CN114795008A - Dust collector floor brush and dust collector - Google Patents

Abstract

The invention discloses a dust collector floor brush and a dust collector, wherein the dust collector floor brush comprises: a ground brush host; the spraying device comprises a liquid conveying pipeline and a liquid pumping pump, the liquid conveying pipeline comprises a liquid inlet end and a liquid outlet end, a sensing device for sensing cleaning liquid is arranged on the liquid conveying pipeline, and the liquid pumping pump is connected in series with the liquid conveying pipeline; and the control circuit is respectively electrically connected with the sensing device and the liquid pump and is used for controlling the liquid pump to switch between a first liquid pumping mode and a second liquid pumping mode according to a sensing signal fed back by the sensing device, and the liquid pumping speed in the second liquid pumping mode is higher than that in the first liquid pumping mode. According to the technical scheme provided by the invention, whether cleaning liquid exists in the infusion pipeline is detected through the sensing device, when no cleaning liquid is detected, the control circuit controls the liquid pump to operate in the second liquid pumping mode, the cleaning liquid in the liquid storage tank is rapidly pumped to the spraying part, so that a user does not need to wait for a long time when the user starts to use the dust collector to brush the floor, and the user experience is improved.

Description

Dust collector floor brush and dust collector

Technical Field

The invention relates to the technical field of dust collectors, in particular to a dust collector floor brush and a dust collector.

Background

At present, the existing dust collector floor brush on the market sets up the liquid level detection device on the liquid reserve tank that supplies liquid, and when the liquid level in the liquid reserve tank was less than preset liquid level, the water yield detection device detected the liquid reserve tank and for no liquid state and feed back to the controller, and the controller then controls drawing liquid pump stall, and the dust collector floor brush stops spraying cleaning solution. When liquid is added to the liquid storage tank to the liquid level detection device and the liquid storage tank is detected to have cleaning liquid, the liquid storage tank can be restarted to spray the cleaning liquid.

However, current dust catcher scrubbing brush when the initial stage is used, if add the cleaning solution in the stock solution tank of dust catcher scrubbing brush, liquid level detection device on the stock solution tank will detect, then the drawing liquid pump will be with fixed drawing liquid speed with the cleaning solution take out to hydrojet pipeline, treat that hydrojet pipeline is full of after the cleaning solution just can be from hydrojet mouth blowout cleaning solution in ground, so lead to the play liquid speed when dust catcher scrubbing brush begins to use slower, need wait for longer time after the start uses.

Disclosure of Invention

The invention mainly aims to provide a dust collector floor brush, and aims to solve the technical problem that the existing dust collector floor brush has a slow liquid outlet speed when being started for use.

In order to achieve the above object, the present invention provides a floor brush for a vacuum cleaner, comprising:

a ground brush host;

the spraying device is arranged on the ground brush host, the spraying device comprises a liquid inlet end and a liquid outlet end, the liquid inlet end is used for being connected with a liquid storage box, the liquid outlet end is used for being connected with a spraying part, an induction device used for inducing cleaning liquid is arranged on the liquid inlet end, and the liquid outlet pump is connected in series with the liquid inlet end;

the control circuit is arranged on the ground brush host, is respectively electrically connected with the sensing device and the liquid pump, and is used for controlling the liquid pump to switch between a first liquid pumping mode and a second liquid pumping mode according to a sensing signal fed back by the sensing device, wherein the liquid pumping speed in the second liquid pumping mode is higher than the liquid pumping speed in the first liquid pumping mode;

when the liquid reserve tank is annotated with the cleaning solution, if induction system detects cleaning solution in the infusion pipeline is less than and predetermines the liquid level, then passes through control circuit control the drawing liquid pump in operation under the second drawing mode, if induction system detects cleaning solution in the infusion pipeline equals or is higher than and predetermines the liquid level, then passes through control circuit control the drawing liquid pump in operation under the first drawing mode.

In some embodiments, the liquid pump operates in the first liquid pumping mode, such that after the cleaning liquid in the liquid storage tank is pumped out and the sensing device detects that the cleaning liquid in the infusion pipeline is lower than a preset liquid level, the liquid pump is controlled by the control circuit to stop operating or continue operating in the first liquid pumping mode.

In some embodiments, the first pumping mode comprises a first sub-mode and a second sub-mode, and the pumping speed in the second sub-mode is greater than the pumping speed in the first sub-mode;

the dust collector floor brush further comprises an identification component, the identification component is electrically connected with the control circuit and used for sensing an external signal and sending the external signal to the control circuit, and the control circuit controls the liquid pump to switch between the first sub-mode and the second sub-mode according to the external signal.

In some embodiments, the control circuit controls the liquid pump to operate in the second liquid pumping mode until a preset amount of cleaning liquid is injected into the spraying part, and the control circuit controls the liquid pump to switch from the second liquid pumping mode to the first liquid pumping mode.

In some embodiments, the sensing device is disposed between the liquid pump and the liquid outlet end;

or the sensing device is arranged between the liquid inlet end and the liquid pump.

In some embodiments, the sensing device comprises a first housing and a sensor, a first liquid channel for communicating with the infusion pipeline is formed in the first housing, and the sensor is mounted on the outer wall of the first housing corresponding to the first liquid channel.

In some embodiments, the infusion line comprises:

one end of the liquid inlet pipe section is the liquid inlet end, and the other end of the liquid inlet pipe section is connected with a suction port of the liquid pump;

one end of the connecting pipe section is connected with the discharge port of the liquid pump, and the other end of the connecting pipe section is connected with one end of the first liquid channel;

one end of the liquid outlet pipe section is connected with the other end of the first liquid channel, and the other end of the liquid outlet pipe section is the liquid outlet end;

or, the infusion pipeline comprises:

one end of the liquid inlet pipe section is the liquid inlet end, and the other end of the liquid inlet pipe section is connected with one end of the first liquid channel;

one end of the connecting pipe section is connected with the other end of the first liquid channel, and the other end of the connecting pipe section is connected with a suction port of the liquid pump;

and one end of the liquid outlet pipe section is connected with the discharge port of the liquid pump, and the other end of the liquid outlet pipe section is the liquid outlet end.

In some embodiments, the dust collector floor brush further comprises a spraying part, the spraying part further comprises a second casing, the second casing is provided with the liquid inlet and a plurality of liquid outlets, the liquid inlet is communicated with the liquid outlet, a second liquid channel is formed in the second casing, the second liquid channel is communicated with the liquid inlet and the liquid outlets, and the liquid outlets are uniformly distributed on the same side of the second casing at intervals.

In some embodiments, the second liquid channel includes a main flow channel and a plurality of branch flow channels connected to the main flow channel, the liquid inlet is connected to the main flow channel, and each branch flow channel is connected to at least one of the liquid outlets.

In some embodiments, the second housing includes a bottom shell and a cover plate installed on the bottom shell, the liquid outlets are disposed on an outer side wall of the bottom shell, a groove is disposed in the bottom shell, the cover plate covers and seals a notch of the groove, the cover plate and the groove cooperate to form the second liquid channel, a sinking groove adapted to the cover plate is further disposed on an inner side of the bottom shell, the cover plate is installed in the sinking groove, and the groove is disposed on a bottom wall of the sinking groove.

In some embodiments, the dust collector floor brush further comprises a liquid storage tank, a liquid outlet joint is arranged at the bottom of the liquid storage tank, and the liquid inlet end is communicated with the liquid outlet joint.

In some embodiments, the main floor brush comprises an upper cover, a first groove is formed in the surface of the upper cover, a liquid inlet is formed in the bottom wall of the first groove, the liquid storage tank is detachably connected with the upper cover, and the liquid outlet joint is communicated with the liquid inlet;

the sealing element is arranged in the first groove, an annular inclined surface is formed on the sealing element, a deformation cavity is formed between the annular inclined surface and the groove wall of the first groove, and the liquid outlet joint is inserted into the sealing element and abuts against the annular inclined surface, so that the annular inclined surface deforms towards the deformation cavity.

In some embodiments, one end of the annular inclined surface, which is close to the liquid inlet, is provided with a step which is protruded inwards, and the step abuts against the groove wall of the first groove and is positioned at the periphery of the liquid inlet;

the sealing element further comprises a connecting end extending along the direction of the step back to the liquid outlet joint, the connecting end comprises a first connecting end and a second connecting end which are connected in a bending mode, the first connecting end is provided with a through hole communicated with the first groove, the first connecting end is accommodated in the liquid inlet and abutted against the wall surface of the liquid inlet, and the second connecting end is located on the periphery of the liquid inlet and abutted against the outer bottom wall of the first groove.

In some embodiments, the vacuum cleaner floor brush further comprises a liquid inlet joint, the liquid inlet joint abuts against a surface of the second connecting end, which is far away from the liquid outlet joint, and an opening of the liquid inlet joint is communicated with the liquid inlet.

In some embodiments, one end of the annular inclined plane, which is far away from the liquid inlet, is bent and extended outwards to form a connecting part, the upper cover is provided with a second groove surrounding the first groove, and the connecting part is accommodated in the second groove.

In some embodiments, the liquid storage tank comprises a tank body and a tank cover, a liquid storage cavity is formed inside the tank body, a liquid injection port and a sealing assembly for sealing the liquid injection port are arranged on the tank cover, and the liquid injection port and the liquid outlet joint are both communicated with the liquid storage cavity.

In some embodiments, the main body of the floor brush further comprises a base, the base is connected with the upper cover to form an accommodating cavity, a driving device is arranged in the accommodating cavity, a floor wiping piece is arranged at the bottom of the base, the floor wiping piece is connected with an output execution end of the driving device, and the driving device is used for driving the floor wiping piece to reciprocate along a preset direction.

In some embodiments, a bayonet is arranged on one side of the liquid storage tank close to the front end of the floor brush host, and a tenon is convexly arranged on the side wall of the front end of the upper cover corresponding to the bayonet; the clamping hook is protruded out of the bottom wall of the box body and comprises a third connecting part and a fourth connecting part which are mutually connected and arranged in an intersecting manner, the third connecting part is also connected with the bottom wall of the box body, the third connecting part and the fourth connecting part are enclosed to form the bayonet, and the fourth connecting part is obliquely arranged relative to the bottom wall of the box body;

and/or one side of the liquid storage tank close to the rear end of the floor brush main machine is provided with a containing groove, and a telescopic tongue is arranged in the containing groove; the rear side of the upper cover is provided with a butt joint groove corresponding to the telescopic tongue, and the telescopic tongue is used for stretching into the butt joint groove to connect the liquid storage tank and the upper cover.

In some embodiments, the driving device comprises at least two groups of driving assemblies, and the at least two groups of driving assemblies are arranged at intervals and are respectively connected with the floor mopping piece, so that the floor mopping piece can reciprocate on the floor when in dust collection.

