, so that the dirt is prevented from being coated on the outer surface of the slow release sterilization particles to influence the slow release sterilization particles to release sterilization ions outwards. The specific structure of the second filter element 27 may refer to the first filter element 26, and will not be described herein.

In practical application, because the pumping speed of the pipe fitting 11 is generally gentle in the cleaning process of the cleaning base station when the cleaning device is replenished with water or cleaned, the flow rate of the liquid in the liquid storage cavity 11 is slow, and therefore, the sterilizing ions released by the slow-release sterilizing particles are distributed in the liquid storage cavity 11 in a relatively concentrated manner, that is, the released sterilizing ions cannot be uniformly released into the liquid in the liquid storage cavity 11.

In the above case, in order to ensure as much as possible the concentration of sterilizing ions contained in the liquid extracted by the duct element 12, in one possible embodiment the passage area S2 of the second filter element 27 should be greater than the passage area S1 of the first filter element 26, i.e. S2 > S1. When the pipe member 12 extracts the liquid in the second cavity 22, as the first cavity 21 and the second cavity 22 are adjacently arranged, along with the second cavity 22 extracting the liquid in the liquid storage cavity 11, the first cavity 21 releases a certain amount of liquid to the liquid storage cavity 11, so as to compensate a part of the liquid area in the liquid storage cavity 11 extracted by the second cavity 22, and by setting S2 > S1, the amount of the liquid released by the first cavity 21 to the liquid storage cavity 11 can be increased, so that the liquid released by the first cavity 21 to the liquid storage cavity 11 is ensured to compensate a part of the liquid area in the liquid storage cavity 11 extracted by the second cavity 22 as much as possible. Moreover, it can be understood that, because the concentration of the sterilizing ions contained in the liquid released from the first cavity 21 to the liquid storage cavity 11 is generally higher, the above structure can ensure the concentration of the sterilizing ions contained in the liquid extracted from the channel member 12 as much as possible, thereby ensuring the sterilizing effect when cleaning the cleaning device and ensuring the sterilizing and antibacterial effects of the surface to be cleaned when the subsequent cleaning device uses the water replenishing liquid for cleaning operation. The sizes of the above S1 and S2 may also be set according to the ratio relationship according to the experience value of the skilled person, specifically, 1: s1 is more than or equal to 10, S2 is more than or equal to 9:10.

In the present embodiment, the passing area S1 of the first filter element 26 should also be larger than the passing area of the duct element 12, so as to avoid that the passing area S1 of the first filter element 26 is too small to affect the water extraction amount of the duct element 12. It should be noted that, the passing area S1 of the first filter 26 refers to an area where the liquid can pass through the first filter 26, and taking the first filter 26 as a filter screen for example, the passing area S1 of the first filter 26 is a sum of a plurality of mesh areas on the filter screen. For an understanding of the passing area S2 of the second filter member 27, reference may be made to the explanation of the passing area S1 of the first filter member 26, which is not described in detail herein.

In one possible embodiment, as shown in fig. 3, the integrated cartridge 20 may include a cartridge body 28 and a cartridge cover 29, the cartridge body 28 having an opening, the cartridge body 28 being connected to the cartridge cover 29, and the cartridge cover 29 covering the opening, the cartridge body 28 and the cartridge cover 29 surrounding a receiving cavity. A partition member 281 is further provided in the case 28, and the partition member 281 divides the accommodating chamber into the first chamber 21 and the second chamber 22.

In the present embodiment, the first chamber 21 and the second chamber 22 may be divided into the horizontal direction by the partition member 281, or may be divided into the vertical direction by the partition member 281. However, it is considered that if the first chamber 21 and the second chamber 22 are divided into the vertical direction by the partition member 281, there is a certain difference in height between the first chamber 21 and the second chamber 22, which also results in a situation that when the liquid level in the liquid storage chamber 11 is lower than the partition member 281, there is a liquid still being extracted by the pipe member 12, the slow release sterilization particles in the first chamber 21 cannot come into contact with the liquid to release the sterilization ions, thereby affecting the concentration of the sterilization ions contained in the liquid extracted by the pipe member 12, or there is a situation that the slow release sterilization particles can still come into contact with the liquid to release the sterilization ions, and the liquid in the liquid storage chamber 11 cannot be fully utilized due to the too low liquid level of the pipe member 12. Therefore, in order to avoid the above-described problems, the present application preferably employs the first chamber 21 and the second chamber 22 divided into the horizontal direction by the partition 281 to be disposed at intervals. In this way, the first cavity 21 and the second cavity 22 may be located at the same height, so that in the process that the liquid level in the liquid storage cavity 11 continuously drops, the first cavity 21 and the second cavity 22 may be always kept immersed in the liquid storage cavity 11 at the same time, or be exposed out of the liquid in the liquid storage cavity 11 at the same time, so that the liquid in the liquid storage cavity 11 is fully utilized, and the concentration of sterilizing ions in the liquid extracted by the pipe member 12 is ensured.

