CN216060381U - Floor brush and cleaning device - Google Patents

Abstract

The utility model relates to the field of cleaning electric appliances, and particularly discloses a floor brush and a cleaning device. Through setting up filtering component, and at least partial filter screen is located between round brush and the fluid jet subassembly, and when the round brush rotated like this, the filth of getting rid of was blocked by the filter screen, and the greatly reduced filth has got into on the fluid jet subassembly.

Description

Floor brush and cleaning device

Technical Field

The utility model relates to the field of cleaning electric appliances, and particularly discloses a floor brush and a cleaning device.

Background

At present, the cleaning machine is gradually widely used, the deep cleaning work of families is greatly facilitated, and the housework intensity of people is relieved. However, the clean water outlet of the cleaning machine is easy to adhere dirt, and the water outlet is easy to block due to long-term uncleanness. The upper cover and the fence need to be cleaned in each cleaning process, and the cleaning is complicated.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a floor brush and a cleaning device, and aims to solve at least one technical problem.

In order to achieve the above purpose, the present invention provides a floor brush, which includes a body, a fluid injection assembly disposed in the body, a cylindrical roller brush, and a filter assembly, wherein the filter assembly includes a filter screen, and at least a portion of the filter screen is located between the roller brush and the fluid injection assembly.

The utility model also provides a cleaning device which comprises the floor brush.

In addition, the floor brush of the present invention may have the following additional technical features.

According to one embodiment of the utility model, the floor brush further comprises a cover plate, the cover plate defines a rolling brush accommodating cavity, the rolling brush is rotatably arranged in the rolling brush accommodating cavity, the filter assembly is arranged on the cover plate, the filter screen is in an elongated shape, and the filter screen extends along the length direction of the rolling brush.

According to one embodiment of the utility model, the cover plate, the body and the roller brush form an accommodating space around the roller brush, the filter screen and the fluid injection assembly are both positioned in the accommodating space, and at least part of the surface of the filter screen facing the roller brush is configured into a plane; or

At least part of the surface of the filter screen facing the roller brush is configured into an arc-shaped surface which is matched with at least part of the peripheral wall of the roller brush.

According to an embodiment of the utility model, the screen does not contact the peripheral wall of the roller brush, or

The filter screen contacts with the periphery wall of round brush.

According to an embodiment of the present invention, the filter assembly is detachably coupled to the cover plate, and the floor brush further includes:

a locking structure for locking and unlocking the connection between the filter assembly and the cover plate.

According to an embodiment of the present invention, the locking structure includes a locking portion disposed on the filtering assembly and a locking groove disposed on the cover plate, and the locking portion can extend into or separate from the locking groove.

According to an embodiment of the present invention, the locking structure further includes an elastic member for resetting the locking portion, one end of the elastic member is fixed to the filter assembly, and the other end of the elastic member abuts against the locking portion.

According to one embodiment of the utility model, the filter assembly is removably disposed to the body.

According to an embodiment of the present invention, further comprising:

one end of the hoisting piece is connected with the cover plate, and the other end of the hoisting piece is provided with a sleeving component;

the socket assembly includes:

the inner ring of the bearing is sleeved with the rolling brush, and the outer ring of the bearing is connected with the hoisting piece;

and the lifting ring is arranged at the other end of the lifting piece and is sleeved with the outer ring of the bearing.

Compared with the prior art, the utility model has the following beneficial effects:

1. through setting up filtering component, and at least partial filter screen is located between round brush and the fluid jet subassembly, and when the round brush rotated like this, the filth of getting rid of was blocked by the filter screen, and the greatly reduced filth has got into on the fluid jet subassembly. Therefore, the filtering component only needs to be cleaned in normal cleaning without cleaning the fluid spraying component, so that the problem of pain caused by frequent cleaning of the fluid spraying component is solved;

2. after the round brush is connected to the apron through hoisting accessory, this hoisting accessory can continue to form the rotation assembly through cup jointing the subassembly with the round brush, therefore the round brush can rotate in cup jointing the subassembly, when corresponding driver drive round brush rotates, the round brush can be smooth rotate in cup jointing the subassembly, and then realize its basic function originally on round brush ground, the rolling state that utilizes the round brush carries out the cleanness on ground, just can leave the space vacancy at round brush both ends from this, make the both ends of round brush or at least one end can stretch out the cleaning machine outside, realize the cleanness to original blind area.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of a floor brush according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a floor brush with a cover removed in accordance with an embodiment of the present invention 1;

FIG. 3 is a cross-sectional view of a floor brush according to an embodiment of the present invention 1;

FIG. 4 is an exploded view of a filter assembly of a floor brush according to one embodiment of the present invention;

FIG. 5 is a schematic structural view of a floor brush with a cover removed according to an embodiment of the present invention, as shown in FIG. 2;

FIG. 6 is a cross-sectional view of a floor brush according to an embodiment of the present invention, as shown in FIG. 2;

FIG. 7 is a perspective view of a filter assembly in a floor brush according to one embodiment of the present invention;

FIG. 8 is a partial cross-sectional view of a floor brush in an embodiment of the present invention;

FIG. 9 is an exploded view of a floor brush according to an embodiment of the present invention;

FIG. 10 is an assembled cross-sectional view of a roll brush according to an embodiment of the present invention;

FIG. 11 is a cross-sectional exploded view of the drum shown in FIG. 10;

FIG. 12 is a cross-sectional view of a first brush cartridge in accordance with an embodiment of the present invention;

FIG. 13 is a cross-sectional view of a second brush cartridge in accordance with an embodiment of the present invention;

figure 14 is a perspective view of a sling according to one embodiment of the utility model;

figure 15 is a cross-sectional view of a sling according to one embodiment of the utility model.