In some embodiments, the floor mopping piece comprises two floor mopping pieces which are arranged at intervals, and the driving assembly comprises

The connecting shaft comprises a first journal and a second journal which are connected in a staggered manner;

one end of the first crank is rotatably sleeved on the first shaft neck, and the other end of the first crank is hinged with the floor wiping piece; and

one end of the second crank is rotatably sleeved on the second journal, and the other end of the second crank is hinged with the other floor mopping piece.

In some embodiments, the driving device further includes a driving motor, the connecting shaft is formed with a first shaft hole penetrating through the first journal and the second journal, the first shaft hole is offset from the center of the first journal and the second journal, and the connecting shaft is sleeved on a motor shaft of the driving motor through the first shaft hole.

In some embodiments, the number of the driving assemblies includes two, the driving motors are two shaft motors, two motor shafts of the driving motors respectively face one driving assembly, the two shaft motors are located between the two driving assemblies, and connecting shafts of the two driving assemblies are respectively sleeved on the two motor shafts of the two shaft motors through the respective first shaft holes.

In some embodiments, the bottom of the main floor brush is provided with an air inlet, the main floor brush is provided with a dust collecting pipeline connected with the main floor brush and communicated with the air inlet, a sealing assembly is arranged in an air duct of the air inlet, and the sealing assembly blocks the rear end of the air inlet so that airflow of the air inlet flows into the dust collecting pipeline after being reflected by the sealing assembly.

In some embodiments, the base includes a bottom plate and a side plate connected to the bottom plate and extending toward the ground, the bottom plate is bent and extends toward the ground at the air inlet to form a baffle, the air inlet is located between the baffle and the side plate, and the baffle and the side plate cooperate to form an air duct of the air inlet.

In some embodiments, the sealing assembly includes a mounting member and a guide member disposed on the mounting member, the mounting member is detachably connected to the baffle, one end of the guide member abuts against an end wall of the open end of the dust collecting duct, and the other end of the guide member contacts with the floor surface during dust collection.

In some embodiments, the dust collection conduit comprises:

the dust collection device comprises a pipe body, a dust collection pipe and a dust collection pipe, wherein two ends of the pipe body are open, a dust collection air duct extending from one end to the other end of the pipe body is arranged in the pipe body, and at least one opening is formed in the outer wall of the pipe body;

at least one cover body is arranged on the pipe body, and the cover body covers the opening.

In some embodiments, the cleaner floor brush further comprises:

the base is detachably connected with the floor mopping piece, and one side surface of the base, which is back to the floor mopping piece, is used for installing cleaning cloth.

In some embodiments, the vacuum cleaner floor brush further comprises a rotary joint, wherein the rotary joint comprises a first joint and a second joint, the second joint is rotatably connected with one end of the first joint, the other end of the first joint is rotatably connected with the floor brush main body, the first joint can rotate along a first direction relative to the floor brush main body, the second joint can rotate along a second direction relative to the first joint, and the first direction is different from the second direction.

The invention further provides a dust collector, which comprises a dust collector main body and the dust collector floor brush, wherein the dust collector floor brush is connected with the dust collector main body.

According to the technical scheme provided by the invention, whether cleaning liquid exists in the infusion pipeline is detected through the sensing device, when no cleaning liquid is detected, the control circuit controls the liquid pump to operate in the second liquid pumping mode, the cleaning liquid in the liquid storage tank is rapidly pumped to the spraying part, so that a user does not need to wait for a long time when the user starts to use the dust collector to brush the floor, and the user experience is improved.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the floor brush of the vacuum cleaner shown in FIG. 1;

FIG. 3 is a schematic structural diagram of a spraying apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a spraying device according to another embodiment of the present invention;

FIG. 5 is a schematic circuit diagram of a vacuum cleaner floor brush according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of the structure of the induction device of FIG. 1;

FIG. 7 is a partial schematic view of the bottom of the floor brush of the vacuum cleaner of FIG. 1;

FIG. 8 is a schematic view of a portion of the interior of the floor brush of the vacuum cleaner of FIG. 1;

FIG. 9 is a schematic view of the spray member of FIGS. 7 and 8;

FIG. 10 is a schematic bottom view of the sprinkler component of FIG. 9;

FIG. 11 is a schematic view of the bottom housing of the spray assembly of FIG. 9;

FIG. 12 is a schematic view of the cover plate of the sprinkler component of FIG. 9;

FIG. 13 is a cross-sectional view of the sprinkler component of FIG. 9;

FIG. 14 is a cross-sectional view of the spray assembly of FIG. 9 mounted on the base of a vacuum cleaner floor brush;

FIG. 15 is an exploded view of the vacuum cleaner floor brush of the embodiment of FIG. 1;

FIG. 16 is a schematic bottom view of the reservoir of FIG. 15;

FIG. 17 is a schematic view of a portion of the cover of the vacuum cleaner brush of FIG. 15;

FIG. 18 is an enlarged partial schematic view taken at A in FIG. 17;

FIG. 19 is a schematic view of a portion of the cover and reservoir of the floor brush of the vacuum cleaner of FIG. 15;

FIG. 20 is an enlarged partial schematic view at B of FIG. 19;

FIG. 21 is a schematic view of the seal of FIG. 20;

FIG. 22 is a cross-sectional view of the seal of FIG. 21;

FIG. 23 is an exploded view of the reservoir of FIG. 16;

FIG. 24 is a schematic view of a portion of the cover and reservoir of the floor brush of the vacuum cleaner of FIG. 15;

FIG. 25 is an enlarged partial view at C of FIG. 24;

FIG. 26 is a schematic structural diagram of the main frame of the floor brush of FIG. 1;

FIG. 27 is an enlarged partial schematic view taken at D in FIG. 26;

FIG. 28 is a schematic view of a portion of the cover and reservoir of the floor brush of the vacuum cleaner of FIG. 15;

FIG. 29 is an enlarged partial schematic view at E of FIG. 28;

FIG. 30 is a schematic view of the internal structure of the base of the main body of the floor brush of FIG. 15;

FIG. 31 is a bottom view of the base of the floor brush main body of FIG. 15;

FIG. 32 is a schematic view of the structure of the driving device in FIG. 30;

FIG. 33 is an exploded view of the drive assembly of FIG. 32;

FIG. 34 is a cross-sectional view of the floor brush of the cleaner of FIG. 1;

FIG. 35 is an enlarged partial schematic view at F of FIG. 34;

FIG. 36 is a cross-sectional view of the structure at the wind tunnel of FIG. 35;

FIG. 37 is a schematic structural view of the rotary joint shown in FIG. 1;

FIG. 38 is a schematic view of the construction of a dust collection conduit according to the present invention;

FIG. 39 is an exploded view of the dust collection conduit of FIG. 38;

FIG. 40 is a cross-sectional view of the dust collection conduit of FIG. 38;

FIG. 41 is a schematic view of the construction of the floor scrubbing member, base and cleaning cloth of the present invention;

FIG. 42 is a schematic view of a liquid storage tank according to the present invention;

FIG. 43 is an exploded view of the reservoir of FIG. 42;

FIG. 44 is a cross-sectional view of the reservoir of FIG. 42;

FIG. 45 is a schematic view of a floor brush of a vacuum cleaner according to another embodiment of the present invention.

Description of the reference numerals

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be illustrative of the present invention and should not be construed as limiting the present invention, and all other embodiments that can be obtained by one skilled in the art based on the embodiments of the present invention without inventive efforts shall fall within the scope of protection 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.

It will also be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only 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 addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a floor brush for a vacuum cleaner, comprising:

a floor brush main machine 1;

the spraying device 2 is arranged on the ground brush host 1, the spraying device 2 comprises a liquid conveying pipeline 21 and a liquid pump 22, the liquid conveying pipeline 21 comprises a liquid inlet end 211 used for being connected with the liquid storage box 5 and a liquid outlet end 212 used for being connected with the spraying part 4, an induction device 23 used for inducing cleaning liquid is arranged on the liquid conveying pipeline 21, and the liquid pump 22 is connected in series with the liquid conveying pipeline 21;

the control circuit 3 is arranged on the ground brush host 1, the control circuit 3 is respectively electrically connected with the sensing device 23 and the liquid pump 22, and is used for controlling the liquid pump 22 to switch between a first liquid pumping mode and a second liquid pumping mode according to a sensing signal fed back by the sensing device 23, and the liquid pumping speed in the second liquid pumping mode is greater than the liquid pumping speed in the first liquid pumping mode;

when the liquid reserve tank was annotated with the cleaning solution, if induction system detected that the cleaning solution in the infusion pipeline is less than predetermineeing the liquid level, then operated under the second drawing liquid mode through control circuit control drawing liquid pump, if induction system detected that the cleaning solution in the infusion pipeline equals or is higher than predetermineeing the liquid level, then operated under first drawing liquid mode through control circuit control drawing liquid pump. The cleaning solution can be selected from water, soap water, washing powder water, washing liquid water, effervescent tablet water, etc.

With the vacuum cleaner floor brush of the spraying device 2 of the present embodiment, when the cleaning liquid is sprayed: when the sensing device 23 detects that the cleaning solution is fed back, it indicates that the cleaning solution is present at the position where the sensing device 23 is disposed on the infusion pipeline 21, and the product shows that the cleaning solution is present, the liquid pump 22 operates to make the cleaning solution in the liquid storage tank 5 flow to the spraying part 4 through the infusion pipeline 21, and spray the cleaning solution from the spraying part 4 to the surface to be cleaned (ground, wall, etc.) or the cleaning part (e.g., floor brush, rolling brush, etc.); when induction system 23 detected the feedback and did not have the cleaning solution, infusion pipeline 21 set up induction system 23's position department and did not have the cleaning solution, and the product demonstration is no cleaning solution state, explains that the cleaning solution in liquid reserve tank 5 has used up promptly, and also does not have the cleaning solution in the infusion pipeline 21 part between induction system 23 and the inlet liquor end 211, lets drawing pump 22 stop work this moment, spouts the cleaning solution and accomplishes. After the product finishes spraying the cleaning liquid, the part of the infusion pipeline 21 between the sensing device 23 and the liquid inlet end 211 has no cleaning liquid, the cleaning liquid in the part of the infusion pipeline 21 between the sensing device 23 and the liquid outlet end 212 is also partially carried out by the inertia when the liquid pump 22 stops, and the residual cleaning liquid amount in the whole infusion pipeline 21 is very small.