In particular, in one possible embodiment, the lid 29 may be located on top of the case 28. Correspondingly, the partition member 281 is configured to extend upward from the bottom of the case 28 and to the case cover 29, and both ends of the partition member 281 are connected with two oppositely disposed side walls of the case 28, thereby realizing that the first and second chambers 21 and 22 are disposed at intervals in the horizontal direction. In practical applications, the partition 281 and the box 28 may be integrally formed by injection molding, 3D printing, and die casting, or the partition 281 and the box 28 may be separately formed and then connected by welding, hot melting, and gluing.

In this embodiment, the top of the partition member 281 may be further connected with a sealing member 282, and when the box cover 29 is connected with the box body 28, the sealing member 282 may be filled between the partition member 281 and the box cover 29 under pressure, so as to seal a gap between the partition member 281 and the box cover 29, prevent the first cavity 21 and the second cavity 22 from being mutually communicated through the partition member 281, and further prevent slow-release sterilization particles from directly passing through the partition member 281, entering the second cavity 22 and flowing out from the pipe member 12. In practical applications, the seal 282 may be made of rubber, polyurethane, polyethylene, or other materials.

In an implementation manner, please refer to fig. 3 and fig. 4 together, the water outlet 25 may be opened on the box 28 or the box cover 29, but considering that the user can replace the integrated box 20 alone later, the water outlet 25 is preferably disposed on the box cover 29, so that the user can disassemble the pipe 12 and the water outlet 25 in the vertical direction, so that the user can have enough disassembly space to facilitate the disassembly operation of the user.

Further, a pipe joint 291 may be provided on the cover 29, the pipe joint 291 communicating with the water outlet 25, and the pipe joint 291 extending from the cover 29 in a direction away from the case 28. The pipe joint 291 is used for replacing the water outlet 25 to be connected with the pipe member 12, so that the pipe member 12 and the water outlet 25 can be conveniently assembled and disassembled by a user. For example, when the pipe joint 291 is a plug-in pipe joint, the user can perform the connection operation by simply inserting the pipe member 12 in the vertical direction on the pipe joint 291, and the user pulls up the pipe member 12 upward, so that the pipe member 12 is separated from the pipe joint 291 to perform the disassembly operation, and the disassembly operation is simpler and more convenient.

Further, an extension tube 292 may be further disposed on the lid 29, the extension tube 292 is in communication with the water outlet 25, the extension tube 292 extends from the lid 29 in a direction away from the tube joint 291, and the extension tube 292 is located in the second cavity 22 when the lid 29 is connected to the box 28. In other words, the water absorption height of the water outlet 25 can be adjusted downwards by the extension tube 292, so that the problem that the water outlet 25 is arranged on the box cover 29 and the lower liquid level cannot be absorbed is solved, and the liquid in the liquid storage cavity 11 can be fully utilized.

In order to ensure that the slow release sterilization particles can continuously act on the liquid in the liquid storage cavity 11 to the greatest extent, so that the slow release sterilization particles have the advantages of sterilization and disinfection, and the pipeline member 12 can fully absorb the liquid in the liquid storage cavity 11, in one implementation, as shown in fig. 5, the water passing holes 23 and the filtering holes 24 should be formed on the side wall of the box body 28. Thus, compared with the mode of opening the water passing hole 23 and the filtering hole 24 on the box cover 29, the water passing hole 23 and the filtering hole 24 are formed on the side wall of the box body 28, so that when the liquid level in the liquid storage cavity 11 is lower than the box cover 29, slow-release sterilization particles can still continuously act on the liquid in the liquid storage cavity 11, and meanwhile, the pipeline piece 12 can still absorb the liquid in the liquid storage cavity 11.

