CN108903783B - Dry and wet two-purpose dust collector - Google Patents

Abstract

The invention discloses a wet and dry dust collector, comprising: the device comprises a floor brush, a vertical machine body, a cleaning liquid supply assembly, a sewage recovery assembly and a portable cleaning device. The dust collection device comprises a dust collection cavity, a machine body, a cleaning liquid supply assembly, a dust barrel assembly, a power assembly, a sewage recovery assembly and a portable cleaning device, wherein the dust collection cavity is defined in the ground brush, the machine body is rotatably connected with the ground brush, the cleaning liquid supply assembly comprises a cleaning liquid box and a spray head, the cleaning liquid box is arranged on the machine body and is communicated with the spray head, the spray head is suitable for spraying cleaning liquid to the ground brush or a surface to be cleaned, the sewage recovery assembly comprises a sewage box communicated with the dust collection cavity, the sewage box is arranged on the machine body, the portable cleaning device is detachably arranged on the machine body, the detachment direction of the portable cleaning device is parallel to or is an acute angle with the extending direction of the machine body when the portable cleaning device is separated from the machine body, the portable cleaning device comprises the dust barrel assembly and the power assembly, and an air inlet of the dust barrel assembly is communicated with the sewage box. According to the wet and dry dust collector, the portable cleaning device is convenient and easy to separate and operate, and has the advantages of high use flexibility, good cleaning effect, compact structure and convenience in use.

Description

Dry and wet two-purpose dust collector

Technical Field

The invention relates to the technical field of cleaning equipment, in particular to a wet and dry dust collector.

Background

With the continuous development of technology and the increasing demands of users, dust collectors are increasingly tending toward portability, modularization and multifunctionality. For example, the related art vacuum cleaners are designed with a detachable portable cleaning apparatus that can be used either in combination with the main body of the vacuum cleaner or by being removed from the main body and used alone. However, the portable cleaning apparatus of the related art dust collector has a disadvantage in that the separation operation is inconvenient, and the related art dust collector is inflexible in use and has only one recovery tank resulting in poor cleaning effect.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, an object of the present invention is to provide a wet and dry dual-purpose cleaner, which has a convenient and easy separation operation, a flexible use and a good cleaning effect.

According to the embodiment of the invention, the wet and dry dual-purpose dust collector comprises: a floor brush defining a dust collection cavity therein, the floor brush having a suction inlet in communication with the dust collection cavity; the vertical machine body is rotatably connected with the floor brush; the cleaning liquid supply assembly comprises a cleaning liquid tank and a spray head, the cleaning liquid tank is arranged on the machine body and is communicated with the spray head, and the spray head is suitable for spraying liquid to the floor brush or the surface to be cleaned; the sewage recycling assembly comprises a sewage tank communicated with the dust collection cavity, and the sewage tank is arranged on the machine body and is used for recycling sewage; the portable cleaning device is detachably arranged on the machine body, the disassembly direction of the portable cleaning device when the portable cleaning device is separated from the machine body is parallel to the extension direction of the machine body or is an acute angle, the portable cleaning device comprises a dust barrel assembly and a power assembly, and an air inlet of the dust barrel assembly is communicated with the sewage tank; when the portable cleaning device is in a combined use mode, the portable cleaning device is connected with the machine body, and under the action of the power assembly, air flow sequentially flows through the dust collection cavity, the sewage tank and the dust barrel assembly through the suction inlet; when the portable cleaning device is in a single use mode, the portable cleaning device is separated from the machine body and is used independently, and under the action of the power assembly, air flow enters the dust barrel assembly from the air inlet to separate dust from air.

According to the dry-wet dual-purpose dust collector disclosed by the embodiment of the invention, the portable cleaning device is detachably arranged on the machine body, so that the portable cleaning device can be separated from the machine body and used independently, the use flexibility of the dry-wet dual-purpose dust collector is improved, and as the separation direction of the portable cleaning device is parallel to or forms an acute angle with the extending direction of the machine body, the portable cleaning device can be quickly separated from the machine body approximately along the extending direction of the machine body when the portable cleaning device is detached, so that the separation operation of the portable cleaning device is easier and more convenient, and the sewage tank is used for recycling sewage and combining with the dust cup component to separate dust and gas when the portable cleaning device is combined in a use mode, the cleaning effect can be improved, and the sewage tank is arranged on the machine body, so that the whole machine has a compact structure, and the overlarge volume of a floor brush part of the whole machine is prevented from being inconvenient to use.

According to some embodiments of the invention, the portable cleaning device is provided at an upper portion of the body above the sewage tank.

According to some embodiments of the invention, the point of attachment of the portable cleaning apparatus to the body is near the top end of the body.

According to some embodiments of the invention, the top surface of the portable cleaning device is exposed outside the body when the portable cleaning device is attached to the body.

According to some embodiments of the invention, the body has a mating surface formed thereon adapted to mate with the portable cleaning device, the mating surface having an arcuate surface that is concave inward.

According to some embodiments of the invention, the body has a mating surface formed thereon adapted to mate with the portable cleaning device, the mating surface being located on a rear side of the portable cleaning device.

According to some embodiments of the invention, the wet and dry vacuum cleaner includes a latch assembly for latching the portable cleaning apparatus to the body, the latch assembly comprising: the first locking part and the second locking part are matched with each other, the first locking part is arranged on the machine body in a telescopic way, and the second locking part is arranged on the portable cleaning device; the driving button is arranged on the machine body in a vertically movable mode, the driving button is matched with the first locking part to drive the first locking part to retract, and the first locking part and the second locking part are separated from each other to enable the portable cleaning device to be separated from the machine body; the drive spring, the one end of drive spring with the organism links to each other and the other end with first hasp portion links to each other, drive spring is suitable for the drive first hasp portion stretches out, first hasp portion with the cooperation of second hasp portion, so that portable cleaning device locks on the organism.

Optionally, the driving button has a first mating inclined surface, the first locking portion has a second mating inclined surface mated with the first mating inclined surface, and in the extending direction of the first locking portion, both the first mating inclined surface and the second mating inclined surface extend obliquely downward.