After replenishing the cleaning solution in liquid reserve tank 5, when using again, induction system 23 detects the feedback and does not have the cleaning solution, steerable drawing liquid pump 22 switches to the mode work (second drawing mode) of a large amount of suction cleaning solutions this moment, make the cleaning solution in the liquid reserve tank 5 in the twinkling of an eye by the position department of suction induction system 23, induction system 23 then detects the feedback and has the cleaning solution, the mode work (first drawing mode) of normal suction cleaning solution is switched back to in the control drawing liquid pump 22 again, thus, can make the product start-up when using, just can reach in the twinkling of an eye and normally spout the cleaning solution state, the clean liquid time of waiting for out has been saved. Wherein the second pumping mode may be a continuous pumping mode and the first pumping mode may be an intermittent pumping mode, i.e., the pumping pump 22 is periodically and alternately activated and deactivated. It will be appreciated that when the vacuum cleaner is used during a floor brushing mode, the sensing device 23 detects that no cleaning liquid is fed back, and the liquid pump 22 is controlled to operate in a mode (second pumping mode) for pumping a large amount of cleaning liquid, so that the cleaning liquid in the tank 5 is instantaneously pumped to the position of the sensing device 23.

The spraying device 2 of the present embodiment, the sensing device 23 for sensing the cleaning solution is disposed on the fluid pipeline 21 between the fluid storage tank 5 and the spraying part 4, when the cleaning solution in the fluid storage tank 5 is used up, the sensing device 23 can still detect the cleaning solution, the liquid pump 22 can continue to operate, until the sensing device 23 has no cleaning solution, the liquid pump 22 can stop operating, at this time, the cleaning solution between the sensing device 23 and the fluid inlet end 211 is already sprayed out, at least a part of the cleaning solution between the sensing device 23 and the fluid outlet end 212 is also brought out by the inertia of the liquid pump 22 when the pump 22 stops, therefore, the cleaning solution in the pipeline between the fluid storage tank 5 and the spraying part 4 is mostly sprayed out, the remaining cleaning solution amount is very small, and the excessive cleaning solution amount remained in the pipeline (i.e. the fluid pipeline 21) between the fluid storage tank 5 and the spraying part 4 is effectively avoided, the odor is generated after the standing time is long.

In some embodiments, the vacuum cleaner floor brush provided by the present invention detects whether there is cleaning liquid in the fluid pipeline 21 through the sensing device 23, when no cleaning liquid is detected, such as when the vacuum cleaner floor brush is started for use, the control circuit 3 controls the liquid pump 22 to operate in the second liquid pumping mode, and the cleaning liquid in the liquid storage tank 5 is rapidly pumped to the sensing device 23, so that the cleaning liquid is rapidly pumped to the spraying component 4, so that a user does not need to wait for a long time when the vacuum cleaner floor brush is started for use, thereby improving the user experience. When the cleaning liquid is detected, the control circuit 3 controls the liquid pump 22 to operate in the first liquid pumping mode, so that the spraying unit 4 sprays the cleaning liquid to the outside uniformly. Wherein, be less than to predetermine the liquid level and can be in infusion pipeline 21 not have the cleaning solution or the liquid level of the cleaning solution in the infusion pipeline 21 is less than the position at induction system 23 place, be higher than or equal to predetermine the liquid level and can be the liquid level of the cleaning solution in the infusion pipeline 21 and be higher than or equal to the position at induction system 23 place, be equipped with the cleaning solution in the infusion pipeline 21 between liquid reserve tank 5 and induction system 23 like this moment, do not have the cleaning solution in the liquid reserve tank 5, or annotate the cleaning solution or fill up the cleaning solution.

In some embodiments, the liquid pump 22 of the present invention is operated in the first liquid pumping mode, such that after the cleaning liquid in the liquid storage tank 5 is pumped out, and the sensing device 23 detects that the cleaning liquid in the liquid conveying pipeline 21 is lower than the predetermined liquid level, the liquid pump 22 is controlled by the control circuit 3 to stop operating or continue to operate in the first liquid pumping mode.

In this embodiment, when the dust collector ground brush is started and kept running in the first liquid pumping mode, if the cleaning liquid in the liquid storage tank 5 is completely pumped out, and the sensing device 23 detects that no cleaning liquid is present in the liquid conveying pipeline 21, the liquid pumping pump 22 can be controlled to stop running through the control circuit 3, so as to reduce the power consumption of the dust collector ground brush. Of course, the control circuit 3 may further control the liquid pump 22 to operate in the first liquid pumping mode, and the liquid pump 22 is in the air pumping state.

In some embodiments, referring to fig. 45, the first pumping mode provided by the present invention includes a first sub-mode and a second sub-mode, and the pumping speed in the second sub-mode is greater than the pumping speed in the first sub-mode; the dust collector floor brush further comprises an identification component 300, the identification component 300 is electrically connected with the control circuit and used for sensing an external signal and sending the external signal to the control circuit, and the control circuit controls the liquid pump to switch between the first sub-mode and the second sub-mode according to the external signal.

In this embodiment, the first fluid pumping mode includes a first sub-mode and a second sub-mode, when the cleaner brushes the cleaning solution to clean the floor, the user can trigger a contact or non-contact control signal through the identification component 300 and send the control signal to the control circuit 3, and the control circuit 3 controls the fluid pumping pump 22 to switch between the first sub-mode and the second sub-mode according to the control signal. The pumping speed under the second sub-mode is greater than the pumping speed under the first sub-mode, when the user needs to increase the spraying amount of the cleaning solution, the control signal can be triggered by the identification component 300 to enable the control circuit 3 to control the pumping pump 22 to switch to the second sub-mode for operation, and when the user needs to reduce the spraying amount of the cleaning solution, the control signal can be triggered by the identification component 300 to enable the control circuit 3 to control the pumping pump 22 to switch to the first sub-mode for operation.

The identification component 300 may be a contact-type mechanical switch, and a user may operate the mechanical switch by kicking or pressing with a hand during use, so that the mechanical switch triggers a corresponding control signal and sends the control signal to the control circuit 3. The identification component 300 may also be a non-contact inductive switch, and a user may sense the gesture during the use process, and the controllable liquid pumping pump 22 is switched to the first sub-mode by sliding the palm or the sole leftwards, and the controllable liquid pumping pump 22 is switched to the second sub-mode by sliding the palm or the sole rightwards. Further, the identification component 300 may be disposed at the edge corner of the main floor brush 1, or may be disposed at the middle position of the main floor brush 1, including but not limited to this, and a person skilled in the art may design the identification component according to actual situations.

In some embodiments, in order to avoid the overflow of the cleaning liquid in the liquid channel of the spraying member 4 after the cleaning liquid is injected into the spraying member 4 by a predetermined amount in the second liquid-pumping mode, the present embodiment controls the liquid-pumping pump 22 to switch from the second liquid-pumping mode to the first liquid-pumping mode through the control circuit 3, and controls the liquid-pumping pump 22 to switch from the first liquid-pumping mode to the second liquid-pumping mode through the control circuit 3 until the sensing device 23 detects that there is no cleaning liquid, and the above-mentioned operation is repeated in a cycle.

In some embodiments, the sensing device 23 is disposed near the liquid outlet end 212, so that the portion of the infusion pipeline 21 between the sensing device 23 and the liquid outlet end 212 is shorter, and thus, when the sensing device 23 detects that no cleaning liquid is left to stop the product (the liquid pump 22 stops working), the amount of the cleaning liquid remaining in the infusion pipeline 21 is less, and the effect of preventing the residual cleaning liquid from generating odor is better.

Referring to fig. 3, in the present embodiment, the sensing device 23 is disposed between the liquid pump 22 and the liquid outlet end 212; therefore, the sensing device 23 can be arranged close to the liquid outlet end 212 to a greater extent, and the amount of the residual cleaning liquid in the liquid conveying pipeline 21 when the product is stopped is further reduced.

Referring to fig. 4, in the present embodiment, the sensing device 23 may also be disposed between the liquid inlet end 211 and the liquid pump 22, and when such a scheme is adopted, the liquid pump 22 may be disposed as close as possible to the liquid outlet end 212 of the infusion pipeline 21, that is, the pipeline between the liquid pump 22 and the liquid outlet end 212 is as short as possible, and the sensing device 23 is also as close as possible to the liquid pump 22, so that the sensing device 23 is still as close as possible to the liquid outlet end 212.

Referring to fig. 6, in the present embodiment, the sensing device 23 includes a first housing 231 and a sensor 232, a first liquid channel (not shown) for communicating with the infusion pipeline 21 is formed in the first housing 231, and the sensor 232 is installed on an outer wall of the first housing 231 corresponding to the first liquid channel, that is, the sensor 232 is installed corresponding to the first liquid channel, so as to detect a liquid condition in the first liquid channel in real time. The sensor 232 and the first housing 231 may be mounted in the following manner: 1. a clamping groove is formed in the outer wall of the first shell 231, and the sensor 232 is mounted in the clamping groove and is tightly attached to the outer wall of the first shell 231; 2. the sensor 232 is fixed to the outer wall of the first housing 231 by adhesion; 3. the sensor 232 is locked to the outer wall of the first housing 231 by screws; and so on. Among other things, the sensor 232 may be various types of sensors 232 that can sense liquid, such as a capacitive non-contact sensor 232. The operation of the sensing device 23 may be: when the first fluid channel of the first housing 231 contains cleaning fluid, the sensor 232 generates a corresponding signal to feed back cleaning fluid to the control circuit 3, and when the first fluid channel contains no cleaning fluid, the sensor 232 generates a corresponding signal to feed back no cleaning fluid to the control circuit 3.

Of course, in other embodiments, the sensing device 23 can be other sensing structures; the sensing device 23 may also be a sensing device disposed on the outer wall of the infusion pipeline 21, for example, the sensing device 23 is sleeved on the infusion pipeline 21 or clamped on the infusion pipeline 21.

Referring to fig. 3, in the present embodiment, the liquid conveying pipeline 21 includes a liquid inlet pipeline section 213, a connecting pipeline section 214 and a liquid outlet pipeline section 215, wherein one end of the liquid inlet pipeline section 213 is a liquid inlet end 211, and the other end of the liquid inlet pipeline section 213 is connected to a suction port 221 of the liquid pump 22; one end of the connection pipe section 214 is connected to the discharge port 222 of the liquid pump 22, and the other end of the connection pipe section 214 is connected to one end of the waterway channel of the first housing 231 (i.e., a pipe joint connected to the first housing 231); one end of the liquid outlet pipe segment 215 is connected to the other end of the waterway channel of the first shell 231 (i.e. connected to the other pipe joint of the first shell 231), and the other end of the liquid outlet pipe segment 215 is the liquid outlet end 212. Because the sensing device 23 detects that no cleaning liquid remains in the liquid outlet pipe section 215 of the infusion pipeline 21 when no water is detected, the liquid outlet pipe section 215 can be designed to be as short as possible, so that the amount of the cleaning liquid that can remain in the liquid outlet pipe section 215 is less, the cleaning liquid in the liquid outlet pipe section 215 can be mostly carried out of the liquid outlet end 212 by the inertia of the water flow when the liquid pumping pump 22 is stopped, and therefore, almost no cleaning liquid remains in the infusion pipeline 21 when the infusion pipeline is stopped.