In the present embodiment, the minimum distance between the water passing hole 23 and the bottom surface of the case 28 should be as small as possible, so that the longer the slow release sterilization particles act on the liquid in the liquid storage chamber 11. The minimum distance between the filter hole 24 and the bottom surface of the case 28 should be as small as possible so that the lower the level at which the pipe member 12 can suck the liquid, thereby ensuring that the pipe member 12 has a sufficient suction capacity for the liquid in the liquid storage chamber 11. In practical applications, the minimum distance between the water passing hole 23 and the bottom of the box 28 and the minimum distance between the filtering hole 24 and the bottom of the box 28 should be as consistent as possible, and no more than 4cm.

In an implementation manner, as shown in fig. 5 and 8, the water passing holes 23 may have a plurality of water passing holes 23, and the plurality of water passing holes 23 may be respectively distributed on different sidewalls of the box 28, so as to increase the liquid passing area between the first cavity 21 and the liquid storage cavity 11 as much as possible, and improve the diffusion effect of the sterilizing ions released by the slow-release sterilizing particles into the liquid storage cavity 11. The filtering holes 24 can also be distributed on different side walls of the box 28 to increase the liquid passing area between the second cavity 22 and the liquid storage cavity 11 as much as possible, so as to meet the water absorption requirement of the pipe member 12.

In the present embodiment, the entire case 28 may be substantially triangular, square, pentagonal, hexagonal, or the like, which is not limited in this application. Taking the case 28 as a quadrangular prism structure as an example, the case 28 has a first side wall 283, a second side wall 284, a third side wall 285 and a fourth side wall 286 connected end to end in sequence, two ends of the partition 281 are respectively connected to the first side wall 283 and the third side wall 285, and correspondingly, the plurality of water passing holes 23 may be distributed on the first side wall 283, the third side wall 285 and the fourth side wall 286, and the plurality of filtering holes 24 may be distributed on the first side wall 283, the second side wall 284 and the third side wall 285.

In practice, the slow release sterilizing particles are typically packaged in a covering member similar to a mesh bag-like structure, and then the covering member packaged with the slow release sterilizing particles is placed in the first cavity 21. Therefore, in order to avoid collision damage of the coated member packed with the slow-release sterilizing particles to the second filter member 27 covered on the water passing hole 23, the water passing hole 23 on each side wall may be provided with a plurality of water passing holes 23 on each side wall, the plurality of water passing holes 23 on each side wall may be arranged in a rectangular array or in an irregular shape, and each water passing hole 23 should not be excessively large, so that the side wall of the first cavity 21 and the plurality of second filter members 27 may bear collision of the coated member packed with the slow-release sterilizing particles at the same time, thereby sharing collision force, avoiding collision of the coated member packed with the slow-release sterilizing particles to the second filter member 27 on the single water passing hole 23, and improving service life of the second filter member 27.

The case 28 and the case cover 29 may be fixedly connected by ultrasonic welding, hot melting, or gluing, so that all the parts in the integrated case 20 are replaced as a whole. In order to facilitate the subsequent addition of the slow-release sterilization particles by a user, the box cover 29 may be at least partially detachably connected with the box body 28 by a clamping connection, a threaded connection or a hoop connection, thereby facilitating the opening of the box cover 29 by the user and adding the slow-release sterilization particles in the first cavity 21.

Two possible embodiments are provided for illustration with respect to the detachable connection of the cover 29 to the housing 28.

Embodiment one: the whole box cover 29 is clamped with the box body 28. Specifically, when the slow-release sterilization particles need to be added in the first cavity 21, the user can separate the box cover 29 from the box 28, open the top openings of the first cavity 21 and the second cavity 22, then add the slow-release sterilization particles into the first cavity 21 through the top opening of the first cavity 21, and finally clamp the box cover 29 and the box 28 with each other, thereby completing the adding operation of the slow-release sterilization particles.

Embodiment two: the box cover 29 is partially clamped with the box body 28. Specifically, as shown in fig. 4, the cover 29 may have a fixed portion 294 and a movable portion 295. The fixing portion 294 is fixedly connected to the case 28, and the fixing portion 294, the case 28, and the partition 281 enclose the second chamber 22. One end of the movable portion 295 is hinged to the fixed portion 294, the movable portion 295 is engaged with the case 28, and the movable portion 295, the case 28, and the partition member 281 enclose the first cavity 21. When the slow release sterilization particles need to be added into the first cavity 21, the user can lift the other end of the movable portion 295 upwards, so that the movable portion 295 turns upwards around the fixed portion 294 and is separated from the box 28, thereby opening the top opening of the first cavity 21, then the slow release sterilization particles are added into the first cavity 21 through the top opening of the first cavity 21, and finally the movable portion 295 turns downwards to be clamped with the box 28, thereby completing the adding operation of the slow release sterilization particles.