The reference numbers illustrate:

the floor brush comprises a floor brush 100, a body 10, a water return port 101, a slide rail 102, a fluid injection assembly 11, a water outlet grille 110, a jet port 111, a rolling brush assembly 12, a cover plate 120, a rolling brush accommodating cavity 120a, a slide piece 120b, a protrusion 120c, a support block 120d, a lock groove 120e, a rolling brush 121, a first barrel brush 121a, a second barrel brush 121b, a first sinking groove 121c, a second sinking groove 121d, a filter screen 122, a connecting plate 123, a lock shell 124, a notch 124a, a mud scraping plate 13, a toggle button 14, an elastic piece 15, a hoisting piece 16, a socket assembly 17, a bearing 170, a hoisting ring 171, a connecting part 172, an outer sleeve 172a, an inner insertion part 172b, a driver 18 and a side branch arm 19.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring now to fig. 1-15, a floor brush 100 according to some embodiments of the present invention is described, wherein the floor brush 100 according to the embodiments may be used in a variety of cleaning devices, such as a washing machine, a mopping machine, or a wet and dry cleaner.

With continued reference to fig. 1-7, the floor brush 100 of the present embodiment includes a body 10, a fluid injection assembly 11 disposed in the body 10, and a roller brush assembly 12 connected to the body 10, wherein the roller brush assembly 12 includes a cover plate 120, a roller brush 121, and a filter assembly detachably disposed on the cover plate 120, the cover plate 120 defines a roller brush accommodating cavity 120a, the roller brush 121 is rollably disposed in the roller brush accommodating cavity 120a, the filter assembly includes a filter screen 122, and at least a portion of the filter screen 122 is located between the roller brush 121 and the fluid injection assembly 11.

It should be noted that the cover plate 120 in this embodiment is a part of the rolling brush assembly 12, but the present invention is not limited thereto, and in other embodiments of the present invention, the rolling brush assembly 12 may include at least the rolling brush 121, and the cover plate 120 may also be provided separately from the rolling brush assembly 12, that is, the cover plate 120 and the rolling brush 121 may be two separate parts completely separated from each other, and both may be separately connected to the body 10.

In some other embodiments of the present invention, the filter assembly may be detachably disposed on the body 10, and when the filter assembly needs to be cleaned, the filter assembly is detached from the body 10.

Specifically, the fluid ejection assembly 11 is connected to the body 10. The "fluid ejection assembly 11" herein may refer to a component that supplies liquid or gas, for example, which may provide water, liquid with detergent, or water vapor to the floor brush 100, and the like.

The fluid injection assembly 11 includes a water outlet grid 110 and a plurality of injection ports 111 disposed on the water outlet grid 110, wherein the water outlet grid 110 is in a long shape, the water outlet grid 110 extends along a length direction (which can also be understood as an axial direction) of the roller brush 121, the plurality of injection ports 111 are arranged along the length direction of the roller brush 121, and the plurality of injection ports 111 can be used for injecting fluid to the roller brush 121.

In the present embodiment, the ejection directions of the plurality of ejection openings 111 may be set to eject toward the roll brush 121, that is, in the present embodiment, the ejection directions of the plurality of ejection openings 111 are the same.

Further, it is also worth noting that when a plurality of injection ports 111 are provided, the injection direction of one part of the injection ports 111 and the injection direction of the other part of the injection ports 111 can be set to be different, for example, the injection direction of one part of the injection ports 111 can be set to be injected towards the rolling brush 121 for wetting the rolling brush 121, and when the rolling brush 121 is soaked with fluid (for example, the rolling brush 121 is in a wet state), the rolling brush 121 is beneficial to clean impurities and stains on the surface to be cleaned; as another example, the spraying direction of another part of the spraying ports 111 may be set to face the surface to be cleaned for wetting the surface to be cleaned, and when the rolling brush 121 passes over the surface to be cleaned with dirt, the rolling brush 121 may take away the dirt while wiping the surface to be cleaned clean.

When the cleaning device performs the surface cleaning operation, the injection port 111 injects a fluid (e.g., water or steam) toward the roller brush 121 to wet the roller brush 121, and when the roller brush 121 is stained with the fluid (e.g., the roller brush 121 is in a wet state), the cleaning device is beneficial to cleaning the impurities and stains on the surface to be cleaned by the roller brush 121. It should be noted that when the roller brush 121 performs surface cleaning, the dirt thrown off by the roller brush 121 adheres to the water outlet grid 110 and the injection port 111, and the injection port 111 is easily blocked by long-term uncleaning. In order to solve the above problem, in the present embodiment, the strainer 122 is connected to the cover plate 120, and a portion of the strainer 122 is located between the roller brush 121 and the fluid injection assembly 11, so that when the roller brush 121 rotates, the thrown dirt is blocked by the strainer 122, and the dirt is greatly reduced from entering the water outlet grill 110 and the injection port 111 (i.e., the fluid injection assembly 11). Therefore, when the cleaning is needed at ordinary times, the rolling brush assembly 12 only needs to be detached from the body 10 for cleaning, the fluid spraying assembly 11 does not need to be detached for cleaning, and pain points of frequently cleaning the fluid spraying assembly 11 are solved.