Referring to fig. 4, in the present embodiment, the liquid conveying pipeline 21 includes a liquid inlet pipe section 213, a connecting pipe section 214 and a liquid outlet pipe section 215, wherein one end of the liquid inlet pipe section 213 is a liquid inlet end 211, and the other end of the liquid inlet pipe section 213 is connected to one end of the first liquid channel of the first housing 231 (i.e. a pipe joint connected to the first housing 231); one end of the connection pipe section 214 is connected to the other end of the first fluid passage of the first housing 231 (i.e. connected to the other pipe joint of the first housing 231), and the other end of the connection pipe section 214 is connected to the suction port 221 of the liquid pump 22; one end of the liquid outlet pipe section 215 is connected with the discharge port 222 of the liquid pump 22, and the other end of the liquid outlet pipe section 215 is the liquid outlet end 212. When the liquid outlet pipe section 215 is designed, the connecting pipe section 214 is as short as possible, the sensing device 23 is closer to the liquid outlet end 212, and the amount of residual cleaning liquid in the connecting pipe section 214 and the liquid outlet pipe section 215 is less.

In some embodiments, the vacuum cleaner floor brush further comprises a spraying part 4 (refer to fig. 2), wherein the spraying part 4 is provided with a liquid inlet 41, and the liquid inlet 41 of the spraying part 4 is connected with the liquid outlet end 212.

In some embodiments, referring to fig. 7 to 10, the spraying component 4 further includes a second housing 42, the second housing 42 is provided with a liquid inlet 41 and a plurality of liquid outlets 43, a second liquid channel is formed in the second housing 42, the second liquid channel is communicated with the liquid inlet 41 and the plurality of liquid outlets 43, and the plurality of liquid outlets 43 are uniformly distributed on the same side of the second housing 42 at intervals.

The spray part 4 of this embodiment adopts and sets up a plurality of liquid outlet 43 in the same one side even interval distribution of second casing 42, and inlet 41 on the second casing 42 communicates with each liquid outlet 43 through the second liquid passageway in the second casing 42, makes the cleaning solution that gets into from inlet 41 can disperse to each liquid outlet 43 blowout, makes one row of interval distribution's liquid outlet 43 spout the cleaning solution simultaneously so. Use this embodiment to spray the dust catcher scrubbing brush of part 4, the mode that the liquid outlet 43 distribution direction that will spray part 4 keeps unanimous with the width direction of dust catcher scrubbing brush assembles the back, just can make the clear liquid volume of going out of each position on the width direction of dust catcher scrubbing brush more even, and then the clean liquid of soaking of wiping the board around guaranteeing the dust catcher scrubbing brush is even, effectively avoids the production of spot, and cleaning performance is better.

In some embodiments, the second liquid channel comprises a main flow channel and a plurality of branch flow channels communicating with the main flow channel, the liquid inlet 41 being connected to the main flow channel, and each branch flow channel being connected to at least one liquid outlet 43. The cleaning liquid circulation mode of the spraying part 4 is as follows: the cleaning liquid enters the main flow channel from the liquid inlet 41, and is distributed to the branch flow channels through the flow direction of the main flow channel, the cleaning liquid in each branch flow channel flows to the liquid outlet 43 communicated with the branch flow channel again, and the cleaning liquid is finally sprayed out from each liquid outlet 43.

In this embodiment, the second liquid channel adopts the design of "always-minute", advance the cleaning solution to flow through the mainstream passageway earlier and stabilize the back, distribute to each tributary passageway, make the rivers state that gets into each tributary passageway balanced, and then make each liquid outlet 43 spout the flow of cleaning solution even, thus, further promote the homogeneity that sprays the cleaning solution that uses each position on the width direction of this spray component 4's dust catcher scrubbing brush, it is more even to wipe the clean liquid that soaks of board around, better avoid the spot to produce, clean effect obtains further promotion.

Referring to fig. 9-12, in the present embodiment, the second casing 42 includes a bottom shell 421 and a cover plate 422 installed on the bottom shell 421, the plurality of liquid outlets 43 are disposed on an outer side wall of the bottom shell 421, a groove 4211 is disposed in the bottom shell 421, the liquid outlets 43 are communicated with an interior of the groove 4211, the cover plate 422 covers and seals a notch of the groove 4211, and the cover plate 422 and the groove 4211 cooperate to form a second liquid passage. In the present embodiment, the grooves 4211 are formed on the bottom shell 421, and the second liquid channel is formed in the second housing 42 by sealing the cover 422 and covering the notches of the grooves 4211, so that the spraying assembly has fewer overall structural components and a simpler structure, and the second liquid channel formed by the grooves 4211 and the cover 422 is more stable and firm.

Referring to fig. 14, in the present embodiment, the inner side of the bottom shell 421 is further provided with a sinking groove 4212 adapted to the cover 422, the cover 422 is installed in the sinking groove 4212, and the cover 422 is installed in the sinking groove 4212 in an adapted manner, so that the sealing and capping effect of the cover 422 on the opening of the groove 4211 is better ensured, and the installation of the cover 422 is more convenient; grooves 4211 are formed in the bottom wall of countersunk grooves 4212, i.e., grooves 4211 are formed by recessing the bottom wall of countersunk grooves 4212.

Referring to fig. 12 and 13, in the present embodiment, the cover 422 is provided with a sealing strip 4221 corresponding to the groove 4211, when the cover 422 is installed in the sunken groove 4212, the sealing strip 4221 of the cover 422 is embedded in the groove 4211 to seal the opening of the groove 4211, so that the cover 422 has a better sealing effect on the groove 4211, the height of the sealing strip 4221 is smaller than the depth of the groove 4211, that is, the sealing strip 4221 does not fully occupy the inner space of the groove 4211, and the remaining space is the second liquid passage portion.

Referring to fig. 15 and 16, in some embodiments, the vacuum cleaner floor brush further includes a liquid storage tank 5, a liquid outlet connector 51 is disposed on the liquid storage tank 5, and the liquid inlet 211 is connected to the liquid outlet connector 51. When the cleaning liquid spraying device is used, the liquid pumping pump 22 conveys the cleaning liquid in the liquid storage tank 5 to the spraying part 4 through the liquid conveying pipeline 21, so that the spraying part 4 sprays the cleaning liquid onto the surface to be cleaned (ground, wall surface and the like) or the cleaning part (a floor brush, a rolling brush, a wiping cloth and the like).

In some embodiments, referring to fig. 17-20, a main body 1 of a floor brush provided by the present invention includes an upper cover 11, a first groove 111 is formed on a surface of the upper cover 11, a liquid inlet 112 is formed on a bottom wall of the first groove 111, a liquid storage tank 5 is detachably connected to the upper cover 11, and a liquid outlet connector 51 is communicated with the liquid inlet 112; the first groove 111 is provided with a sealing element 6, the sealing element 6 is provided with an annular inclined surface 61, a deformation cavity 7 is formed between the annular inclined surface 61 and the groove wall of the first groove 111, and the liquid outlet joint 51 is inserted into the sealing element 6 and abuts against the annular inclined surface 61, so that the annular inclined surface 61 deforms towards the deformation cavity 7.

In this embodiment, the liquid outlet joint 51 is accommodated in the first groove 111 and is communicated with the liquid inlet 112 formed in the bottom wall of the first groove 111, and the cleaning liquid in the liquid storage tank 5 flows into the liquid inlet 112 through the liquid outlet joint 51. The outlet connection 51 is configured as an annular projection structure which extends toward the inside of the first groove 111 and whose free end is in communication with the inlet 112. Preferably, the liquid inlet 112 is located in a middle region of the bottom wall of the first groove 111, which is only exemplary and not limiting. Optionally, the outlet fitting 51 is in direct communication with the inlet 112.

When the liquid storage box 5 is installed on the upper cover 11, the sealing element 6 is accommodated in the first groove 111 and is formed with the annular inclined surface 61, a deformation cavity 7 is formed between the groove wall of the annular inclined surface 61 and the groove wall of the first groove 111, the deformation cavity 7 is used for allowing the annular inclined surface 61 to deform towards the deformation cavity, a sufficient space is ensured between the annular inclined surface 61 and the deformation cavity 7, the resistance generated when the annular inclined surface 61 deforms is reduced, and the liquid outlet connector 51 is easy to insert into the sealing element 6.

Further, when the liquid storage tank 5 is installed on the upper cover 11, the liquid storage tank 5 and the upper cover 11 can be detachably connected in a clamping manner. In some embodiments, a cavity is formed inside the liquid storage tank 5, the cavity is communicated with the liquid outlet connector 51, one of the liquid storage tank 5 and the upper cover 11 is provided with a hook, the other of the liquid storage tank 5 and the upper cover 11 is provided with a slot, and the liquid storage tank 5 and the upper cover 11 are connected by the matching of the hook and the slot.

Preferably, the bottom of the liquid storage tank 5 provided in this embodiment is provided with a hook, the surface of the upper cover 11 is correspondingly provided with a slot, and the liquid storage tank 5 is fixed with the slot through the hook after being mounted on the upper cover 11. In the process, the annular inclined surface 61 is deformed toward the deformation chamber 7 and generates an upward elastic restoring force. When the liquid storage tank 5 is detached from the upper cover 11, the external force opposite to the elastic restoring force is cancelled, and the liquid storage tank 5 is acted by the upward elastic restoring force, so that the liquid storage tank 5 is quite easily detached.

Furthermore, the sealing member 6 of the present embodiment is provided with a funnel-shaped or cone-shaped configuration, a through hole is formed in the middle of the sealing member 6, and the liquid outlet connector 51 is inserted into the through hole and abuts against the annular inclined surface 61.

In some embodiments, referring to fig. 20-22, the annular inclined surface 61 provided by the present invention has a step 62 protruding inward from an end thereof close to the liquid inlet 112, and the step 62 abuts against a groove wall of the first groove 111 and is located at a periphery of the liquid inlet 112.

In this embodiment, a step 62 is formed at one end of the annular inclined surface 61 close to the bottom wall of the first groove 111, and the step 62 is protruded toward the inner side of the sealing member 6 and abuts against the inner side groove wall of the first groove 111, so as to support the whole sealing member 6 and achieve the sealing and waterproof effects. Preferably, the connection between the step 62 and the annular inclined surface 61 is arc-shaped.

In some embodiments, referring to fig. 20 to 22, the sealing element 6 further includes a connecting end 63 extending along the step 62 in a direction away from the liquid outlet joint 51, the connecting end 63 includes a first connecting end 631 and a second connecting end 632 connected in a bent manner, the first connecting end 631 is provided with a through hole 6311 communicated with the first groove 111, the first connecting end 631 is accommodated in the liquid inlet 112 and abuts against a wall surface of the liquid inlet 112, and the second connecting end 632 is located at a periphery of the liquid inlet 112 and abuts against an outer bottom wall of the first groove 111.