The integrated cartridge 20 should be disposed as close to the bottom of the liquid storage chamber 11 as possible in terms of the whole of the cleaning base station, for example, the integrated cartridge 20 is located at the bottom of the liquid storage chamber 11, or the integrated cartridge 20 is located at a position close to the bottom of the liquid storage chamber 11. Because the liquid level in the liquid storage cavity 11 is gradually reduced from top to bottom, the arrangement mode can ensure that the slow-release sterilization particles continuously act on the liquid in the liquid storage cavity 11 as much as possible, so that the slow-release sterilization particle has the advantage of good sterilization effect. On the contrary, if the integrated box 20 is located at the middle or top of the liquid storage cavity 11, when the liquid level in the liquid storage cavity 11 is lower than the height set by the integrated box 20, at this time, the liquid in the liquid storage cavity 11 cannot contact with the slow release sterilization particles in the integrated box 20, i.e. the slow release sterilization particles cannot release sterilization ions to perform sterilization and disinfection operations.

In one embodiment, referring to fig. 1 and 2 together, the cleaning base station may further include a fixing component 30, so that the integrated cartridge 20 is fixed in the liquid storage cavity 11 by the fixing component 30. In this embodiment, the fixing component 30 is connected to the main body 10, the fixing component 30 is located at the bottom of the liquid storage cavity 11, and the integrated box 20 is fixed at the bottom of the liquid storage cavity 11 through the fixing component 30.

Regarding the specific structure of the securing assembly 30, in one possible embodiment, the securing assembly 30 may include a resilient arm 31 and a stop 32. Wherein, the elastic arm 31 is connected with the main body 10, the elastic arm 31 extends from the bottom of the liquid storage cavity 11 to the top of the liquid storage cavity 11, and the elastic arm 31 is opposite to one of the inner walls of the liquid storage cavity 11, and the distance between the elastic arm 31 and the inner wall should be slightly smaller than the length or width of the integrated box 20, so that the elastic arm 31 cooperates with the inner wall to clamp the integrated box 20 in the horizontal direction. The blocking member 32 is connected to the top of the elastic arm 31, the blocking member 32 extends from the elastic arm 31 toward the inner wall, and the distance between the blocking member 32 and the bottom of the liquid storage chamber 11 should be slightly larger than the height of the integrated cartridge 20, so that the vertical direction of the integrated cartridge 20 is limited by the blocking member 32.

In actual use, the user can apply force to deform the elastic arm 31 towards one of the inner walls far away from the liquid storage cavity 11 to give way, then place the integrated box 20 between the elastic arm 31 and one of the inner walls of the liquid storage cavity 11, then release the elastic arm 31, reset the elastic arm 31 under the action of self elasticity and clamp the integrated box 20, and meanwhile, the blocking piece 32 is located right above the integrated box 20 to limit the integrated box 20 to float upwards under the action of buoyancy of liquid.

Further, a groove 293 is formed on one side of the cover 29, and the outer contour of the elastic arm 31 is adapted to the groove 293. When the integrated cartridge 20 is mounted between the elastic arm 31 and one of the inner walls of the liquid storage chamber 11, the elastic arm 31 can be caught in the notch 293, thereby further limiting the degree of freedom of the integrated cartridge 20 in the horizontal direction. In practice, the notches 293 may be configured as arcuate notches, and correspondingly, the resilient arms 31 may be configured as arcuate structures.

In another embodiment, the fixing assembly 30 may also include a hook at the bottom of the liquid storage chamber 11, so that the water passing hole 23 and/or the filtering hole 24 is hooked by the hook to fix the integrated cartridge 20 at the bottom of the liquid storage chamber 11.

Based on the same inventive concept, the present application also provides an integrated cartridge 20. The integrated box 20 is provided with a first cavity 21 and a second cavity 22, and the outer wall of the integrated box 20 is provided with a water passing hole 23, a filtering hole 24 and a water outlet hole 25. The first cavity 21 accommodates slow release sterilizing particles therein, and the water passing holes 23 are communicated with the first cavity 21, so that sterilizing ions released by the slow release sterilizing particles diffuse to the outside of the first cavity 21 through the water passing holes 23. The second chamber 22 communicates with the filter hole 24 and the water outlet hole 25, respectively, and the filter hole 24 is covered with a first filter 26.