Optionally, the wet and dry dual-purpose dust collector comprises a positioning structure, and the positioning structure comprises: the portable cleaning device comprises a machine body, a portable cleaning device and a clamping groove and a clamping protrusion which are matched with each other, wherein one of the clamping groove and the clamping protrusion is arranged on the machine body, the other is arranged on the portable cleaning device, and the cross section of the clamping groove and the cross section of the clamping protrusion are non-circular.

Further, the clamping groove is formed on the machine body, the top of the clamping groove is open, the clamping convex is formed on the portable cleaning device, and the cross section of the clamping groove and the cross section of the clamping convex are both T-shaped.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

Figure 1 is a perspective view of a wet and dry dual purpose vacuum cleaner in accordance with an embodiment of the present invention;

FIG. 2 is another perspective view of the wet and dry dual purpose cleaner of FIG. 1;

FIG. 3 is a front view of the wet and dry dual purpose cleaner of FIG. 1;

FIG. 4 is an exploded view of the wet and dry dual purpose cleaner of FIG. 1;

fig. 5 is an enlarged view at a in fig. 4;

FIG. 6 is a separated view of the handle and body according to an embodiment of the present invention;

fig. 7 is an enlarged view at B in fig. 6;

fig. 8 is an enlarged view at C in fig. 6;

FIG. 9 is a schematic view of a portable cleaning apparatus used in combination with a handle in accordance with an embodiment of the invention;

FIG. 10 is a schematic view of a locking assembly between a handle and a body according to an embodiment of the present invention;

FIG. 11 is a schematic view of a removal direction of a portable cleaning apparatus according to an embodiment of the invention;

FIG. 12 is a schematic view of a portable cleaning apparatus according to an embodiment of the invention, detached from a body;

fig. 13 is an enlarged view of D in fig. 12;

fig. 14 is an enlarged view at E in fig. 12;

FIG. 15 is a schematic view of a latch assembly between a portable cleaning apparatus and a body in accordance with an embodiment of the present invention;

FIG. 16 is a second schematic view of a latch assembly between a portable cleaning apparatus and a body according to an embodiment of the invention;

Fig. 17 is a schematic view showing connection of the portable cleaning apparatus to the sewage tank according to an embodiment of the present invention;

fig. 18 is a schematic view of the relative positions of a sewage tank and a clean water tank according to an embodiment of the present invention;

fig. 19 is a separated view of the sewage tank and the body according to the embodiment of the present invention;

fig. 20 is a mating view of a sewage tank and a recess on a body according to an embodiment of the present invention;

fig. 21 is a perspective view showing a locking assembly and a handle between the sewage tank and the body, wherein the locking assembly locks the sewage tank to the body, according to an embodiment of the present invention;

fig. 22 is a schematic cross-sectional view of a locking assembly and handle between the sewage tank and the machine body, wherein the locking assembly locks the sewage tank to the machine body, according to an embodiment of the present invention;

fig. 23 is a perspective view showing a locking assembly and a handle between the sewage tank and the body, in which the sewage tank is unlocked from the body, according to an embodiment of the present invention;

FIG. 24 is a schematic cross-sectional view of a locking assembly and handle between the tank and the housing with the tank unlocked from the housing in accordance with an embodiment of the present invention;

fig. 25 is a schematic view illustrating a disassembly direction of the sewage tank according to an embodiment of the present invention;

figure 26 is a partial structural cross-sectional view of a wet and dry dual purpose cleaner according to an embodiment of the present invention;

Fig. 27 is an enlarged view at F in fig. 26;

fig. 28 is an enlarged view at G in fig. 26;

figure 29 is a perspective view of a body of the wet and dry dual purpose cleaner according to an embodiment of the present invention;

FIG. 30 is another perspective view of the body of the wet and dry dual purpose cleaner according to the embodiment of the present invention;

FIG. 31 is a schematic view showing the distribution of the flow channels of the cleaning solution supply assembly on the machine body according to the embodiment of the present invention;

FIG. 32 is a perspective view of a tray of the cleaning liquid supply assembly according to an embodiment of the present invention;

FIG. 33 is another angled perspective view of a tray of the cleaning liquid supply assembly according to an embodiment of the present invention;

figure 34 is a perspective view of a floor brush of a wet and dry dual purpose vacuum cleaner in accordance with an embodiment of the present invention;

FIG. 35 is an internal construction view of a floor brush of a wet and dry dual purpose cleaner according to an embodiment of the present invention;

FIG. 36 is a schematic view showing the assembly and disassembly of a roller brush of a wet and dry dual-purpose vacuum cleaner according to an embodiment of the present invention;

fig. 37 is an enlarged view at H in fig. 36;

FIG. 38 is a sectional view of a floor brush of the wet and dry dual purpose cleaner according to an embodiment of the present invention;

FIG. 39 is an enlarged view of the portion I of FIG. 38;

FIG. 40 is a schematic view of a duct structure of a wet and dry dual purpose vacuum cleaner according to an embodiment of the present invention;

FIG. 41 is a schematic view of an air duct within the sump of the wet and dry cleaner of FIG. 40;

FIG. 42 is a second schematic diagram of the air duct structure of the wet and dry dual-purpose vacuum cleaner according to the embodiment of the present invention;

FIG. 43 is an exploded view of the air duct structure of the wet and dry dual purpose vacuum cleaner of FIG. 42;

fig. 44 is an enlarged view at J in fig. 43;

fig. 45 is a distribution diagram of a battery module of a wet and dry dual-purpose vacuum cleaner according to an embodiment of the present invention;

fig. 46 is an installation perspective view of a first battery module according to an embodiment of the present invention;

fig. 47 is a second perspective view of the installation of the first battery module according to the embodiment of the present invention;

fig. 48 is an installation sectional view of the first battery module of fig. 47;

fig. 49 is an enlarged view at K in fig. 48;

fig. 50 is an installation perspective view of a second battery module according to an embodiment of the present invention.