In the present embodiment, with continued reference to fig. 2, the roller brush 121 is cylindrical, and the roller brush 121 rotates around the central rotation axis in one direction, thereby driving the cleaning device to move forward. The cover plate 120, the body 10 and the roller brush 121 form an accommodating space, the filter screen 122 and the fluid injection assembly 11 are located in the accommodating space, and specifically, the filter screen 122 and the fluid injection assembly 11 are located on the rear upper side of the roller brush 121. The filter screen 122 in this embodiment may be in an elongated shape, and the filter screen 122 extends along the length direction of the roller brush 121. In particular, the screen 122 may completely shield the fluid injection assembly 11 from sludging onto the fluid injection assembly 11.

With continued reference to fig. 3, the body 10 has a water return port 101, the water return port 101 communicates with the rolling brush accommodating chamber 120a, and the fluid ejected from the ejection port 111 can be recovered through the water return port 101, so that the surface to be cleaned can be drier and tidier, the fluid in the liquid state is prevented from remaining on the surface to be cleaned, and the filter screen 122 can be disposed at a position close to the water return port 101. Further, the water returning port 101 is located downstream of the screen 122 in the forward moving direction of the cleaning apparatus. When the roller brush 121 rolls along the rolling direction thereof, a part of the liquid fluid on the roller brush 121 collides with the screen 122 along the rolling direction, and the liquid fluid moves toward the area in the opposite direction or the area in the opposite direction where the roller brush 121 rolls through the collision of the screen 122, so that the liquid fluid can fly into the water return port 101, and the fluid can be recovered.

With continued reference to fig. 4-7, in the present embodiment, the surface of the screen 122 facing the roller brush 121 may be configured as a plane, and furthermore, at least a portion of the surface of the screen 122 facing the roller brush 121 may be configured as an arc-shaped surface, which coincides with at least a portion of the peripheral wall of the roller brush 121. Specifically, the sludge thrown onto the filter screen 122 by the rolling brush 121 can flow down quickly along the smooth arc-shaped surface of the filter screen 122, so as to reduce the excessive sludge accumulated on the filter screen 122. The embodiment does not limit this, and those skilled in the art can flexibly select the target according to the needs.

In this embodiment, with continued reference to fig. 3, there is a gap between the lower edge of the screen 122 and the peripheral wall of the roller brush 121. Specifically, the gap may be used as a water outlet gap of the fluid injection assembly 11, that is, the fluid injection assembly 11 may inject the fluid onto the roller brush 121 through the gap.

In some other embodiments of the present invention, the lower edge of the screen 122 is in contact with the peripheral wall of the roll brush 121. When the rolling brush 121 rotates, the dirt on the rolling brush 121 can be thrown onto the filter screen 122, so that the liquid or other impurities on the rolling brush 121 can be thrown off, the rolling brush 121 can be kept clean and dry, and the cleaning performance of the floor brush 100 can be improved.

Further, in this embodiment, with continued reference to fig. 3, the floor brush 100 further includes a scraper 13 disposed in the body 10, the scraper 13 is in a shape of a long strip and can extend along the length direction of the roller brush 121, and the free end of the scraper 13 contacts with the outer peripheral wall of the roller brush 121. Specifically, when the rolling brush 121 rotates, the sewage on the rolling brush 121 can be thrown onto the mud scraper 13, so that the liquid or other impurities on the rolling brush 121 can be thrown off, which is beneficial to keeping the rolling brush 121 clean and dry, and further can improve the cleaning performance of the floor brush 100.

In this embodiment, with continued reference to fig. 3, the roller brush assembly 12 is detachably connected to the main body 10 via the cover plate 120, so that when the roller brush 121 needs to be cleaned or repaired, the roller brush assembly 12 can be directly detached from the main body 10. Specifically, the body 10 is provided with a slide rail 102, the cover plate 120 is provided with a slider 120b, and the slider 120b is slidably inserted into the slide rail 102. At this time, the installation of the entire roller brush assembly 12 with respect to the body 10 can be achieved by the sliding assembly of the slider 120b with the slide rail 102. In cooperation with the slider 120b and the slide rail 102, a first locking structure may be further included, which is disposed on the body 10 and the cover 120, or the first locking structure may be disposed only on the body 10 or only on the cover 120 for locking and unlocking the sliding between the slider 120b and the slide rail 102. Therefore, when the first locking structure is unlocked, the slider 120b can slide relative to the slide rail 102, and the whole rolling brush assembly 12 can be mounted and dismounted by the relative sliding between the member 120b and the slide rail 102, and when the first locking structure is locked, the slider 120b cannot slide relative to the slide rail 102, and the whole rolling brush assembly 12 cannot be mounted and dismounted by the relative sliding between the slider 120b and the slide rail 102, but this can ensure that the rolling brush assembly 12 can be stably mounted on the body 10, and prevent the risk of falling.

In other embodiments of the present invention, the cover plate 120 may be fixedly connected to the body 10, and the connection manner between the cover plate 120 and the body 10 is not limited in this embodiment, and those skilled in the art can flexibly select the connection manner according to the needs.

It should be noted that, no matter the cover plate 120 is detachably connected or fixedly connected with the body 10, the filter assembly is detachably connected with the cover plate 120, so that when the filter assembly needs to be cleaned, the filter assembly is directly disassembled from the body 10.

In this embodiment, as shown in fig. 6-7, the floor brush 100 further includes a second locking structure for locking and unlocking the connection between the filter assembly and the cover plate 120. Specifically, when the filter assembly is installed in place, the second locking structure is controlled to lock the filter assembly, the filter assembly cannot move relative to the cover plate 120, and then the connection between the filter assembly and the cover plate 120 is realized, correspondingly, when the filter assembly needs to be disassembled, the second locking structure is controlled to be unlocked, the locking on the filter assembly is released, the filter assembly can be disassembled from the cover plate 120 at the moment, and the filter assembly is cleaned.