Further, the water passing holes 23 are covered with a second filter member 27. The passing area of the first filter 26 is S1, the passing area of the second filter 27 is S2, and the following condition is satisfied: 1: s1 is more than or equal to 10, S2 is more than or equal to 9:10.

further, the integrated cartridge 20 includes a cartridge body 28 and a cartridge cover 29. The box body 28 is connected with the box cover 29, and the box body 28 and the box cover 29 form a containing cavity around. A partition member 281 is provided in the case 28, and the partition member 281 divides the accommodating chamber into the first chamber 21 and the second chamber 22.

For the specific structure of the integrated cartridge 20, reference may be made to the content related to the above embodiment, and details are not repeated here.

Based on the same inventive concept, the integrated box 20 can also be directly applied to a water tank of the cleaning device, so as to improve the sterilization and bacteriostasis effect of the cleaning device on the surface to be cleaned. Specifically, the application also provides a cleaning device, which can be a cleaning robot or the like with cleaning functions such as floor washing, sweeping, mopping and the like, and can automatically move on a surface to be cleaned so as to clean the surface to be cleaned. Of course, the cleaning device may be a hand-held floor cleaning machine with cleaning functions such as floor cleaning, sweeping, mopping, etc., and the user may push the cleaning device to move on the surface to be cleaned by holding the cleaning device, so as to perform cleaning on the surface to be cleaned, which is not limited herein.

Wherein the cleaning device comprises at least a water tank and an integrated cartridge 20. The water tank is used for containing liquid, and the water tank is provided with a water outlet, and the water tank can provide liquid to the ground or the cleaning component of the cleaning equipment through the water outlet so as to assist in cleaning. The integrated box 20 is located inside the water tank, and is used for sterilizing and disinfecting the liquid in the water tank, and filtering the liquid discharged from the water outlet, so as to ensure the quality of the liquid discharged through the pipe piece 12. Specifically, the integrated box 20 has a first cavity 21 and a second cavity 22, and water holes 23, filter holes 24 and water outlet holes 25 are formed on the outer wall of the integrated box 20. The first cavity 21 accommodates the slow release sterilization particles therein, and the first cavity 21 is communicated with the inner space of the water tank through the water passing holes 23, so that sterilization ions released by the slow release sterilization particles diffuse to the outside of the first cavity 21 through the water passing holes 23. The second cavity 22 is communicated with the inside of the water tank through a filter hole 24, a first filter piece 26 is covered on the filter hole 24, and the second cavity 22 is communicated with the water outlet through a water outlet hole 25, so that the water outlet sequentially passes through the water outlet hole 25, the second cavity 22 and the first filter piece 26 to extract the liquid containing sterilizing ions.

For the specific structure of the integrated cartridge 20, reference may be made to the content related to the above embodiment, and details are not repeated here.

The working principle of the cleaning base station is described in detail below by taking a sweeping robot as an example in combination with a specific application scene.

Application scenario one

The small piece is a busy white collar, and the person needs to go to work and overtime every day, so that the person does not have much time to clean the home. Thus, he purchased a sweeping robot to solve the cleaning problem at home, and the sweeping robot was further equipped with a set of cleaning base station having not only a function of charging the sweeping robot but also a function of cleaning a cloth tray of the sweeping robot and replenishing water to a water tank of the sweeping robot. However, after a certain period of use of the floor sweeping robot, the sheet finds that the sterilization module and the filter in the cleaning base station need to be detached and installed separately every time the filter is replaced, which is very troublesome.

Fortunately, he recently knows through selling the official network of producer, and clean basic station has recently upgraded, not only will disinfect module and filter assembly and become an integrated box, and the connection structure that corresponds clean basic station's stock solution intracavity has also done corresponding adjustment moreover, like this, the user when carrying out the change operation, only need to dismantle to an integrated box can, easy dismounting.