Reference numerals:

a wet and dry cleaner 100;

a machine body 1; a mounting cavity 1a; a positioning groove 1b; a clamping groove 1c; a mating surface 11; a fitting portion 12; a recessed portion 1d; a first end face 11d; a second end face 12d; a first step surface 13d; a second communication port 1e; a connection protrusion 13; a mounting groove 1f; a first installation guide surface 11f; a first locking part 141; a second mating ramp 1411; a drive button 142; a first mating ramp 1421; a drive spring 143; 1g of a locking groove; a locking buckle 151; a second drive surface 1511; release button 152; a first drive surface 1521; a lock spring 153; a locking buckle 161; a second drive ramp 1611; an unlock button 162; a first driving ramp 1621; a connection channel 1k; a first open end 11k; a first seal ring 111k; a second open end 12k; a second seal ring 121k; a second battery mounting chamber 1t; a second cover plate 17; a mounting bracket 18; a second battery module 19;

A handle 2; a handle body 21; a grip 22; a positioning projection 23; a locking groove 2a;

a portable cleaning device 3; a second locking portion 3a; a dustcup assembly 31; a dust barrel 311; an air inlet 311a; an air inlet pipe 312; a cyclone 313; a power assembly 32; a housing 321; a first sub-housing 3211; a second sub-housing 3212; a body 3213; a second hook 32131; a resilient member 32132; a first cover plate 3214; a first hook 32141; a first battery mounting cavity 321a; a heat dissipation hole 321b; an air outlet hole 321c; a clip projection 35; a first battery module 36;

a sewage tank 4; an air outlet 4a; an air duct 41; a first conduit section 411; an air intake hole 411a; a second conduit section 412; a third conduit section 413; an air intake duct 42; a baffle plate 43; an air guide duct 44; a first conduit section 441; a second pipe section 442; a butt wall 45; a receiving notch 45a; a mounting notch 4b; a third end face 41b; a fourth end face 42b; a second step surface 43b; a first communication port 4c; a tongue 46; mating ramp 461; a lock spring 47; a handle 48; unlocking the projection 481;

a cleaning liquid tank 5; a second installation guide surface 51; a water passage hole 5a; an annular projection 52; a valve body 53; a valve core 531; a connection portion 532; an annular groove 532a; perforations 532b; a first seal 54; a second seal 55; a locking groove 5b;

A tray 6; a tray support 61; an opening 61a; a housing cylinder 62; a receiving groove 62a; overflow holes 62b; an overflow pipe 63; a flow channel 63b; an ejector 64; a connecting post 65; screw holes 65a; a communicating tube 66;

a water pump 71; a shower head 72; a three-way valve 73; a first valve port 73a; a second valve port 73b; a third valve port 73c;

a floor brush 8; a brush housing 81; a scraper bar 811; a dust suction chamber 81a; a suction port 81b; a mounting port 81c; a stopper 82; positioning notch 82a; a suction pipe 83; a suction port 83a; a roller brush 84; a driving end 841; an end cap 85; a limit groove 85a; positioning the bump 851; a drive mechanism 86; a transmission member 871; spline 8711; a receiving cap 872; and an illumination lamp 88.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

A wet and dry dual purpose vacuum cleaner 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 50.

As shown in fig. 1 to 50, the wet and dry dual purpose cleaner 100 according to the embodiment of the present invention includes: a floor brush 8, a vertical machine body 1, a cleaning liquid supply assembly, a sewage recovery assembly and a portable cleaning device 3.

Specifically, referring to fig. 1 to 11 and 34 to 38, the floor brush 8 defines a suction chamber 81a therein, and the floor brush 8 has a suction port 81b communicating with the suction chamber 81a, and dirt such as dust on a surface to be cleaned (e.g., floor surface) can be sucked into the suction chamber 81a through the suction port 81 b. The machine body 1 is rotatably connected with the floor brush 8, thereby facilitating the turning and moving of the floor brush 8.

Optionally, the wet and dry dual-purpose vacuum cleaner 100 includes a handle 2, the handle 2 is disposed at an upper end of the machine body 1, and a user can hold the handle 2 when using the wet and dry dual-purpose vacuum cleaner 100, so that the wet and dry dual-purpose vacuum cleaner is convenient to use.

Referring to fig. 1 to 4 and 25 to 36, the cleaning liquid supply assembly includes a cleaning liquid tank 5 and a spray head 72, the cleaning liquid tank 5 is provided on the machine body 1 and is communicated with the spray head 72, the cleaning liquid tank 5 is used for storing the cleaning liquid, the cleaning liquid in the cleaning liquid tank 5 can flow into the spray head 72, and the spray head 72 is suitable for spraying the cleaning liquid to the floor brush 8 or the surface to be cleaned, thereby playing a role in cleaning and nursing the surface to be cleaned. Alternatively, the cleaning liquid may be clear water, or may be a cleaning agent, a nursing agent, or the like.

Referring to fig. 1 to 4, 18 to 20, and 40 to 45, the sewage recovery assembly includes a sewage tank 4 communicating with a dust suction chamber 81a, the sewage tank 4 is provided on the machine body 1 and is used for recovering sewage, the shower head 72 sprays cleaning liquid onto the floor brush 8 or the surface of the cleaning liquid, the cleaning liquid is cleaned on the surface to be cleaned to form sewage, the sewage is sucked into the dust suction chamber 81a, and the sewage flows into the sewage tank 4 and is recovered in the sewage tank 4. By arranging the sewage tank 4 on the machine body 1, the structure of the whole machine can be compact, and inconvenience in use caused by overlarge volume of the ground brush 8 of the whole machine is prevented.