Specifically, in this embodiment, with continued reference to fig. 6-7, the filter assembly further includes an inclined bar-shaped connecting plate 123 connected to the filter screen 122 and a lock housing 124 disposed at a middle position of the connecting plate 123, and accordingly, two opposite protrusions 120c and a holding block 120d disposed between the two protrusions 120c are protruded from the cover plate 120, the two protrusions 120c are disposed at intervals, and a lock slot 120e is disposed on the protrusion 120c, a second locking structure is disposed on the lock housing 124, the second locking structure includes two toggle buttons 14 and two elastic members 15, the two toggle buttons 14 are disposed oppositely, the two toggle buttons 14 can move away from or close to each other, one elastic member 15 is disposed correspondingly on each toggle button 14, wherein one end of each elastic member 15 is connected to the toggle button 14, and the other end is connected to the holding block 120d, the lock button 14 has a toggle portion 140 and a locking portion 141, the lock case 124 is provided with a notch 124a inserted into the locking portion 141, and the locking portion 141 is telescopically disposed in the notch 124 a. When the filter assembly needs to be unlocked, the toggle part 140 is toggled, the locking button 14 compresses the elastic piece 15, the locking part 141 is disengaged from the locking groove 120e and the notch 124a, the filter assembly is disengaged from the second locking structure, the filter assembly can be disassembled and cleaned, the toggle part 140 is released after the filter assembly is disassembled, and the locking part 141 resets under the action of the elastic piece 15. Correspondingly, after the cleaning is finished, the toggle part 140 is toggled, the locking button 14 compresses the elastic piece 15, the locking part 141 is separated from the locking groove 120e, the locking shell 124 of the filter assembly is installed in place at the moment, the locking groove 120e corresponds to the notch 124a in position, and the toggle part 140 is loosened, so that the locking of the filter assembly can be realized.

It should be noted that, the structure of the second locking structure is not limited in this embodiment, and it is within the scope of the present application as long as the locking and unlocking of the filter assembly and the cover plate 120 can be achieved.

In addition, in the existing cleaning machine, a larger distance can be actually existed between the end part of the floor brush and the edge of the cleaning machine, and the existence of the distance can cause the cleaning machine to have a cleaning blind area, such as a corner, a wall edge and the like, so that the floor brush can not smoothly clean dust and dirt in the blind area in the cleaning process, and the cleaning effect is influenced. The reason that current cleaning machine has clean blind area lies in, generally all set up driving motor at the tip of round brush when installing the round brush on current cleaning machine, and in order to guarantee round brush pivoted stability, most cleaning machines still can set up the structure of rotation support in the other one end of round brush, so, driving motor and rotation support's structure can occupy the space at round brush both ends, and make the both ends of round brush and the both ends of cleaning machine produce certain distance, this kind of distance can lead to the both ends of round brush can't stretch out the both ends of cleaning machine at all, can't even with the both ends parallel and level of cleaning machine, so when utilizing the cleaning machine to carry out ground cleaning, the both ends of cleaning machine have the blind area space of certain distance clean not to arrive, the size of this blind area also depends on the distance of round brush tip and cleaning machine tip. In order to solve such a problem, the present application provides the following technical solutions. Referring to fig. 8-15, the floor brush 100 further comprises a hoisting member 16, one end of the hoisting member 16 is connected with the cover plate 120, and the other end of the hoisting member 16 is provided with a sleeve component 17; the rolling brush 121 is rotatably sleeved in the sleeving component 17 and can be supported and rotated in the sleeving component 17.

Therefore, the roller brush 121 in the floor brush 100 completely changes a completely new rotating assembly mode, the assembly mode of the driving motor and the rotating support structure is cancelled at the two ends of the roller brush 121, or at least the rotating support structure is cancelled, the improved structure of the floor brush 100 can at least leave the space occupied by the driving motor or the rotating support structure at one end of the roller brush 121, or even directly leave the space occupied by the driving motor or the rotating support structure at the two ends of the roller brush 121.

When the driving motor or the rotation supporting structure is eliminated, the rotation support of the rolling brush 121 is realized by using the sling 16, in this case, the sling 16 for mounting the rolling brush 121 is not connected to both ends of the rolling brush 121, but is directly mounted at the middle position of the rolling brush 121, and the middle position can be understood as the position other than both ends of the rolling brush 121 on the rolling brush 121, and does not only refer to the midpoint or the vicinity of the midpoint of the rolling brush 121, for example, the sling 16 can be connected to the left or right position of the rolling brush 121, and does not need to be completely located at the midpoint of the rolling brush 121. After the hoisting piece 16 is connected with the rolling brush 121, the rolling brush 121 can be connected with the cover plate 120, so that the structural characteristics that the rolling brush 121 only has a central position for connection can be matched, and even after the hoisting piece 16 is connected to the cover plate 120, a connection structure cannot be formed at two ends of the rolling brush 121, so that the spaces at two ends of the rolling brush 121 can be truly left, and the hoisting piece is used for extending out of two ends of the cleaning machine, and the cleaning work of blind areas is realized.

Therefore, after the rolling brush 121 is connected to the cover plate 120 through the hoisting member 16, the hoisting member 16 can continue to form a rotating assembly with the rolling brush 121 through the sleeving component 17, so that the rolling brush 121 can rotate in the sleeving component 17, when the corresponding driver 18 drives the rolling brush 121 to rotate, the rolling brush 121 can smoothly rotate in the sleeving component 17, and further the original basic function of the rolling brush ground is realized, the ground is cleaned by utilizing the rolling state of the rolling brush 121, therefore, the spaces at two ends of the rolling brush 121 can be left, so that two ends or at least one end of the rolling brush 121 can extend out of the cleaning machine, and the cleaning of the original blind area is realized.