In this embodiment, the sealing element 6 further comprises a connecting end 63 extending along the step 62 in a direction away from the port connector 51, and the connecting end 63 is used for connecting and fixing the sealing element 6 to the bottom wall of the first groove 111. The connection end 63 includes a first connection end 631 and a second connection end 632, the first connection end 631 and the second connection end 632 are connected to form an L-shaped structure, one end of the first connection end 631 is connected to the step 62, the other end extends in a vertical direction and is connected to one end of the second connection end 632, and the other end of the second connection end 632 extends in a horizontal direction. The first connecting end 631 is accommodated in the liquid inlet 112 and abuts against the wall surface of the liquid inlet 112, and the second connecting end 632 is located at the periphery of the liquid inlet 112 and abuts against the outer bottom wall of the first groove 111.

In some embodiments, referring to fig. 20, the vacuum cleaner floor brush further includes a liquid inlet joint 8, the liquid inlet joint 8 abuts against a surface of the second connection end 632 away from the liquid outlet joint 51, and an opening of the liquid inlet joint 8 is communicated with the liquid inlet 112.

In this embodiment, a liquid inlet joint 8 is disposed at the bottom of the first groove 111, and an opening of the liquid inlet joint 8 is communicated with the liquid inlet 112. When the liquid storage tank 5 is mounted on the upper cover 11, the upper surface of the second connection end 632 abuts against the bottom wall of the first groove 111, and the lower surface of the second connection end 632 abuts against the liquid inlet joint 8. Go into liquid mouth joint 8 and be connected with the drain pan 421 of liquid reserve tank 5, second link 632 compresses tightly through going into liquid mouth joint 8, so, the lower extreme of sealing member 6 will be fixed by going into liquid mouth joint 8, can not the drunkenness when guaranteeing sealing member 6 pressurized, the turn-up. In addition, income liquid mouth connects 8 can also play sealed effect, can prevent that the cleaning solution from flowing into in the upper cover 11 from between upper cover 11 and the income liquid mouth connects 8, avoids appearing burning out the phenomenon.

In some embodiments, referring to fig. 20 to 22, one end of the annular inclined surface 61 away from the liquid inlet 112 is bent and extended outward to form a connecting portion 64, the upper cover 11 is provided with a second groove 113 surrounding the first groove 111, and the connecting portion 64 is accommodated in the second groove 113.

In this embodiment, the end of the annular inclined surface 61 close to the top wall of the first groove 111 is bent to extend the connecting portion 64, the upper cover 11 is provided with a second groove 113 surrounding the first groove 111, and the connecting portion 64 is accommodated in the second groove 113, so that the sealing member 6 is fixed on the upper cover 11. The second groove 113 may be recessed along a direction perpendicular to the port connector 51, or recessed along a direction parallel to the port connector 51, and the connecting portion 64 at one end of the annular inclined surface 61 is accommodated in the second groove 113 regardless of the design.

In some embodiments, referring to fig. 18 and 20, the second groove 113 and the first groove 111 are concentrically disposed, the connecting portion 64 includes a first connecting portion 641 and a second connecting portion 642 connected in a bent manner, the first connecting portion 641 abuts against an end surface of a groove wall of the first groove 111, and the second connecting portion 642 is accommodated in the second groove 113.

In this embodiment, the second groove 113 is recessed along a direction parallel to the liquid outlet joint 51, and at this time, the second groove 113 and the first groove 111 are concentrically disposed. The connection portion 64 includes a first connection portion 641 and a second connection portion 642, the first connection portion 641 and the second connection portion 642 are connected to form an L-shaped structure, one end of the first connection portion 641 is connected to one end of the annular inclined surface 61, the other end extends in the horizontal direction and is connected to one end of the second connection portion 642, and the other end of the second connection portion 642 extends in the vertical direction.

In some embodiments, referring to fig. 23, the liquid storage box 5 according to the present invention includes a box 52 and a box cover 53, a liquid storage cavity 54 is formed inside the box 52, a liquid injection port 55 and a sealing assembly 56 for sealing the liquid injection port 55 are disposed on the box cover 53, and both the liquid injection port 55 and the liquid outlet connector 51 are communicated with the liquid storage cavity 54.

In this embodiment, the liquid storage box 5 is arranged on the upper cover 11 of the floor brush main machine 1, the liquid storage box 5 comprises a box body 52 and a box cover 53, the box cover 53 is connected to an opening of the box body 52, and the box cover 53 is detachably connected with the box body 52. One of the case cover 53 and the case body 52 is provided with an insertion protrusion, the other of the case cover 53 and the case body 52 is provided with an insertion groove, and the case cover 53 and the case body 52 are connected in an insertion fit manner through the insertion protrusion and the insertion groove.

Further, the interior of the box body 52 is hollow and is provided with a liquid storage cavity 54 for containing clean water, the bottom of the box body 52 is provided with a liquid outlet joint 51 communicated with the liquid storage cavity 54, and the clean water in the liquid storage cavity 54 flows out through the liquid outlet joint 51. In some embodiments, the box 52 is constructed in a "U" shaped configuration, which is exemplary only and not limiting, and can be designed by one skilled in the art based on the actual situation. The liquid filling port 55 is formed in the box cover 53, the liquid filling port 55 is communicated with the liquid storage cavity 54, the sealing component 56 matched with the liquid filling port 55 is arranged at the liquid filling port 55, the liquid filling port 55 is isolated from the outside through the sealing component 56, external sundries are prevented from entering the liquid storage cavity 54 through the liquid filling port 55, and meanwhile, the cleaning liquid in the liquid storage cavity 54 can be prevented from splashing out through the liquid filling port 55. The liquid storage tank 5 provided by the invention is arranged on the top surface of the floor brush main machine 1, and the whole body of the liquid storage tank is arranged in an exposed mode, so that compared with the existing hidden water tank, the liquid storage tank is more convenient to add cleaning liquid. The cleaning liquid may be clear water, soap water, or a mixture of clear water and other detergents, including but not limited to, and may be designed by those skilled in the art according to the actual situation.

In some embodiments, referring to fig. 30, the main body 1 of the floor brush further includes a base 12, the base 12 is connected with the upper cover 11 to form an accommodating cavity, a driving device 9 is disposed in the accommodating cavity, a floor wiping part 10 is disposed at the bottom of the base 12, the floor wiping part 10 is connected with an output execution end of the driving device 9, and the driving device 9 is configured to drive the floor wiping part 10 to reciprocate along a predetermined direction.

In this embodiment, the main body 1 of the floor brush includes an upper cover 11 and a base 12 which are covered relatively from top to bottom, the upper cover 11 and the base 12 are detachably connected, and the connection can be specifically realized by clamping, inserting, screwing and the like, including but not limited thereto. The upper cover 11 and the base 12 are hollow, and they jointly enclose a cavity for accommodating each component. The accommodating cavity is internally provided with a driving device 9, the bottom of the base 12 is provided with a floor wiping part 10, the floor wiping part 10 is connected with an output execution end of the driving device 9, and the floor wiping plate is driven by the driving device 9 to move along a preset direction relative to the floor brush main machine 1, for example, the floor wiping plate reciprocates along the front-back direction of the floor brush main machine 1.

The floor mopping pieces 10 can be arranged in one, two or three, etc., and one skilled in the art can design the floor mopping pieces according to actual conditions, in the embodiment, the floor mopping pieces 10 are arranged in two, and the two floor mopping pieces 10 are arranged in a front-back interval manner, which is only exemplary and not limiting. Further, the floor cleaning member 10 may be provided with a cleaning member, or the floor cleaning member 10 may comprise a cleaning member, such as a cloth, to clean the floor surface with the cloth. Therefore, the floor brush of the dust collector integrates the functions of mopping the floor and collecting dust, and improves the practicability of the product.

In some embodiments, referring to fig. 24 and 25, a bayonet 57 is disposed on a side of the liquid storage box 5 near the front end of the floor brush main body 1, and a tenon 114 is protruded on a side wall of the front end of the upper cover 11 corresponding to the bayonet 57.

In this embodiment, one of the liquid storage tank 5 and the upper cover 11 is provided with a bayonet 57, the other of the liquid storage tank 5 and the upper cover 11 is provided with a tenon 114, and the liquid storage tank 5 and the upper cover 11 are connected by the matching of the bayonet 57 and the tenon 114. Preferably, the front side of the reservoir 5 provided by the present embodiment is provided with a bayonet 57, the front side wall of the upper cover 11 is correspondingly provided with a latch 114, and the latch 114 is adapted to the bayonet 57.

In some embodiments, referring to fig. 16 and fig. 25, the bottom wall of the box 52 provided by the present invention protrudes outward to form a hook 58, the hook 58 includes a third connecting portion 581 and a fourth connecting portion 582 connected with each other and intersecting with each other, the third connecting portion 581 is further connected with the bottom wall of the box 52, the third connecting portion 581 and the fourth connecting portion 582 enclose to form the bayonet 57, and the fourth connecting portion 582 is disposed obliquely with respect to the bottom wall of the box 52.

In this embodiment, the hook 58 is substantially L-shaped, and includes a third connecting portion 581 and a fourth connecting portion 582, wherein one end of the third connecting portion 581 is connected to the bottom wall of the box 52, and the other end is connected to the fourth connecting portion 582. Third connecting portion 581 and fourth connecting portion 582 enclose jointly and close and form bayonet 57, and wherein, the relative diapire of box 52 of fourth connecting portion 582 is the slope setting, so can make liquid reserve tank 5 brush host computer 1 relatively rotate to realize the rotation type assembly of liquid reserve tank 5, the installation and the dismantlement of liquid reserve tank 5 of being convenient for. Furthermore, an L-shaped slot is formed in the side wall of the front end of the upper cover 11, the L-shaped slot is matched with the hook 58, and the tenon 114 is arranged in the L-shaped slot.

In some embodiments, referring to fig. 26 to 29, a containing groove 59 is formed on a side of the liquid storage box 5 near the rear end of the floor brush main body 1, and a retractable tongue 5A is disposed in the containing groove 59; the rear side of the upper cover 11 is provided with a docking groove 115 corresponding to the telescopic tongue 5A, and the telescopic tongue 5A is used for extending into the docking groove 115 to connect the liquid storage tank 5 and the upper cover 11.