Referring to fig. 1 to 4, 11 to 12, and 40 to 46, the portable cleaning apparatus 3 is detachably provided to the machine body 1, the portable cleaning apparatus 3 includes a dust drum assembly 31 and a power assembly 32, the dust drum assembly 31 is used for separating dust and gas and recovering the separated dust in the dust drum assembly 31, and the power assembly 32 provides power for the flow of air current. The air inlet 311a of the dust barrel assembly 31 is communicated with the sewage tank 4, and air flow entering the sewage tank 4 carries dirt such as sewage, dust and the like, and the sewage is recovered in the sewage tank 4. The air flow carrying the dust and other solid garbage enters the dust barrel assembly 31 through the air inlet 311a for dust-air separation, and the separated dust and other solid garbage is recovered in the dust barrel assembly 31. The relatively clean air flow separated from the dust and gas by the dust and gas cartridge assembly 31 can be discharged to the outside environment through the air outlet 321c formed in the outer peripheral wall of the power assembly 32.

Referring to fig. 11, the removal direction (refer to the e1 direction in fig. 11) when the portable cleaning apparatus 3 is separated from the body 1 is parallel or at an acute angle to the extending direction of the body 1. For example, when the wet and dry dual-purpose vacuum cleaner 100 is not in use, the extending direction of the body 1 is in the vertical direction, and the detaching direction of the portable cleaning apparatus 3 when separated from the body 1 may be in the vertical direction; the direction of detachment of the portable cleaning device 3 when separated from the machine body 1 may also have an angle with the vertical direction, which is an acute angle, which may be between 0-30 °. Thereby, the portable cleaning apparatus 3 can be quickly separated from the body 1 substantially along the extending direction of the body 1 (for example, the portable cleaning apparatus 3 can be lifted upward or obliquely upward to separate the portable cleaning apparatus 3 from the body 1, or the portable cleaning apparatus 3 can also be pushed downward or obliquely downward to separate the portable cleaning apparatus 3 from the body 1), so that the separation operation of the portable cleaning apparatus 3 is easier and more convenient.

For example, in some embodiments of the present invention, referring to fig. 3 and 11, when the portable cleaning apparatus 3 is provided at an upper portion of the body 1 and above the sump 4, the portable cleaning apparatus 3 may be lifted upward to separate the portable cleaning apparatus 3 from the body 1. Thereby, the disassembly and assembly of the portable cleaning apparatus 3 are facilitated.

Referring to fig. 40 to 46, when the portable cleaning apparatus 3 is in the combined use mode, the portable cleaning apparatus 3 may be in the wet cleaning mode, the portable cleaning apparatus 3 is connected to the main body 1, and the air flow sequentially passes through the dust suction chamber 81a, the sewage tank 4 and the dust canister assembly 31 through the suction inlet 81b by the power assembly 32. Specifically, the cleaning liquid tank 5 in the cleaning liquid supply assembly supplies the cleaning liquid to the shower head 72, the shower head 72 sprays the cleaning liquid onto the floor brush 8 or the surface to be cleaned, and the air flow enters the dust suction chamber 81a through the suction port 81b by the power assembly 32. When the nozzle 72 sprays the cleaning liquid onto the floor brush 8, dirt such as dust is carried in the air flow entering the dust collection cavity 81a through the suction inlet 81b, and the cleaning liquid on the floor brush 8 forms sewage after cleaning the surface to be cleaned and falls into the dust collection cavity 81 a; when the nozzle 72 sprays the cleaning liquid onto the surface to be cleaned, dirt such as dust, sewage, etc. is carried in the air flow entering the suction chamber 81a through the suction port 81 b.

Further, the air flow carrying dirt such as dust and sewage in the dust collection chamber 81a flows into the sewage tank 4, the sewage is recovered in the sewage tank 4, and at this time, the air flow carrying solid garbage such as dust flows into the dust and gas separation from the sewage tank 4 through the air inlet 311a and flows into the dust and gas separation cylinder assembly 31. The separated dirt such as dust is collected in the dust drum assembly 31, and the relatively clean air flow separated from the dust and air by the dust drum assembly 31 can be discharged to the outside environment through the air outlet 321c formed in the outer peripheral wall of the power assembly 32. In the combined use mode, the sewage tank 4 recovers sewage and performs dust-gas separation in combination with the dust cartridge assembly 31, so that the cleaning effect can be improved.

Of course, when the portable cleaning apparatus 3 is in the combined use mode, the portable cleaning apparatus 3 may be in the dry cleaning mode, in which case the cleaning liquid flow path of the cleaning liquid supply unit may be cut off, or the cleaning liquid may not be stored in the cleaning liquid supply unit.

Referring to fig. 9, when the portable cleaning apparatus 3 is in the single use mode, the portable cleaning apparatus 3 is in the dry cleaning mode, and the portable cleaning apparatus 3 is separated from the body 1 and used alone. Under the action of the power assembly 32, the air flow carrying dirt such as dust enters the dust barrel assembly 31 from the air inlet 311a for dust-air separation, the separated dust and other solid garbage are recovered in the dust barrel assembly 31, and the relatively clean air flow after dust-air separation of the dust barrel assembly 31 can be discharged to the external environment through the air outlet 321c on the peripheral wall of the power assembly 32. By detachably providing the portable cleaning apparatus 3 to the machine body 1, the portable cleaning apparatus 3 can be separated from the machine body 1 and used alone, increasing the flexibility of use of the wet and dry cleaner 100.

Alternatively, when the portable cleaning apparatus 3 is in the stand-alone mode, it may be used by externally connecting a pipe at the air inlet 311 a.

According to the wet and dry dual-purpose vacuum cleaner 100 of the embodiment of the invention, the portable cleaning device 3 is detachably arranged on the machine body 1, so that the portable cleaning device 3 can be separated from the machine body 1 and used independently, the use flexibility of the wet and dry dual-purpose vacuum cleaner 100 is improved, the sewage tank 4 is used for recycling sewage and separating dust and gas by combining a dust cup assembly in a combined use mode, the cleaning effect is improved, and the sewage tank 4 is arranged on the machine body 1, so that the whole machine has a compact structure, and inconvenience in use caused by overlarge volume of the part of the floor brush 8 of the whole machine is prevented. In addition, since the separation direction of the portable cleaning apparatus 3 is parallel to or at an acute angle to the extension direction of the body 1, the portable cleaning apparatus 3 can be rapidly separated from the body 1 substantially along the extension direction of the body 1 when the portable cleaning apparatus 3 is detached, so that the separation operation of the portable cleaning apparatus 3 is easier and more convenient.