The sheetlet then purchases the upgraded clean base station. After the upgraded cleaning base station is received, the small Zhang Xian forces the elastic arm in the liquid storage cavity to one side to deform to give way, then the integrated box is placed between the elastic arm and one inner wall of the liquid storage cavity, then the elastic arm is loosened, the elastic arm resets under the elastic action of the elastic arm and clamps the integrated box, meanwhile, the blocking piece is located right above the integrated box, the integrated box is limited to float upwards under the buoyancy action of liquid, and therefore the integrated box is fixed. Then, the pipeline piece is vertically inserted on the pipe connector by the small piece, so that the pipeline connection operation is completed, and the updated cleaning base station is simpler and more convenient for disassembling and assembling the integrated box, so that the user can save much time and effort. Finally, the external water supply switch is opened slightly, and the external water supply is continuously filled in the liquid storage cavity, so that the integrated box is integrally soaked in the liquid storage cavity, and the slow-release sterilization particles in the first cavity are contacted with the liquid and release sterilization ions outwards.

When the robot returns to the cleaning base station for cleaning, the pipeline part sequentially passes through the water outlet, the second cavity and the first filter part to extract liquid in the liquid storage cavity, and the liquid is discharged to the rag disc of the robot for cleaning the rag disc. In the process of extracting the liquid from the pipeline, the first filtering piece can also filter the extracted liquid so as to ensure the cleanliness of the liquid discharged from the pipeline.

Therefore, the technical scheme that this application provided, the integrated box has first cavity and second cavity, and first cavity holds the slow-release granule that disinfects that can release the ion of disinfecting to the stock solution chamber, and the second cavity is through the filtration pore and the apopore that cover has first filter piece with stock solution chamber and pipeline intercommunication, like this, when the integrated box installs the stock solution intracavity to clean basic station, the integrated box can play the bacteriostasis effect of disinfecting to stock solution intracavity liquid, filters out water impurity by first filter piece simultaneously. In other words, the integrated box integrates filtering and sterilizing functions, and replaces the existing two parts of the filtering piece and the silver ion module. So, when the installation, compare in current filter and silver ion module's required twice installation operation, the integrated box only needs once installation operation in this application, has simplified the installation step, simultaneously, and the user also need not to consider the installation distance between filter and the module that disinfects, has reduced the installation degree of difficulty, has improved user's use experience. During production, compared with the existing filter element and silver ion module, two parts are required to be produced respectively, only one part is required to be produced, and the manufacturing flow is optimized, so that the production cost is reduced.

The foregoing description of the preferred embodiments of the present application is not intended to limit the invention to the particular embodiments of the present application, but to limit the scope of the invention to the particular embodiments of the present application.

Claims (17)

1. A cleaning base station, comprising at least a main body and an integrated box, wherein the main body is provided with a liquid storage cavity and a pipeline piece, and the liquid storage cavity is used for containing liquid;

the integrated box is positioned in the liquid storage cavity and is provided with a first cavity and a second cavity, and water passing holes, filtering holes and water outlet holes are formed in the outer wall of the integrated box;

the first cavity is internally provided with slow-release sterilization particles, the first cavity is communicated with the liquid storage cavity through the water passing holes, and sterilization ions released by the slow-release sterilization particles diffuse to the outside of the first cavity through the water passing holes;

the second cavity is communicated with the liquid storage cavity through the filtering hole, a first filtering piece is covered on the filtering hole, and the second cavity is communicated with the pipeline piece through the water outlet hole, so that the pipeline piece sequentially passes through the water outlet hole, the second cavity and the first filtering piece to extract liquid containing sterilizing ions.

2. The cleaning base station of claim 1, wherein the water holes are covered with a second filter;

the passing area of the first filter element is S1, the passing area of the second filter element is S2, and the following conditions are satisfied: 1: s1 is more than or equal to 10, S2 is more than or equal to 9:10.

3. the cleaning base station of claim 1 or 2, wherein the integrated box comprises a box body and a box cover;

the box body is connected with the box cover, and the box body and the box cover form a containing cavity around;

the box body is internally provided with a partition piece, and the partition piece divides the accommodating cavity into a first cavity and a second cavity.

4. A cleaning base station according to claim 3, wherein the cover is located on top of the box;

the partition member extends from the bottom of the box body to the box cover, and two ends of the partition member are respectively connected with two oppositely arranged side walls of the box body.

5. The cleaning base station of claim 4, wherein a seal is attached to the top of the partition;

when the box cover is connected with the box body, the sealing piece is filled between the partition piece and the box cover under pressure so as to seal a gap between the partition piece and the box cover.