In this embodiment, when installing the liquid storage tank 5 on the upper cover 11, insert the "L" type hook 58 of the bottom wall of the tank 52 into the "L" type slot, so that the bayonet 57 is hooked on the tenon 114, and then the liquid storage tank 5 is rotated downward, so that the liquid storage tank 5 covers the upper cover 11. When the liquid storage box 5 covers the upper cover 11, the telescopic tongue 5A at the rear side of the liquid storage box 5 is extruded by the rear side wall of the upper cover 11, so that the telescopic tongue 5A moves towards the front end of the dust collector, after the liquid storage box 5 rotates downwards to the telescopic tongue 5A to be inserted into the butt joint groove 115, the telescopic tongue 5A is not extruded by the rear side wall of the upper cover 11 any more, and moves towards the rear end of the dust collector under the action of elasticity, so that the liquid storage box 5 extends into the butt joint groove 115, and the liquid storage box 5 is fixed with the upper cover 11. When liquid reserve tank 5 is pulled down to needs, directly press flexible tongue 5A towards storage tank 59 in for flexible tongue 5A separates with butt joint groove 115, then alright upwards rotate liquid reserve tank 5, makes liquid reserve tank 5 and upper cover 11 separate, thereby takes off it.

In some embodiments, referring to fig. 30-32, the driving device 9 of the present invention includes at least two sets of driving assemblies 91, at least two sets of driving assemblies 91 are disposed at intervals and respectively connected to the floor mopping member 10, so that the floor mopping member 10 reciprocates on the floor during dust collection. The driving device 9 proposed in this embodiment includes at least two sets of driving assemblies 91, and the at least two sets of driving assemblies 91 are commonly used for driving the floor mopping unit 10, so that the reciprocating motion of the floor mopping unit 10 on the ground is more stable.

In some embodiments, the floor mopping device 10 of the present invention may comprise a movable scrubbing plate and a brush disposed on the movable scrubbing plate, wherein the movable scrubbing plate is connected to at least two sets of driving members 91, respectively, and the brush is detachably connected to the movable scrubbing plate, for example, by a snap connection or a hook and loop fastener, including but not limited thereto. Furthermore, the floor wiping piece 10 can also comprise a movable wiping plate and a wiping cloth arranged on the movable wiping plate, and the wiping cloth can wet and clean the floor after being wetted, so that the floor brush of the dust collector integrates the functions of dragging and sucking, and the practicability of the floor brush of the dust collector is enhanced.

In some embodiments, referring to fig. 30-32, the floor mopping device 10 of the present invention comprises two floor mopping devices 10, two floor mopping devices 10 are spaced apart and arranged in parallel, the driving assembly 91 comprises a connecting shaft 911, and the connecting shaft 911 comprises a first journal 9111 and a second journal 9112 which are connected in a staggered manner; one end of the first crank 912 is rotatably sleeved on the first journal 9111, and the other end of the first crank is hinged with a floor mopping piece 10; and a second crank 913 having one end rotatably fitted over the second journal 9112 and the other end hinged to the other floor wiping member 10.

In this embodiment, two floor mopping pieces 10 are arranged at the front and the back of the bottom of the main body 1 of the floor brush, and the two floor mopping pieces 10 are separated by a preset distance, so that the two floor mopping pieces do not collide with each other when reciprocating back and forth. The driving assembly 91 comprises a connecting shaft 911, a first crank 912 and a second crank 913, the connecting shaft 911 further comprises a first journal 9111 and a second journal 9112 which are connected in a staggered manner, one end of the first crank 912 is rotatably sleeved on the first journal 9111, the other end of the first crank 912 is hinged to one of the floor mopping pieces 10, one end of the second crank 913 is rotatably sleeved on the second journal 9112, and the other end of the second crank 913 is hinged to the other floor mopping piece 10.

In some embodiments, referring to fig. 31 and 32, the driving apparatus 9 further includes a driving motor 92, the connecting shaft 911 is formed with a first shaft hole 9113 penetrating through the first journal 9111 and the second journal 9112, the first shaft hole 9113 is offset from the centers of the first journal 9111 and the second journal 9112, and the connecting shaft 911 is sleeved on a motor shaft of the driving motor 92 through the first shaft hole 9113.

In this embodiment, the connecting shaft 911 is sleeved on the motor shaft of the driving motor 92 through the first shaft hole 9113 formed thereon, and when the motor shaft of the driving motor 92 rotates, the connecting shaft 911 rotates along with the motor shaft, so as to drive the first crank 912 and the second crank 913 connected to the first journal 9111 and the second journal 9112 respectively to rotate.

In some embodiments, referring to fig. 32, the driving assemblies 91 provided by the present invention include two driving assemblies 91, each of the driving motors 92 is a dual-shaft motor, two motor shafts of the driving motor 92 face to one driving assembly 91, the dual-shaft motor is located between the two driving assemblies 91, and the connecting shafts 911 of the two driving assemblies 91 are respectively sleeved on the two motor shafts of the dual-shaft motor through the respective first shaft holes 9113.

In this embodiment, the floor wiping member 10 is provided in two at the bottom of the floor brush main body 1, the driving assembly 91 is also provided in two, and the driving motor 92 is a double-shaft motor having a double motor shaft. Wherein, the double-shaft motor is arranged between the two driving assemblies 91, and the connecting shafts 911 of the two driving assemblies 91 are respectively sleeved on the two shafts of the double-shaft motor through the respective first shaft holes 9113. Preferably, the two-shaft motor proposed in the present embodiment is disposed in the middle region of the inner cavity of the main floor brush 1, which is only exemplary and not limiting.

In some embodiments, referring to fig. 34 to 36, the bottom of the main floor brush 1 provided by the present invention is provided with an air inlet 13, the main floor brush 1 is provided with a dust collecting pipe 14 connected thereto and communicated with the air inlet 13, a sealing assembly 30 is disposed in the air duct 20 of the air inlet 13, and the sealing assembly 30 seals the rear end of the air inlet 13 so that the air flow of the air inlet 13 flows into the dust collecting pipe 14 after being reflected by the sealing assembly 30.

In this embodiment, the bottom of the main body 1 of the floor brush is provided with an air inlet 13, a dust collecting pipeline 14 is arranged in the main body 1 of the floor brush, and the dust collecting pipeline 14 is communicated with the air inlet 13. During dust removal, negative pressure is generated in the dust collecting pipeline 14, external air flows into the dust collecting pipeline 14 through the air inlet 13, the air flows to enable the air inlet 13 to generate suction force, and dust on the ground is sucked into the dust collecting pipeline 14 along with the air through the suction force.

Further, in the present embodiment, a sealing assembly 30 is disposed at the air inlet 13, the sealing assembly 30 is disposed at the rear end of the air inlet 13, and the rear end of the air inlet 13 is sealed by the sealing assembly 30, so that the air flow flows into the dust collecting duct 14 through the front end of the air inlet 13, thereby increasing the suction force generated at the air inlet 13. In addition, the sealing assembly 30 can also perform collision reflection on dust sucked into the air inlet 13, so that the dust flows into the dust collecting pipeline 14 after colliding with the sealing assembly 30, and the dust collecting effect of the dust collector floor brush is further ensured.

Specifically, when air flows in through the front end of the air inlet 13, light dust can be directly sucked into the dust collecting pipeline 14 along with air flow, and high-density particles generally move close to the ground in the dust collection process, and after the particles move to the air inlet 13, the particles collide with the sealing assembly 30, and during collision, the sealing assembly 30 generates upward reaction force on the high-density particles, so that the particles enter the dust collecting pipeline 14, air in the dust collecting pipeline 14 flows faster, suction force is higher, and the high-density particles can be sucked quickly, so that the suction capacity of the dust collector floor brush on the high-density particles is enhanced, and the cleaning effect of the dust collector floor brush is improved.

It should be noted that, in the embodiment, the front end and the rear end are referred to a dust collector floor brush, the front end of the air inlet 13 is a position close to the front end of the dust collector floor brush, and the rear end of the air inlet 13 is a position opposite to the front end of the air inlet 13 and far away from the front end of the dust collector floor brush.

In some embodiments, referring to fig. 35, the floor brush host 1 according to the present invention includes a base 12, the base 12 includes a bottom plate 121 and a side plate 122 connected to the bottom plate 121, the bottom plate 121 is bent and extended toward the ground at the air inlet 13 to form a baffle 123, the air inlet 13 is located between the side plate 122 and the baffle 123, and the baffle 123 and the side plate 122 cooperate to form the air duct 20 of the air inlet 13.

In this embodiment, the bottom plate 121 is horizontally disposed and is formed with a baffle 123 at the air inlet 13, the baffle 123 extends toward the ground in a bending manner, the side plate 122 is vertically disposed and connected to the bottom plate 121, the side plate 122 and the baffle 123 are respectively located at the front end and the rear end of the air inlet 13, and the side plate 122 and the baffle 123 enclose the air duct 20 forming the air inlet 13. During dust removal, dust on the ground firstly flows into the air duct 20 formed by the baffle 123 and the side plate 122, then enters the dust collecting pipeline 14 through the air inlet 13, and finally is sucked into dust collecting containers of the dust collector, such as a dust box, a dust bag and the like.

In some embodiments, referring to fig. 35, the sealing assembly 30 of the present invention comprises a mounting member 31 and a guiding member 32 disposed on the mounting member 31, wherein the mounting member 31 is detachably connected to the baffle 123, one end of the guiding member 32 abuts against an end wall of an open end of the dust collecting duct 14, and the other end of the guiding member 32 contacts with the floor during dust collection.

In this embodiment, the sealing assembly 30 includes a mounting member 31 and a guide member 32, the mounting member 31 is used for supporting the mounting guide member 32, and the guide member 32 is fixed to the baffle 123 of the base 12 through the mounting member 31. One end of the guide piece 32 is connected or abutted with the end wall of the opening end of the dust collecting pipeline 14, and the other end is a free end which is in a contact state with the ground during dust collection so as to block one end of the air inlet 13 and play a role of guiding high-density particles, so that the high-density particles enter the dust collecting pipeline 14 under the action of the guide piece 32.

In some embodiments, referring to fig. 35, the guiding element 32 is concave towards one side of the side plate 122 and has a predetermined curvature.

In this embodiment, the guide member 32 is arc-shaped and has a predetermined radian, and the guide member 32 of the arc-shaped structure can make the collision of high-density particles have a certain angle, so that the high-density particles can completely enter the dust collecting pipeline 14 after colliding with the guide member 32, thereby improving the dust collecting capacity of the dust collector. The arc of the guiding element 32 can be designed according to the actual situation, for example 12 °. Preferably, the guide 32 of the present embodiment is shaped like a crescent, which is merely exemplary and not limiting.

In some embodiments, referring to fig. 38 to 40, the dust collecting duct of the present invention includes a tube 141 and at least one cover 142, two ends of the tube 141 are open, a dust collecting duct 1411 extending from one end to the other end is formed in the tube 141, at least one opening 1412 is formed on an outer wall of the tube 141, and the cover 142 is disposed on the tube 141 and used for covering the opening 1412.

In the present embodiment, the tube 141 can be a straight tube, a bent tube bent into multiple segments, an arc tube, or other shapes, and the embodiment only illustrates the tube 141 as a bent tube bent into multiple segments. The shape of the opening 1412 may be various shapes such as a rectangle, a circle, an ellipse, a polygon, etc., and different shapes may be set according to actual requirements, and the rectangular opening 1412 is taken as an example in the figure of the present embodiment.