For the socket component 17, the socket component 17 is used for rotatably assembling with the rolling brush 121, because the rolling brush 121 in the original structure is rotatably assembled to the rolling brush 121 through a driving motor or a shaft structure at the end of the rolling brush 121, and the rolling brush 121 is supported together, the socket component 17 also needs to simultaneously support the rolling brush 121 and allow the rolling brush 121 to rotate, so long as the assembly of the rolling brush 121 and the rotation of the rolling brush 121 in the socket component 17 can be realized, the socket component 17 may be an assembly structure formed by a plurality of components together, and actually may also be an individual component structure, for example, the socket component 17 may only include the bearing 170, the inner ring of the bearing 170 is socket-connected with the rolling brush 121, and the outer ring of the bearing 170 is connected with the hanger 16.

At this time, the inner ring and the outer ring of the bearing 170 can roll relatively through the balls in the bearing 170, as long as the outer ring of the bearing 170 is connected with the hoisting member 16, and the inner ring of the bearing 170 is sleeved with the rolling brush 121, the rolling brush 121 can rotate relatively through the inner ring and the outer ring of the bearing 170, so that the relative rotation of the rolling brush 121 relative to the hoisting member 16 is realized, after the hoisting member 16 is connected to the cover plate 120, the rolling brush 121 can also be indirectly connected with the cover plate 120, then the rolling brush 121 is assembled on the body 10 of the cleaning machine along with the assembly of the cover plate 120, the integral support and the rotating assembly of the rolling brush 121 are realized only through the sleeving assembly, and the space at two ends or at least one end of the rolling brush 121 is completely left. The bearing 170 may adopt various bearing 170 structures such as a deep groove ball bearing 170, an angular contact ball bearing 170, a thrust ball bearing 170, and the like, and a person skilled in the art may select a suitable type of bearing 170 according to an assembly requirement, which is not limited herein.

Of course, in addition, the sheathing assembly may also adopt other structures, for example, the sheathing assembly may constitute an annular component, and the annular component and the rolling brush 121 are sleeved, so long as the rolling brush 121 is driven to rotate in the annular component, and in order to reduce friction between the annular component and the rolling brush 121 and improve smoothness of rotation of the rolling brush 121, a shaft structure specially assembled with the annular component may be further disposed in the middle of the rolling brush 121, or a part of the shaft structure contacting with the annular component is polished, and such a structure is not described again.

In order to improve the stability of the rotational assembly between the bearing 170 and the rolling brush 121, the sleeve component 17 may further be configured to fit with corresponding auxiliary components according to the structural characteristics of the bearing 170, for example, the sleeve component 17 further includes a hanging ring 171 disposed at the other end of the hanging piece 16 and sleeved with the outer ring of the bearing 170. The hanging ring 171 is a component with an annular structure, and by utilizing the characteristics of the annular structure of the hanging ring 171, the hanging ring 171 can be directly sleeved with the outer ring of the bearing 170, and the inner annular surface of the hanging ring 171 can be in one-circle continuous contact with the outer surface of the outer ring of the bearing 170, so that a larger contact area can be formed on the outer ring of the bearing 170 based on the characteristics of the annular structure of the outer ring of the bearing 170, and fixed contact can be formed at each position in the circumferential direction, and therefore, the assembly stability of the sleeving assembly 17 can be effectively improved. Moreover, as shown in fig. 14-15, after the hanging ring 171 is sleeved with the outer ring of the bearing 170, the hanging ring 171 is connected with the hanging piece 16, which is more convenient than the way that the hanging piece 16 is directly connected with the outer ring of the bearing 170, and based on the original structure of the outer ring of the bearing 170, only the hanging ring 171 needs to be sleeved with the outer ring of the bearing 170.

As for the roll brush 121, the roll brush 121 may be of an integral structure, or may be of a separate structure, when the rolling brush 121 is of an integral structure, the corresponding socket assembly 17 can be directly rotatably assembled with any position of the rolling brush 121, alternatively, the corresponding position of the roller brush 121 can be formed to be suitable for the rotational assembly of the socket assembly 17, for example, a shaft structure for facilitating the rotational assembly is provided at a corresponding position of the rolling brush 121, which facilitates the rotational assembly of the socket assembly 17 and the rolling brush 121, when the roll brush 121 is of a separate structure, the roll brush 121 may be actually divided into two or more sections, when two or more sections of structures are axially connected to each other, the complete roll brush 121 can be formed by splicing, the split rolling brush 121 structure has the advantage that a gap can be formed between adjacent sections of the two-section or multi-section structure, thereby forming a shaft structure which facilitates the rotating assembly of the socket assembly 17.

Referring to fig. 8 to 11, the roll brush 121 includes a first cylindrical brush 121a and a second cylindrical brush 121b, the first cylindrical brush 121a and the second cylindrical brush 121b are coaxially connected by a connection part 172, and an inner ring of the bearing 170 is sleeved with the connection part 172. At this time, after the roll brush 121 is composed of the first and second cylindrical brushes 121a and 121b, the roll brush 121 is divided into two segments to form a split structure. When the first cylindrical brush 121a and the second cylindrical brush 121b are axially and coaxially connected, a gap can be formed between the inner end of the first cylindrical brush 121a and the inner end of the second cylindrical brush 121b, the gap can facilitate the rotational assembly between the sleeve component 17 and the rolling brush 121, and a gap can be formed between the inner end of the first cylindrical brush 121a and the inner end of the second cylindrical brush 121b to form a shaft structure which is beneficial to the sleeve assembly 17. For example, the first tube brush 121a and the second tube brush 121b are connected by a connecting portion 172, and the connecting portion 172 may be configured to facilitate the sleeving of the sleeving member 17, such as a shaft structure.