According to some embodiments of the present invention, referring to fig. 1 to 3, 7 and 26, the sewage tank 4 and the cleaning liquid tank 5 are located at opposite sides of the machine body 1, so that the overall height of the whole machine can be reduced, and the structure of the whole machine is compact and balanced. Alternatively, the sump 4 and the cleaning solution tank 5 are respectively located at the front side and the rear side of the body 1. When the sewage tank 4 is located at the front side of the machine body 1, the main body of the floor brush 8 is also located at the front side of the machine body 1, so that the air flow directly flows upwards into the sewage tank 4 after flowing through the floor brush 8, the air flow path can be reduced, and the air flow loss can be reduced.

Alternatively, referring to fig. 11 and 26, the upper end surface of the cleaning solution tank 5 is higher than the upper end surface of the sewage tank 4. Thus, after the portable cleaning device 3 is mounted on the sewage tank 4, the overall height of the whole machine can be made low, and the structural layout of the opposite sides of the whole machine can be made reasonable and beautiful.

Alternatively, referring to fig. 1 to 3, 7 and 26, both the cleaning solution tank 5 and the sewage tank 4 are disposed adjacent to the lower end of the body 1. Therefore, the height of the gravity center of the whole machine can be reduced, so that the gravity center of the whole machine is more stable and is closer to the ground, and the load sense of a user is reduced.

According to some embodiments of the invention, fig. 1-3 and 40-45, the portable cleaning apparatus 3 is provided in an upper part of the machine body 1 above the sewage tank 4. Thereby, the disassembly and assembly of the portable cleaning apparatus 3 are facilitated.

According to some embodiments of the invention, fig. 1-3 and 40-45, the portable cleaning apparatus 3 is located above the tank 4 and on the same side of the body 1 as the tank 4. Therefore, the flow path of the air flow can be shortened, the air flow loss is reduced, and meanwhile, the portable cleaning device 3 is convenient to assemble and disassemble as the portable cleaning device 3 is positioned above the sewage tank 4. In addition, when the portable cleaning device 3 is located above the sewage tank 4 and both the portable cleaning device and the sewage tank 4 are located on the front side of the machine body 1, the gravity center of the whole machine can be adjacent to the front side of the machine body 1, and the movement and the use of the whole machine are facilitated.

It should be noted that the directions "front", "rear", "left" and "right" according to the present invention are based on the moving direction of the user when using the wet and dry cleaner 100.

For example, in some embodiments of the present invention, fig. 1 to 3 and 40 to 45, the portable cleaning apparatus 3 and the sewage tank 4 are both located at the front side of the body 1, and the cleaning liquid tank 5 is located at the rear side of the body 1. Therefore, the gravity center of the whole machine is adjacent to the front side of the machine body 1, the movement and the use convenience of the whole machine are facilitated, and the flow path of the air flow can be further shortened.

Alternatively, fig. 1 to 3 and 40 to 45, in a horizontal direction, an upper portion of the cleaning solution tank 5 is opposite to the portable cleaning apparatus 3, and a lower portion of the cleaning solution tank 5 is opposite to the sewage tank 4. Thereby, the structures of the opposite sides of the body 1 are made relatively uniform, and the cleaning liquid tank 5 can be made to have a large capacity.

According to some alternative embodiments of the invention, fig. 1-3 and 40-45, the portable cleaning apparatus 3 is located above the tank 4 and on the same side of the machine body 1 as the tank 4, and in a vertical direction, the centre line of the portable cleaning apparatus 3 and the centre line of the tank 4 extend in a vertical direction and coincide. Therefore, the portable cleaning device 3 can be stably and reliably supported on the sewage tank 4, and the structure of the whole machine is more compact and stable.

Further, in fig. 1 to 3 and 40 to 45, the center line of the portable cleaning apparatus 3 and the center line of the sewage tank 4 pass through the floor brush 8. Therefore, the structure of the whole machine is compact, the gravity center of the whole machine is adjacent to the front side of the machine body 1, and the movement and the use convenience of the whole machine are facilitated.

According to some embodiments of the invention, referring to fig. 1-3, a cleaning liquid tank 5 is located below the handle 2. Therefore, the gravity center of the whole machine can be close to the lower end of the machine body 1, and the handle 2 can be conveniently held for operation.

According to some embodiments of the invention, referring to fig. 1-3, the projection of the handle 2 on the horizontal plane intersects the projection of the portable cleaning device 3 on the horizontal plane, i.e. the projection of the handle 2 on the horizontal plane has a coincident portion with the projection of the portable cleaning device 3 on the horizontal plane. Therefore, a part of the handle 2 is positioned on the side of the portable cleaning device 3, the size of the whole machine in the horizontal direction is reduced, and the structure of the whole machine is more compact.

According to some embodiments of the present invention, referring to fig. 1 to 6 and 9, the handle 2 is detachably connected to the body 1, the handle 2 includes a handle body 21 having a tubular shape and a grip 22 provided on the handle body 21, a lower end of the handle body 21 is detachably connected to the body 1, and both ends of the handle body 21 in a length direction are opened. When the portable cleaning apparatus 3 is in the single use mode, the portable cleaning apparatus 3 and the handle 2 are both separated from the body 1, and one end of the handle body 21 is connected to the air inlet 311 a. Under the action of the power assembly 32, the airflow carrying dirt such as dust flows into the cavity of the handle body 21 from the other end of the handle body 21, and flows through the handle body 21, the air inlet 311a and the dust-air separation device 31 in sequence. The separated dust and other solid garbage are recovered in the dust barrel assembly 31, and the relatively clean air flow after dust-gas separation of the dust barrel assembly 31 can be discharged to the external environment through the air outlet 321c on the outer peripheral wall of the power assembly 32.