When the dust suction pipeline device of the embodiment is applied to a dust collector, in the dust collection process, the cover body 142 covers the opening 1412, the outer wall of the tube body 141 is sealed, and the garbage objects sucked up by the dust collector enter the garbage collection part of the dust collector through the dust suction duct 1411 in the tube body 141; when the dust collection duct 1411 is clogged with the remaining stuck garbage, the user removes the stuck garbage from the opening 1412 by opening the cover 142 to expose the opening 1412, or pokes the garbage out of the opening 1412 toward one end or the other end of the tube 141 by a tool.

The dust suction pipe device of the embodiment adopts the structure that at least one opening 1412 is arranged on the pipe body 141, and at least one cover body 142 is used for covering the opening 1412; when the dust collector is used for normal dust collection, the cover body 142 covers the opening 1412 to keep the outer wall of the tube body 141 sealed; when the dust collection duct 1411 is blocked by the residual stuck garbage, the cover 142 is opened to expose the opening 1412, the stuck garbage in the dust collection duct 1411 is taken out from the opening 1412, or the stuck garbage is separated from the opening 1412 to the two ends of the tube 141 by a tool. Compared with the method for removing the stuck garbage from the end part of the dust collection air duct 1411, the distance from the opening 1412 to any end of the dust collection air duct 1411 is smaller than the distance between the two ends of the dust collection air duct 1411, so that the removal of the stuck garbage in the dust collection air duct 1411 from the opening 1412 is simpler and more convenient, the removal of the stuck garbage can be completed more quickly, and the dust collector can recover the dust collection operation more quickly.

In some embodiments, referring to fig. 41, the floor brush of the vacuum cleaner of the present invention further comprises a base 50, wherein the base 50 is detachably connected to the floor wiping part 10, and a side surface of the base 50 facing away from the floor wiping part 10 is used for installing a cleaning cloth 60.

In this embodiment, the base 50 is detachably connected to the floor wiping part 10, the connection manner may be magnetic attraction connection, snap connection, screw connection, etc., the cleaning cloth 60 is installed on a side surface of the base 50 opposite to the floor wiping part 10, and the installation manner may be adhesion, snap connection, etc., including but not limited thereto, and is set according to the actual situation.

When it is desired to use a thin disposable cleaning cloth, the base 50 is removably attached to the floor scrubbing element 10 and the cleaning cloth 60 is mounted on the side of the base 50 facing away from the floor scrubbing element 10. The base 50 can compensate the thickness of the thin disposable cleaning cloth, so that the disposable cleaning cloth can contact the ground when being arranged on the ground wiping piece for mopping.

When it is desired to use a thick reusable cleaning element, the base 50 can be removed from the floor scrubbing element 10 and the thick cleaning element can be attached to the floor scrubbing element 10. Therefore, the dust collector floor brush can use the recyclable thick cleaning piece and the thin disposable cleaning cloth, and can meet more requirements of users.

In some embodiments, referring to fig. 42-44, the vacuum cleaner brush of the present invention further comprises:

the cleaning device comprises a liquid storage box body 70, wherein a liquid storage space 80 and at least one inclined channel 90 which is communicated with the liquid storage space 80 and is inclined relative to the bottom wall of the liquid storage box body 70 are formed in the liquid storage box body 70, a liquid discharge hole 701 communicated with the at least one inclined channel 90 is formed in the bottom wall of the liquid storage box body 70, and a cleaning piece 100 is arranged on the bottom surface of the liquid storage box body 70;

a moveable member 200, the moveable member 200 being located in the angled passage 90;

when the vacuum cleaner accessory 100 is static, the movable piece 200 blocks the liquid discharge hole 701; when the vacuum cleaner attachment 100 moves, the movable member 200 moves in the inclined passage 90 to open the drain hole 701.

In this embodiment, the tank body 70 forms a storage space 80 therein, and the tank body 70 also serves as a water tank for supplying cleaning solution to the wetting cleaning element 100. The structure of the liquid storage tank 70 may be various, for example, the liquid storage tank 70 is provided with a detachable cover, or the liquid storage tank 70 is an integrated structure, which can be designed by those skilled in the art according to actual situations. The bottom surface of the tank body 70 is used for disposing the cleaning member 100, the cleaning member 100 may be a cleaning cloth, a cleaning sponge, or the like, and the mounting manner may be an adhesive or a snap-fit manner, including but not limited to this.

The bottom surface of the liquid storage box 70 is provided with liquid discharge holes 701, each liquid discharge hole 701 is arranged corresponding to one inclined channel 90, and when the liquid discharge holes 701 are in an open state, water in the liquid storage space 80 in the liquid storage box 70 can flow out onto the cleaning element 100 through the inclined channels 90 and the liquid discharge holes 701. The inclined channel 90 is provided with a movable piece 200, and the movable piece 200 is used for realizing the closing and the opening of the liquid discharge hole 701. Specifically, the movable member 200 may be located at the lowermost portion of the inclined passage 90 to close the drain hole 701, so that the drain hole 701 is closed; the moveable member 200 may also move upward along the angled passage 90 to disengage the drain hole 701 such that the drain hole 701 is open. The movable member 200 is preferably a sphere and may be made of steel. The inclined passage 90 may be formed by an internal structure of the liquid storage box 70, for example, an inclined hollow cylinder is disposed in the liquid storage box 70 corresponding to each liquid discharge hole 701, and the liquid discharge hole 701 is located at the lower end outlet of the hollow cylinder. The inner space of the hollow cylinder forms an inclined passage 90, the peripheral wall of the hollow cylinder is provided with a through hole to communicate the liquid storage space 80 and the inclined passage 90, and the movable member 200 is in the hollow cylinder and can move up or down. Of course, the above-described structure is merely exemplary and not limiting.

Specifically, when the dust collector floor brush does not work, the dust collector floor brush is in a static state, the movable piece 200 is positioned at the lowest part of the inclined channel 90 due to the self gravity and blocks the liquid discharge hole 701, the liquid discharge hole 701 is in a closed state, and at the moment, water in the liquid storage space 80 in the liquid storage box body 70 cannot flow out to the cleaning piece 100 through the liquid discharge hole 701; when the dust collector floor brush works, the dust collector floor brush performs high-frequency reciprocating motion, the movable piece 200 reciprocates along the inclined channel 90 under the influence of inertia action in the inclined channel 90 to be separated from the liquid discharge hole 701, the liquid discharge hole 701 is in an open state, and at the moment, water in the liquid storage space 80 in the liquid storage box body 70 can flow out to the cleaning piece 100 through the inclined channel 90 and the liquid discharge hole 701.

Compared with the water tank structure and the pipeline arrangement of the existing dust collector, the structure of the invention is simpler, thereby saving the cost.

In some embodiments, referring to fig. 37, the dust collector floor brush further includes a rotary joint 40, the rotary joint 40 includes a first joint 41 and a second joint 42, the second joint 42 is rotatably connected to one end of the first joint 41, the other end of the first joint 41 is rotatably connected to the floor brush main body 1, the first joint 41 can rotate in a first direction relative to the floor brush main body 1, the second joint 42 can rotate in a second direction relative to the first joint 41, and the first direction is different from the second direction.

For making things convenient for the clearance of scrubbing brush host computer 1 to dust in the corner, this embodiment is equipped with rotary joint 40 on scrubbing brush host computer 1, is connected with the dust absorption pole through rotary joint 40 for the dust absorption pole can relatively scrubbing brush host computer 1 rotates each angle along two not equidirectional, so, the user only needs through rotating the dust absorption pole when the dust of clearance corner department, can make the dust catcher scrubbing brush remove towards the corner, has promoted the dust absorption effect, and convenient operation.

Specifically, the rotating joint 40 includes a first joint 41 and a second joint 42 hinged to each other, and the other end of the first joint 41 is rotatably connected to the main body 1 of the floor brush. Wherein, first joint 41 can rotate along the first direction relatively scrubbing brush host computer 1, and second joint 42 can rotate along the second direction relatively first joint 41 to the rotation direction of first joint 41 is different with the rotation direction of second joint 42, so can make the dust absorption pole of being connected with rotary joint 40 can rotate in many directions relatively scrubbing brush host computer 1, thereby control the direction of motion of scrubbing brush host computer 1 when conveniently gathering dust, be convenient for clear up the dust in the corner. The first direction may be a vertical direction or a horizontal direction, and the second direction may correspond to a horizontal direction and a vertical direction, and those skilled in the art may design the direction according to actual situations.

In some embodiments, the bottom of the main body 1 of the floor brush provided by the present invention is provided with the moving wheel 15, and the friction between the floor brush of the dust collector and the ground can be reduced by the moving wheel 15, so that the physical ability of the user can be greatly saved, and the user experience can be improved.

The invention further provides a dust collector comprising the dust collector floor brush described in the foregoing embodiments, and the specific structure of the dust collector floor brush refers to the foregoing embodiments, and since the dust collector adopts all technical solutions of all the foregoing embodiments, the dust collector at least has all technical effects brought by the technical solutions of the foregoing embodiments, and details are not repeated herein.

The above is only a part or preferred embodiment of the present invention, and neither the text nor the drawings should limit the scope of the present invention, and all equivalent structural changes made by the present specification and the contents of the drawings or the related technical fields directly/indirectly using the present specification and the drawings are included in the scope of the present invention.

Claims (29)

1. A vacuum cleaner floor brush, comprising:

a ground brush host;

the spraying device is arranged on the ground brush host, the spraying device comprises a liquid inlet end and a liquid outlet end, the liquid inlet end is used for being connected with a liquid storage box, the liquid outlet end is used for being connected with a spraying part, an induction device used for inducing cleaning liquid is arranged on the liquid inlet end, and the liquid outlet pump is connected in series with the liquid inlet end;

the control circuit is arranged on the ground brush host, is respectively electrically connected with the sensing device and the liquid pump, and is used for controlling the liquid pump to switch between a first liquid pumping mode and a second liquid pumping mode according to a sensing signal fed back by the sensing device, wherein the liquid pumping speed in the second liquid pumping mode is higher than the liquid pumping speed in the first liquid pumping mode;

when the liquid reserve tank is annotated with the cleaning solution, if induction system detects cleaning solution in the infusion pipeline is less than and predetermines the liquid level, then passes through control circuit control the drawing liquid pump in operation under the second drawing mode, if induction system detects cleaning solution in the infusion pipeline equals or is higher than and predetermines the liquid level, then passes through control circuit control the drawing liquid pump in operation under the first drawing mode.