Moreover, after a gap is formed between the inner end of the first cylindrical brush 121a and the inner end of the second cylindrical brush 121b, the sleeving component 17 can also extend into the gap formed between the inner end of the first cylindrical brush 121a and the inner end of the second cylindrical brush 121b, so that the rotating assembly between the sleeving component 17 and the rolling brush 121 is firmer and tighter, and the inner end of the first cylindrical brush 121a and the inner end of the second cylindrical brush 121b can also form a certain supporting effect on the part of the sleeving component 17 extending into the gap, so that the overall assembly is more stable.

It should be noted that, when the first brush 121a and the second brush 121b are placed in the opposite direction, the end of the first brush 121a facing the second brush 121b is the inner end of the first brush 121a, the end of the first brush 121a not facing the second brush 121b is the outer end of the first brush 121a, and for the second brush 121b, the end of the second brush 121b facing the first brush 121a is the inner end of the second brush 121b, and the end of the second brush 121b not facing the first brush 121a is the outer end of the second brush 121 b. Meanwhile, referring to fig. 8 to 11, the inner end of the first brush drum 121a is the right end in the drawing, the outer end of the first brush drum 121a is the left end in the drawing, the inner end of the second brush drum 121b is the left end in the drawing, and the outer end of the second brush drum 121b is the right end in the drawing.

As for the connecting portion 172, the connecting portion 172 may have various structural forms as long as the connecting portion 172 can form a coaxial connection between the first cylindrical brush 121a and the second cylindrical brush 121b, and make the first cylindrical brush 121a and the second cylindrical brush 121b form a rotational assembly with the socket assembly 17 by using the connecting portion 172 at the same time, in one embodiment, the connecting portion 172 may form an axial structure for facilitating the rotational assembly with the socket assembly 17, for example, the connecting portion 172 includes an outer sleeve 172a, and the outer sleeve 172a is disposed at the inner end of the first cylindrical brush 121 a; the connecting portion 172 further includes an inner insertion portion 172b, and the inner insertion portion 172b is disposed at an inner end of the second cylindrical brush 121 b; the inner plug part 172b is inserted into the outer sleeve 172a, and the inner ring of the bearing 170 is sleeved with the outer sleeve 172 a. The outer sleeve 172a is a cylindrical structure, so that the outer sleeve can form a coaxial opposite structure with the first cylindrical brush 121a, and after the inserting part 172b is inserted into the outer sleeve 172a, the second cylindrical brush 121b can also form a coaxial opposite structure with the first cylindrical brush 121a, so as to complete the construction of the rolling brush 121.

It should be noted that, in one embodiment, the outer sleeve 172a may be disposed at the inner end of the first cylindrical brush 121a, and the inner insertion portion 172b may be disposed at the inner end of the second cylindrical brush 121b, and in another embodiment, the outer sleeve 172a may also be disposed at the inner end of the second cylindrical brush 121b, and the inner insertion portion 172b may also be disposed at the inner end of the first cylindrical brush 121a, so that, for the coaxial assembly of the first cylindrical brush 121a and the second cylindrical brush 121b, only the outer sleeve 172a and the inner insertion portion 172b need to be respectively assembled at the inner ends of the first cylindrical brush 121a and the second cylindrical brush 121b, and the arrangement positions of the outer sleeve 172a and the inner insertion portion 172b are not limited.

Also, for the division of the first and second cylindrical brushes 121a and 121b, the two parts constituting the roll brush 121 are also called for convenience, and the specific left and right positions of the first and second cylindrical brushes 121a and 121b are not limited, for example, referring to fig. 9 and 12, an outer sleeve 172a is provided at the inner end of the first brush 121a, while the insertion portion 172b is provided at the inner end of the second brush drum 121b, a portion located at the left side in fig. 9 will be referred to as a first brush drum 121a, while the portion on the right in fig. 9 will be referred to as the second brush drum 121b, with continued reference to fig. 11, the portion on the right in fig. 11 will now be referred to as the first brush drum 121a, while the portion located on the left side in fig. 11 is referred to as the second cylindrical brush 121b, the outer sleeve 172a is still disposed at the inner end of the first cylindrical brush 121a, while the inner insertion portion 172b is disposed at the inner end of the second cylindrical brush 121 b.

After the inner plug 172b is plugged into the outer sleeve 172a, in order to ensure that the inner plug 172b and the outer sleeve 172a can form a stable connection, the inner plug 172b and the outer sleeve 172a can be connected by interference fit, and at this time, the inner plug 172b can form a stable connection with the inner wall of the outer sleeve 172a by pressing. In addition, the inner portion of the outer sleeve 172a may also form a groove structure, and the end of the inner insertion portion 172b forms a limiting structure, so that after the inner insertion portion 172b is inserted into the outer sleeve 172a, the corresponding limiting structure may form a fit with the groove structure, so as to limit the inner insertion portion 172b from being separated from the inner portion of the outer sleeve 172a, and improve the connection reliability between the inner insertion portion 172b and the outer sleeve 172a, and other structural forms may be adopted if the connection reliability between the inner insertion portion 172b and the outer sleeve 172a can be improved, which is not limited herein. In addition, the inner inserting portion 172b is in key transmission with the outer sleeve 172a, for example, a spline structure is formed between the inner inserting portion 172b and the outer sleeve 172a, and the key transmission of the spline structure can ensure that the first barrel brush 121a and the second barrel brush 121b rotate synchronously.