Therefore, the handle 2 is detachably connected with the machine body 1, the handle main body 21 is in a tubular shape with both ends open, and when the portable cleaning device 3 is in a single use mode, the portable cleaning device 3 can be matched with the handle 2 for use, so that the use flexibility of the wet and dry dual-purpose dust collector 100 is enhanced, and meanwhile, the cleanable space range is enlarged. For example, the portable cleaning device 3 is used in cooperation with the handle 2 to clean the floor or to perform an overhead operation.

According to some embodiments of the present invention, referring to fig. 1 to 9, a handle 2 is detachably coupled to a body 1, a mounting cavity 1a having an open top is formed at an upper end of the body 1, and a lower end of the handle 2 is disposed in the mounting cavity 1 a. Thereby, the handle 2 can be conveniently mounted on the body 1 and the contact area of the handle 2 and the body 1 can be increased. Alternatively, the handle 2 is slidable in the mounting chamber 1a in the extending direction of the body 1. From this, locate the installation cavity 1a of organism 1 through the lower extreme with handle 2 in, make things convenient for the dismouting of handle 2 and can make handle 2 install on organism 1 reliably to through with handle 2 along the extending direction slidable of organism 1, make handle 2 have the lift function, the user can be according to actual demand height in the position of adjustment handle 2, more make things convenient for user's use.

Further, the handle 2 can be locked to the body 1 by a locking assembly, whereby the handle 2 can be locked to the body 1 by the provided locking assembly, and of course, the handle 2 can be unlocked from the body 1 by operating the locking assembly.

In some alternative embodiments of the present invention, referring to fig. 6-10, the locking assembly may include: the lock catch 151 and the lock groove 2a, the release button 152, and the lock spring 153, which are engaged with each other, are provided horizontally movably on the inner side wall of the installation chamber 1a (for example, the lock catch 151 is provided horizontally movably on the left side wall of the installation chamber 1 a), and the lock groove 2a is formed on the side wall of the handle 2 (for example, the lock groove 2a is formed on the left side wall of the handle 2). The release button 152 is provided on the body 1 so as to be movable up and down (for example, the release button 152 is provided on the top end of the body 1 so as to be movable up and down). The release button 152 cooperates with the locking catch 151 to drive the locking catch 151 out of engagement with the locking groove 2a, and the handle 2 is unlocked from the body 1. One end of the locking spring 153 is connected to the body 1 and the other end is connected to the locking buckle 151, and the locking spring 153 is adapted to drive the locking buckle 151 to cooperate with the locking groove 2a so as to lock the handle 2 to the body 1.

Thus, when the handle 2 is mounted on the body 1, the lower end of the handle 2 is inserted into the mounting cavity 1a of the body 1, and the handle 2 presses the locking buckle 151 to retract during the process of inserting the lower end of the handle 2 into the mounting cavity 1 a. After the handle 2 is installed in place, the locking groove 2a on the handle 2 is opposite to the locking buckle 151 on the machine body 1, and the locking buckle 151 stretches into the locking groove 2a under the drive of the locking spring 153, so that the handle 2 can be locked on the machine body 1. When the handle 2 needs to be detached from the machine body 1, the release button 152 is pressed downwards to drive the locking buckle 151 to retract, the locking buckle 151 is disengaged from the locking groove 2a, at this time, the handle 2 is unlocked, the handle 2 is lifted upwards to be separated from the machine body 1, and meanwhile, the release button 152 is released, so that the release button 152 can be restored to the initial position.

Further, referring to fig. 10, the release button 152 has a first driving surface 1521, the latch 151 has a second driving surface 1511 that mates with the first driving surface 1521, and both the first driving surface 1521 and the second driving surface 1511 extend obliquely downward in the extending direction of the latch 151 (e.g., in a left-to-right direction). Thus, when the release button 152 is pressed downward, the release button 152 moves downward and comes into close contact with the latch 151, so that the release button 152 has an urging force toward the latch 151 away from the latch groove 2a (e.g., the release button 152 has a leftward urging force on the latch 151) by the engagement of the first driving surface 1521 and the second driving surface 1511, so that when the release button 152 is pressed downward, the latch 151 can be driven to move toward the direction away from the latch groove 2a to disengage from the latch groove 2a (e.g., the latch 151 can be driven to move leftward to disengage from the latch groove 2 a), thereby conveniently achieving unlocking of the handle 2, and after the release button 152 is released, the release button 152 can be returned to the original position by the set return spring.

According to some alternative embodiments of the present invention, referring to fig. 4 to 7, a positioning protrusion 23 is provided on a sidewall of the handle 2, and a positioning groove 1b engaged with the positioning protrusion 23 is formed on an inner sidewall of the installation cavity 1 a. Thus, the handle 2 can be conveniently positioned on the body 1 by the cooperation of the positioning protrusion 23 on the handle 2 and the positioning groove 1b on the body 1, and the handle 2 can be positioned and locked on the body 1 by the cooperation of the locking assembly.

For example, in the example of fig. 4 to 7, a positioning protrusion 23 is provided on the front side wall of the handle 2, a positioning groove 1b that mates with the positioning protrusion 23 is formed on the front side wall of the installation cavity 1a, the positioning groove 1b is located at the upper end of the body 1 and penetrates the top of the body 1 upward, and the positioning groove 1b communicates with the installation cavity 1a, and the handle 2 is locked on the body 1 by the above-mentioned locking assembly. When the handle 2 is installed, the lower end of the handle 2 is inserted into the installation cavity 1a, and the positioning protrusion 23 on the handle 2 is matched in the positioning groove 1b on the machine body 1, so that the handle 2 can be positioned. After the handle 2 is positioned, the locking buckle 151 on the machine body 1 is driven by the locking spring 153 to extend into the locking groove 2a, so that the handle 2 can be locked on the machine body 1. When the handle 2 is detached from the body 1, the release button 152 is pressed downward to drive the locking buckle 151 to retract, and the locking buckle 151 is disengaged from the locking groove 2a, at which time the handle 2 is unlocked. The handle 2 is lifted up until the positioning protrusion 23 on the handle 2 is disengaged from the positioning groove 1b on the body 1, the handle 2 can be separated from the body 1, and the release button 152 can be restored to the original position by releasing the release button 152.