2. A vacuum cleaner floor brush according to claim 1,

the liquid pump operates in the first liquid pumping mode, so that after the cleaning liquid in the liquid storage tank is pumped out, and the sensing device detects that the cleaning liquid in the infusion pipeline is lower than a preset liquid level, the liquid pump is controlled by the control circuit to stop operating or continue operating in the first liquid pumping mode.

3. A vacuum cleaner floor brush according to claim 1,

the first liquid pumping mode comprises a first sub-mode and a second sub-mode, and the liquid pumping speed in the second sub-mode is greater than the liquid pumping speed in the first sub-mode;

the dust collector floor brush further comprises an identification component, the identification component is electrically connected with the control circuit and used for sensing an external signal and sending the external signal to the control circuit, and the control circuit controls the liquid pump to switch between the first sub-mode and the second sub-mode according to the external signal.

4. A vacuum cleaner floor brush as claimed in claim 1,

the control circuit controls the liquid pump to operate in the second liquid pumping mode until a preset amount of cleaning liquid is injected into the spraying part, and then the control circuit controls the liquid pump to switch from the second liquid pumping mode to the first liquid pumping mode.

5. A vacuum cleaner floor brush according to claim 1,

the sensing device is arranged between the liquid pump and the liquid outlet end;

or the sensing device is arranged between the liquid inlet end and the liquid pump.

6. A vacuum cleaner floor brush according to claim 1,

the sensing device comprises a first shell and a sensor, a first liquid channel communicated with the infusion pipeline is formed in the first shell, and the sensor is installed on the outer wall of the first shell corresponding to the first liquid channel.

7. The vacuum cleaner floor brush of claim 6, wherein the fluid delivery conduit comprises:

one end of the liquid inlet pipe section is the liquid inlet end, and the other end of the liquid inlet pipe section is connected with a suction port of the liquid pump;

one end of the connecting pipe section is connected with the discharge port of the liquid pump, and the other end of the connecting pipe section is connected with one end of the first liquid channel;

one end of the liquid outlet pipe section is connected with the other end of the first liquid channel, and the other end of the liquid outlet pipe section is the liquid outlet end;

or, the infusion pipeline comprises:

one end of the liquid inlet pipe section is the liquid inlet end, and the other end of the liquid inlet pipe section is connected with one end of the first liquid channel;

one end of the connecting pipe section is connected with the other end of the first liquid channel, and the other end of the connecting pipe section is connected with a suction port of the liquid pump;

and one end of the liquid outlet pipe section is connected with the discharge port of the liquid pump, and the other end of the liquid outlet pipe section is the liquid outlet end.

8. A vacuum cleaner floor brush according to claim 1,

still including spraying the part, it still includes the second casing to spray the part, be provided with on the second casing inlet and a plurality of liquid outlet, the inlet with the liquid outlet end communicates, be formed with the second liquid passageway in the second casing, the second liquid passageway communicates the inlet reaches a plurality of liquid outlets, a plurality of liquid outlet evenly spaced distribution in same one side of second casing.

9. A vacuum cleaner floor brush according to claim 8,

the second liquid channel includes a mainstream passageway and a plurality of with the tributary passageway of mainstream passageway intercommunication, the inlet with mainstream passageway connects, each tributary passageway connects at least one the liquid outlet.

10. A vacuum cleaner floor brush according to claim 8,

the second casing includes the drain pan and installs in the apron of drain pan, a plurality of liquid outlets are located the lateral wall of drain pan, be equipped with the slot in the drain pan, the apron closing cap is sealed the notch of slot, the apron with the slot cooperation forms second liquid passageway, the inboard of drain pan still be equipped with the heavy groove of apron adaptation, the apron install in the heavy groove, the slot is located on the diapire of heavy groove.

11. A vacuum cleaner floor brush according to claim 1,

still include the liquid reserve tank, the bottom of liquid reserve tank is equipped with the liquid outlet and connects, the feed liquor end with the liquid outlet connects and is linked together.

12. A vacuum cleaner floor brush as claimed in claim 11,

the main machine of the floor brush comprises an upper cover, a first groove is formed in the surface of the upper cover, a liquid inlet is formed in the bottom wall of the first groove, the liquid storage tank is detachably connected with the upper cover, and the liquid outlet joint is communicated with the liquid inlet;

the sealing element is arranged in the first groove, an annular inclined surface is formed on the sealing element, a deformation cavity is formed between the annular inclined surface and the groove wall of the first groove, and the liquid outlet joint is inserted into the sealing element and abuts against the annular inclined surface, so that the annular inclined surface deforms towards the deformation cavity.

13. A vacuum cleaner floor brush as claimed in claim 12,

one end of the annular inclined plane, which is close to the liquid inlet, is convexly provided with a step inwards, and the step is abutted against the groove wall of the first groove and is positioned on the periphery of the liquid inlet;

the sealing element further comprises a connecting end extending along the direction of the step back to the liquid outlet joint, the connecting end comprises a first connecting end and a second connecting end which are connected in a bending mode, the first connecting end is provided with a through hole communicated with the first groove, the first connecting end is accommodated in the liquid inlet and abutted against the wall surface of the liquid inlet, and the second connecting end is located on the periphery of the liquid inlet and abutted against the outer bottom wall of the first groove.

14. A vacuum cleaner floor brush as claimed in claim 13,

still include into the liquid mouth and connect, go into the liquid mouth joint butt in the second link is kept away from a surface that the liquid outlet connects, go into the opening that the liquid mouth connects with go into the liquid mouth and communicate each other.

15. A vacuum cleaner floor brush as claimed in claim 13,

the end, far away from the liquid inlet, of the annular inclined plane bends and extends towards the outer side to form a connecting part, the upper cover is provided with a second groove surrounding the first groove, and the connecting part is contained in the second groove.

16. A vacuum cleaner floor brush as claimed in claim 13,

the liquid reserve tank includes box and case lid, the inside liquid reserve chamber that is formed with of box, be equipped with on the case lid and annotate the liquid mouth and be used for the closing cap annotate the seal assembly of liquid mouth, annotate the liquid mouth with the liquid outlet connect all with the liquid reserve chamber intercommunication.

17. The vacuum cleaner floor brush of claim 16,

the floor brush main machine further comprises a base, the base is connected with the upper cover to form an accommodating cavity, a driving device is arranged in the accommodating cavity, a floor wiping piece is arranged at the bottom of the base and connected with an output execution end of the driving device, and the driving device is used for driving the floor wiping piece to reciprocate along a preset direction.

18. The vacuum cleaner floor brush of claim 16,

a bayonet is arranged on one side of the liquid storage tank close to the front end of the floor brush host, and a tenon is convexly arranged on the side wall of the front end of the upper cover corresponding to the bayonet; the clamping hook is protruded out of the bottom wall of the box body and comprises a third connecting part and a fourth connecting part which are mutually connected and arranged in an intersecting manner, the third connecting part is also connected with the bottom wall of the box body, the third connecting part and the fourth connecting part are enclosed to form the bayonet, and the fourth connecting part is obliquely arranged relative to the bottom wall of the box body;

and/or one side of the liquid storage tank close to the rear end of the floor brush main machine is provided with a containing groove, and a telescopic tongue is arranged in the containing groove; the rear side of the upper cover is provided with a butt joint groove corresponding to the telescopic tongue, and the telescopic tongue is used for stretching into the butt joint groove to connect the liquid storage tank and the upper cover.

19. The vacuum cleaner floor brush of claim 17,

the driving device comprises at least two groups of driving components which are arranged at intervals and are respectively connected with the floor mopping piece, so that the floor mopping piece can do reciprocating motion on the ground during dust collection.

20. The vacuum cleaner floor brush of claim 19,

the two floor mopping pieces are arranged at intervals, and the driving assembly comprises

The connecting shaft comprises a first journal and a second journal which are connected in a staggered manner;

one end of the first crank is rotatably sleeved on the first shaft neck, and the other end of the first crank is hinged with the floor wiping piece; and

one end of the second crank is rotatably sleeved on the second journal, and the other end of the second crank is hinged with the other floor mopping piece.

21. The vacuum cleaner ground brush as claimed in claim 20,

the driving device further comprises a driving motor, a first shaft hole penetrating through the first shaft neck and the second shaft neck is formed in the connecting shaft, the first shaft hole deviates from the centers of the first shaft neck and the second shaft neck, and the connecting shaft is sleeved on a motor shaft of the driving motor through the first shaft hole.

22. The vacuum cleaner ground brush as claimed in claim 21,

the driving assemblies comprise two driving motors, the two driving motors are double-shaft motors, two motor shafts of the driving motors face one driving assembly respectively, the double-shaft motors are located between the two driving assemblies, and connecting shafts of the two driving assemblies are arranged on the two motor shafts of the double-shaft motors through respective first shaft holes in a sleeved mode.

23. The vacuum cleaner floor brush of claim 17,

the air inlet is formed in the bottom of the floor brush main machine, the floor brush main machine is provided with a dust collecting pipeline connected with the floor brush main machine and communicated with the air inlet, a sealing assembly is arranged in an air channel of the air inlet, and the sealing assembly blocks the rear end of the air inlet so that airflow of the air inlet flows into the dust collecting pipeline after being reflected by the sealing assembly.

24. The vacuum cleaner ground brush as claimed in claim 23,

the base includes the bottom plate and is connected and the curb plate that extends towards ground with the bottom plate, the bottom plate in air intake department bends towards ground and extends and forms the baffle, the air intake be located the baffle with between the curb plate, the baffle with the curb plate cooperation forms the wind channel of air intake.

25. The vacuum cleaner ground brush as claimed in claim 24,

the sealing assembly comprises an installation part and a guide part arranged on the installation part, the installation part is detachably connected with the baffle, one end of the guide part is abutted to the end wall of the opening end of the dust collection pipeline, and the other end of the guide part is in contact with the ground when dust is collected.

26. The vacuum cleaner ground brush as claimed in claim 23,

the dust collection duct includes:

the dust collection device comprises a pipe body, a dust collection pipe and a dust collection pipe, wherein two ends of the pipe body are open, a dust collection air duct extending from one end to the other end of the pipe body is arranged in the pipe body, and at least one opening is formed in the outer wall of the pipe body;

at least one cover body is arranged on the pipe body, and the cover body covers the opening.

27. The vacuum cleaner floor brush of claim 17, further comprising:

the base is detachably connected with the floor mopping piece, and one side surface of the base, which is back to the floor mopping piece, is used for installing cleaning cloth.

28. A vacuum cleaner floor brush according to claim 1,

still include rotary joint, rotary joint includes first joint and second joint, the second connect with the one end of first joint is rotated and is connected, the other end of first joint with the scrubbing brush host computer rotates and is connected, first joint can be relative the scrubbing brush host computer rotates along first direction, the second joint can be relative first joint rotates along the second direction, first direction with the second direction is different.

29. A vacuum cleaner comprising a cleaner body and a cleaner floor brush as claimed in any one of claims 1 to 28 attached to the cleaner body.

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