After the rolling brush 121 is divided into the first cylindrical brush 121a and the second cylindrical brush 121b, a gap is formed between the inner end of the first cylindrical brush 121a and the inner end of the second cylindrical brush 121b, and although the gap can facilitate the rotational assembly of the socket assembly 17, the cleanable area of the rolling brush 121 can be reduced due to the formed gap, for example, when the gap is relatively obvious, a strip-shaped trace which is not cleaned is left in an area where the rolling brush 121 passes through, in order to increase the cleanable area of the rolling brush 121, in one embodiment, with reference to fig. 12 to 13, the inner end surface of the first cylindrical brush 121a is provided with a first sinking groove 121c, the outer sleeve 172a is located in the first sinking groove 121c, the inner end surface of the second cylindrical brush 121b is provided with a second sinking groove 121d, and the inner insertion portion 172b is located in the second sinking groove 121 d. Therefore, the first and second sinking grooves 121c and 121d can accommodate the outer sleeve 172a and the inner sinking portion 172b to ensure the length of the inner sinking portion 172b and the outer sleeve 172a, and the sufficient length can ensure that the first and second cylindrical brushes 121a and 121b have sufficient connection strength after being relatively connected through the inner sinking portion 172b and the outer sleeve 172a, and the inner sinking portion 172b and the outer sleeve 172a are respectively accommodated in the first and second sinking grooves 121c and 121d to ensure that the outer areas of the first and second cylindrical brushes 121a and 121b do not lose too much, so that the rolling brush 121 can basically ensure that the passing area can be cleaned.

As for the arrangement of the first sinking groove 121c and the second sinking groove 121d, only the first sinking groove 121c may be arranged, only the second sinking groove 121d may be arranged, or both the first sinking groove 121c and the second sinking groove 121d may be arranged. For example, the inner end surface of the first cylindrical brush 121a is provided with a first sinking groove 121c, the outer sleeve 172a is located in the first sinking groove 121c, the inner end surface of the second cylindrical brush 121b is not provided with a second sinking groove 121d, and the inner insertion portion 172b is directly arranged on the inner end surface of the second cylindrical brush 121b, so that when the first cylindrical brush 121a and the second cylindrical brush 121b are assembled, the inner insertion portion 172b can be directly accommodated in the first sinking groove 121c after being inserted into the outer sleeve 172 a. Or, the inner end surface of the second cylindrical brush 121b is provided with a second sunken groove 121d, the inner insertion portion 172b is located in the second sunken groove 121d, the inner end surface of the first cylindrical brush 121a is not provided with the first sunken groove 121c, but the outer sleeve 172a is directly arranged on the inner end surface of the first cylindrical brush 121a, and when the first cylindrical brush 121a and the second cylindrical brush 121b are assembled, the outer sleeve 172a can be directly accommodated in the second sunken groove 121d after the inner insertion portion 172b is inserted into the outer sleeve 172 a. Further alternatively, the inner end surface of the first cylindrical brush 121a is provided with a first sinking groove 121c, the outer sleeve 172a is located in the first sinking groove 121c, the inner end surface of the second cylindrical brush 121b is provided with a second sinking groove 121d, and the inner insertion portion 172b is located in the second sinking groove 121 d.

In order to ensure the sealing performance of the gap formed between the first cylindrical brush 121a and the second cylindrical brush 121b, a sealing member may be further provided, and the sealing member is to be disposed between the inner end of the first cylindrical brush 121a and the inner end of the second cylindrical brush 121b in a sealing manner, so that after the first cylindrical brush 121a and the second cylindrical brush 121b are relatively connected, the sealing performance of the middle connecting parts 172 can be ensured. For example, the sealing member is a sealing ring, the sealing ring is disposed on the hanging ring 171, and the hanging ring 171 is in sealing contact with the inner end surface of the first cylindrical brush 121a and the inner end surface of the second cylindrical brush 121b through the sealing ring. In addition, the sealing member may have any configuration as long as the sealing member can be filled between the inner end surface of the first cylindrical brush 121a and the inner end surface of the second cylindrical brush 121b and seal the gap formed between the inner end of the first cylindrical brush 121a and the inner end of the second cylindrical brush 121b, and the configuration of the sealing member is not limited herein.

The rolling brush 121 is connected to the cover plate 120 in a manner that the hoisting piece 16 is rotatably assembled, so that two ends of the rolling brush 121 do not need to be connected, and the end of the rolling brush 121 can extend out of the end of the cleaning agent as required to clean the original blind area, and when the cover plate 120 is assembled with the body 10 of the cleaning device, the end of the cleaning machine is equivalent to the end of the cover plate 120, so that at least one end face of the rolling brush 121 is flush with the end face of the cover plate 120 or exceeds the end face of the cover plate 120 in the transverse direction, and no matter the end face of the rolling brush 121 exceeds the end face of the cover plate 120 or is just flush with the end face of the cover plate 120, at this moment, the rolling brush 121 assembly is assembled on the cleaning machine, and the rolling brush 121 can clean the original blind area at the end, so that the cleaning area and the cleaning efficiency are improved. Meanwhile, in order to improve the installation between the hoisting piece 16 and the cover plate 120, an insert can be arranged at one end of the hoisting piece 16 connected with the cover plate 120, and an insertion slot is formed in the inner wall of the cover plate 120 and is inserted and assembled with the insertion slot. By utilizing the mutual insertion assembly of the plug-in and the slot, not only is the operation convenient and the disassembly of the assembly of the rolling brush 121 facilitated, but also the insertion form of the insertion and the slot can form a stable assembly structure.