According to some embodiments of the present invention, referring to fig. 4, 12, 18, 19 and 29, the body 1 is formed with a mating surface 11 adapted to mate with the portable cleaning apparatus 3, and the mating surface 11 is formed as an inwardly concave arc surface. Therefore, the size of the whole machine in the horizontal direction can be reduced, the use of the whole machine is more convenient, the portable cleaning device 3 can be reliably contacted with the machine body 1, the whole appearance of the machine body 1 is more attractive, and meanwhile, the disassembly and assembly work of the portable cleaning device 3 can be conveniently realized due to the good guiding effect of the arc surface.

In some embodiments of the present invention, referring to fig. 12-16, the point of attachment of the portable cleaning apparatus 3 to the body 1 is near the top end of the body 1. Therefore, the connection point of the portable cleaning device 3 and the machine body 1 can avoid other parts on the starting body 1, the connection point between the portable cleaning device 3 and the machine body 1 is convenient to set, and meanwhile, the portable cleaning device 3 is convenient to disassemble and assemble.

In some alternative embodiments of the present invention, referring to fig. 1 to 3, when the portable cleaning apparatus 3 is coupled to the body 1, the top surface of the portable cleaning apparatus 3 is exposed to the outside of the body 1. Thereby, the portion of the body 1 located above the portable cleaning apparatus 3 is free from any obstruction, and the portable cleaning apparatus 3 can be lifted directly upward or obliquely upward to separate the portable cleaning apparatus 3 from the body 1 when the portable cleaning apparatus 3 is separated from the body 1.

In some alternative embodiments of the present invention, referring to fig. 1 to 4, 12, 18, 19 and 29, the body 1 is formed with a mating surface 11 adapted to mate with the portable cleaning apparatus 3, the mating surface 11 being located on the rear side of the portable cleaning apparatus 3. Thus, after the portable cleaning apparatus 3 is mounted on the body 1, the rear side of the portable cleaning apparatus 3 is enclosed by the mating surface 11 of the body 1, and the other side of the portable cleaning apparatus 3 is directly exposed to the external environment, thus making the separation operation of the portable cleaning apparatus 3 easier and more convenient.

According to some embodiments of the present invention, referring to fig. 11 and 17, the bottom of the dust barrel assembly 31 has an air inlet 311a, an air inlet pipe 312 is connected to the air inlet 311a, the top of the sewage tank 4 has an air outlet 4a, and the lower end of the air inlet pipe 312 is detachably inserted into the air outlet 4 a. Thereby, the connection of the dust barrel assembly 31 and the sewage tank 4 is facilitated, and the separation of the sewage tank 4 from the portable cleaning apparatus 3 is facilitated, and the limiting effect on the portable cleaning apparatus 3 in the horizontal direction can be achieved.

According to some embodiments of the present invention, referring to fig. 12 to 16, the wet and dry vacuum cleaner 100 includes a latch assembly for latching the portable cleaning apparatus 3 to the body 1, and of course, the portable cleaning apparatus 3 may be unlocked from the body 1 by operating the latch assembly. The latch assembly includes: the first and second locking portions 141 and 3a, the driving button 142 and the driving spring 143 are engaged with each other. The first locking part 141 is telescopically arranged on the machine body 1, the second locking part 3a is arranged on the portable cleaning device 3, the driving button 142 is arranged on the machine body 1 in a vertically movable manner, and the driving button 142 is matched with the first locking part 141 to drive the first locking part 141 to retract so as to separate the first locking part 141 and the second locking part 3a from each other, thereby separating the portable cleaning device 3 from the machine body 1. One end of the driving spring 143 is connected to the body 1 and the other end is connected to the first locking part 141, and the driving spring 143 is adapted to drive the first locking part 141 to protrude so that the first locking part 141 and the second locking part 3a are engaged, thereby locking the portable cleaning apparatus 3 to the body 1.

Thus, when the portable cleaning apparatus 3 is mounted on the body 1, the portable cleaning apparatus 3 presses the first locking part 141 such that the first locking part 141 is retracted into the body 1, and after the portable cleaning apparatus 3 is mounted in place, the first locking part 141 is protruded under the driving of the driving spring 143 and is engaged with the second locking part 3a, thereby locking the portable cleaning apparatus 3 on the body 1. When the portable cleaning apparatus 3 is detached from the body 1, the driving button 142 is pressed such that the driving button 142 moves toward the first locking portion 141 (for example, pressing the driving button 142 such that the driving button 142 moves downward), the driving button 142 pushes the first locking portion 141 to retract into the body 1, the first locking portion 141 is disengaged from the second locking portion 3a, and the portable cleaning apparatus 3 is unlocked from the body 1. At this time, the portable cleaning apparatus 3 may be lifted or pushed substantially along the extending direction of the body 1 to separate the portable cleaning apparatus 3 from the body 1, while the driving button 142 is released, and the driving button 142 returns to the initial position. By arranging the lock catch assembly, the portable cleaning device 3 can be conveniently locked on the machine body 1, and meanwhile, the portable cleaning device 3 is conveniently unlocked.

Alternatively, referring to fig. 13 to 15, the second locking portion 3a may be a protrusion provided on the machine body 1, and when the first locking portion 141 is engaged with the second locking portion 3a, the first locking portion 141 is located above the second locking portion 3a and abuts on an upper surface of the second locking portion 3 a. Alternatively, referring to fig. 16, the second locking portion 3a may be a groove formed in the body 1, and the first locking portion 141 may extend into the second locking portion 3a when the first locking portion 141 is engaged with the second locking portion 3 a.