6. The cleaning base station of claim 4, wherein the outlet water Kong Kaishe is provided on the box cover, and a pipe joint and an extension pipe are provided on the box cover;

the pipe joint is communicated with the water outlet hole, and extends from the box cover to a direction away from the box body;

the extension pipe is communicated with the water outlet, extends from the box cover to a direction far away from the pipe joint, and is positioned in the second cavity.

7. The cleaning station of claim 6, wherein the water passing holes and the filter Kong Kaishe are on a side wall of the box.

8. The cleaning base station of claim 7, wherein the box has a first side wall, a second side wall, a third side wall and a fourth side wall connected end to end in sequence, and two ends of the partition are connected with the first side wall and the third side wall respectively;

the plurality of water passing holes are distributed on the first side wall, the third side wall and the fourth side wall;

the plurality of filter holes are distributed on the first side wall, the second side wall and the third side wall.

9. The cleaning base station of claim 8, further comprising a stationary component;

the fixing component is connected with the main body, and is positioned at the bottom of the liquid storage cavity, so that the integrated box is installed at the bottom of the liquid storage cavity through the fixing component.

10. The cleaning base station of claim 9, wherein the securing assembly includes a resilient arm and a barrier;

the elastic arm is connected with the main body, extends from the bottom of the liquid storage cavity to the top of the liquid storage cavity, and is arranged opposite to one inner wall of the liquid storage cavity;

the blocking piece is connected with the top of the elastic arm, and extends from the elastic arm to one inner wall of the liquid storage cavity;

when the integrated box is arranged between the elastic arm and one inner wall of the liquid storage cavity, the elastic arm and one inner wall of the liquid storage cavity clamp the integrated box, and the blocking piece is positioned right above the integrated box.

11. The cleaning base station of claim 10, wherein a slot is formed at one side of the cover;

The outer contour of the elastic arm is matched with the notch, and when the integrated box is arranged between the elastic arm and one inner wall of the liquid storage cavity, the elastic arm is clamped into the notch.

12. The cleaning station of claim 4, wherein the cover is at least partially removably attached to the housing.

13. The cleaning base station of claim 12, wherein the cover comprises a fixed portion and a movable portion;

the fixed part is fixedly connected with the box body, and the fixed part, the box body and the partition piece enclose the second cavity;

one end of the movable part is hinged with the fixed part, the movable part is connected with the box body in a clamping mode, and the movable part, the box body and the partition piece enclose into the first cavity.

14. The integrated box is characterized by comprising a first cavity and a second cavity, wherein water passing holes, filtering holes and water outlet holes are formed in the outer wall of the integrated box;

the first cavity is internally provided with slow-release sterilization particles, the water passing holes are communicated with the first cavity, and sterilization ions released by the slow-release sterilization particles diffuse to the outside of the first cavity through the water passing holes;

The second cavity is respectively communicated with the filtering hole and the water outlet hole, and the filtering hole is covered with a first filtering piece.

15. The integrated cartridge of claim 14, wherein the water passing holes are covered with a second filter;

the passing area of the first filter element is S1, the passing area of the second filter element is S2, and the following conditions are satisfied: 1: s1 is more than or equal to 10, S2 is more than or equal to 9:10.

16. the integrated cartridge of claim 14 or 15, wherein the integrated cartridge comprises a cartridge body and a cartridge cover;

the box body is connected with the box cover, and the box body and the box cover form a containing cavity around;

the box body is internally provided with a partition piece, and the partition piece divides the accommodating cavity into a first cavity and a second cavity.

17. A cleaning device comprising at least a water tank and an integrated cartridge, wherein the water tank is for containing a liquid, the water tank having a water outlet;

the integrated box is positioned in the water tank and is provided with a first cavity and a second cavity, and water passing holes, filtering holes and water outlet holes are formed in the outer wall of the integrated box;

the first cavity contains slow-release sterilization particles, the first cavity is communicated with the inner space of the water tank through the water passing hole, and sterilization ions released by the slow-release sterilization particles diffuse to the outside of the first cavity through the water passing hole;

The second cavity is communicated with the inside of the water tank through the filtering hole, a first filtering piece is covered on the filtering hole, and the second cavity is communicated with the water outlet through the water outlet, so that the water outlet sequentially passes through the water outlet, the second cavity and the first filtering piece to extract liquid containing sterilizing ions.