Referring to fig. 9, the floor brush 100 further comprises a driver 18, wherein the driver 18 is disposed on the body 10 and is in driving connection with the rolling brush 121 of the floor brush assembly, and drives the rolling brush 121 to rotate in the socket assembly 17. At this time, the position of the driver 18 on the body 10 is not limited, the driver 18 may be a single device, or may be an assembly structure formed by assembling a plurality of components, for example, the driver 18 may be a driving motor, the driving motor is connected to one end of the rolling brush 121, and the other end of the rolling brush 121 is exposed, and actually, one end of the rolling brush 121, which is not connected to the driving motor, can also extend out of the end of the cleaning machine, and the cleaning of the original blind area is realized, which can also realize the purpose of increasing the cleaning area. Besides, the driver 18 may also adopt other structural forms, for example, the driver 18 may adopt a roller structure, the roller may also be multiple, the multiple rollers are in frictional contact with the surface of the rolling brush 121, and the roller rotates to frictionally drive the rolling brush 121 to rotate, which does not occupy the space at any one of the two ends of the rolling brush 121, and the installation position and the structure of the driver 18 are not limited.

In one embodiment, with continued reference to fig. 9, for the installation of the actuator 18, a side arm 19 is further included, which is disposed on the body 10 and opposite to one end of the roller brush 121, and the actuator 18 is disposed on the side arm 19 and is in driving connection with one end of the roller brush 121. The side arm 19 can be used as a base for installing the driver 18 and is arranged on one side in front of the body 10, when the driver 18 drives and connects the rolling brush 121 by taking the side arm 19 as the base, although the driver occupies the space at one end of the rolling brush 121, the other end of the rolling brush 121 is not influenced to extend out of the cleaning machine, and the cleaning of the original blind area is realized.

And after collateral branch arm 19 took the space of round brush 121 one end, it also forms corresponding connection to this end of round brush 121 actually, just so need correspond the setting at this moment and cup joint the hookup location of subassembly 17 with round brush 121, because the roll comb only is connected with the collateral branch arm 19 who cup joints subassembly 17 and tip this moment, two tie points need form the complex support, make round brush 121 rotate the more stable of assembly. In one embodiment, the rotational nesting of the nesting component 17 on the roller 121 is located a first distance from the end of the roller 121 connected to the side arm 19 and a second distance from the other end, and the first distance is greater than the second distance. Wherein, the ratio of the first distance to the second distance is 2-6, and the ratio of the first distance to the second distance may be 2, 3, 4, 5, 6, etc., that is, when the roll brush 121 is composed of the first cylinder brush 121a and the second cylinder brush 121b, the ratio of the lengths of the first cylinder brush 121a and the second cylinder brush 121b may be 1, 2, 3, 4, 5, etc., which is not limited herein. Since the side arms 19 are directly connected to the ends of the roller brush 121, the farther the socket assembly 17 is connected to the roller brush 121 from the side arms 19, the more balanced the rotational assembly of the roller brush 121 is.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a floor brush, its characterized in that includes the body, set up in fluid jet subassembly, cylindric round brush and the filter assembly in the body, the filter assembly includes the filter screen, and at least part the filter screen is located the round brush with between the fluid jet subassembly.

2. The floor brush of claim 1, further comprising a cover plate defining a roller brush receiving cavity, the roller brush being rotatably disposed in the roller brush receiving cavity,

the filtering component is arranged on the cover plate,

the filter screen is long strip-shaped, and the filter screen extends along the length direction of the rolling brush.

3. A floor brush according to claim 2, wherein the cover plate, the body and the roller brush form a receiving space around the roller brush, the filter screen and the fluid injection assembly are located in the receiving space, and at least a part of the surface of the filter screen facing the roller brush is configured to be a plane; or

At least part of the surface of the filter screen facing the roller brush is configured into an arc-shaped surface which is matched with at least part of the peripheral wall of the roller brush.

4. A floor brush according to claim 3, wherein said screen does not contact the peripheral wall of said roller brush or

The filter screen contacts with the periphery wall of round brush.

5. A floor brush as defined in claim 2 wherein said filter assembly is removably connected to said cover plate, said floor brush further comprising:

a locking structure for locking and unlocking the connection between the filter assembly and the cover plate.

6. The floor brush of claim 5, wherein the locking structure comprises a locking portion disposed on the filter assembly and a locking groove formed on the cover plate, and the locking portion can extend into or be separated from the locking groove.

7. A floor brush as claimed in claim 6 wherein said latch arrangement further comprises a resilient member for resetting said latch portion, said resilient member having one end fixed to said filter assembly and the other end abutting said latch portion.

8. A floor brush as defined in claim 1 wherein said filter assembly is removably disposed to said body.

9. A floor brush as defined in claim 8, further comprising:

one end of the hoisting piece is connected with the body, and the other end of the hoisting piece is provided with a sleeving component;

the socket assembly includes:

the inner ring of the bearing is sleeved with the rolling brush, and the outer ring of the bearing is connected with the hoisting piece;

and the lifting ring is arranged at the other end of the lifting piece and is sleeved with the outer ring of the bearing.

10. A cleaning device comprising a floor brush as claimed in any one of claims 1-9.

Images