Alternatively, referring to fig. 15 and 16, the driving button 142 has a first engagement slope 1421, the first latch portion 141 has a second engagement slope 1411 engaged with the first engagement slope 1421, and both the first engagement slope 1421 and the second engagement slope 1411 extend obliquely downward in the protruding direction of the first latch portion 141 (e.g., in the back-to-front direction). Thus, when the driving button 142 is pressed, the driving button 142 has a driving force to the first locking portion 141 in a direction away from the second locking portion 3a (for example, the driving button 142 has a rearward driving force to the first locking portion 141) by the engagement of the first engagement slope 1421 of the driving button 142 and the second engagement slope 1411 of the first locking portion 141, and the first locking portion 141 and the second locking portion 3a can be conveniently driven to be disengaged, so that unlocking of the portable cleaning apparatus 3 can be conveniently achieved.

In some alternative embodiments of the present invention, referring to fig. 12-14, the wet and dry dual purpose vacuum cleaner 100 may further include a positioning structure including: the engaging groove 1c and the engaging protrusion 35 are engaged with each other, and one of the engaging groove 1c and the engaging protrusion 35 is provided on the body 1 and the other is provided on the portable cleaning apparatus 3. For example, when the card slot 1c is provided on the body 1, the card projection 35 is provided on the portable cleaning apparatus 3; when the card slot 1c is provided on the portable cleaning apparatus 3, the card projection 35 is provided on the body 1. Thereby, the portable cleaning apparatus 3 can be positioned on the body 1 conveniently by the engagement of the catching groove 1c and the catching protrusion 35.

Alternatively, the cross section of the clamping groove 1c and the cross section of the clamping protrusion 35 are non-circular, and the cross section of the clamping groove 1c is matched with the cross section of the clamping protrusion 35. Since the cross section of the catching groove 1c and the cross section of the catching protrusion 35 are both non-circular, the portable cleaning device 3 can be prevented from rotating in its circumferential direction.

Further, referring to fig. 12 to 14, a card slot 1c is formed on the body 1 and the top of the card slot 1c is opened, a card protrusion 35 is formed on the portable cleaning apparatus 3, and both the cross section of the card slot 1c and the cross section of the card protrusion 35 are T-shaped. Thus, when the portable cleaning apparatus 3 is mounted on the body 1, the mounting can be performed from top to bottom, and the locking protrusion 35 of the portable cleaning apparatus 3 is inserted into the locking groove 1c downward through the opening at the top of the locking groove 1 c.

In this process, the first locking part 141 is retracted into the body 1 under the pressing of the portable cleaning apparatus 3, and after the portable cleaning apparatus 3 is mounted in place, the first locking part 141 is extended by the driving spring 143 and is engaged with the second locking part 3a, so that the portable cleaning apparatus 3 can be positioned and locked on the body 1 by the combined action of the positioning structure and the locking assembly. When the portable cleaning apparatus 3 is detached from the machine body 1, the driving button 142 is pressed so that the driving button 142 moves toward the first locking portion 141, the driving button 142 pushes the first locking portion 141 to retract into the machine body 1, the first locking portion 141 is disengaged from the second locking portion 3a, the portable cleaning apparatus 3 is unlocked from the machine body 1, the portable cleaning apparatus 3 is lifted upward, the driving button 142 is released, and the driving button 142 returns to the initial position. The lifting of the portable cleaning apparatus 3 is continued until the catching protrusion 35 of the portable cleaning apparatus 3 is completely separated from the catching groove 1c of the body 1, at which time the portable cleaning apparatus 3 is separated from the body 1.

It should be noted that the above connection point between the portable cleaning apparatus 3 and the machine body 1 may include a location point of the above latch assembly on the machine body 1; alternatively, the connection point between the portable cleaning apparatus 3 and the machine body 1 may also include a location point of the latch assembly on the machine body 1 and a location point of the positioning structure on the machine body 1.

According to some embodiments of the present invention, referring to fig. 4 to 16, the handle 2 is detachably provided on the body 1, the handle 2 is locked on the body 1 by the locking assembly, the portable cleaning apparatus 3 is locked on the body 1 by the locking assembly, a connection point between the locking assembly and the portable cleaning apparatus 3 is a first connection point, and a connection point between the locking assembly and the handle 2 is a second connection point. Wherein the first connection point and the second connection point are both located at the upper part of the machine body 1 and are disposed adjacent to each other. Therefore, by arranging the first connection point and the second connection point at the upper part of the machine body 1, the user does not need to bend down to operate when unlocking or locking the portable cleaning device 3 and the handle 2, and the use comfort of the user is improved. In addition, the first connecting point and the second connecting point are arranged adjacent to each other, so that a user can conveniently operate the lock catch assembly and the locking assembly in the same posture state, for example, when the lock catch assembly and the locking assembly are operated, the upper limbs of the human body do not need to move greatly, and the operation comfort level of the wet and dry dual-purpose dust collector 100 is further improved.

In some alternative embodiments of the invention, the latch assembly and the latch assembly are located on opposite sides of the body 1 (e.g., the latch assembly and the latch assembly may be located on the left and right sides of the body 1) and are both located on the side walls of the body 1. Therefore, the position space on the side wall of the machine body 1 can be fully utilized, so that the structural layout of the whole machine is reasonable, and the operation of a user is convenient.

Alternatively, the lock catch assembly and the lock catch assembly are spaced apart from each other in the up-down direction by a distance not exceeding the maximum dimension of the machine body 1 in the horizontal direction. Therefore, the operation of a user is further facilitated, and the user does not need to move the upper limb to a large distance to operate the lock catch assembly and the locking assembly respectively.

Optionally, the horizontal centerline of the latch assembly and the horizontal centerline of the locking assembly are on the same horizontal plane. Therefore, the lock catch assembly and the locking assembly are located at the same height, so that a user can operate the lock catch assembly and the locking assembly more conveniently.

In some alternative embodiments of the present invention, referring to fig. 6, 7, 12 and 13, the latch assembly and the locking assembly are both located at the top end of the body 1. Therefore, the user can find the lock catch assembly and the locking assembly conveniently, and the user can use the lock catch assembly and the locking assembly without bending down. For example, in some embodiments of the present invention, the upper end of the body 1 is formed with an installation cavity 1a with an open top, the lower end of the handle 2 is disposed in the installation cavity 1a, the latch assembly and the locking assembly are both located at the top end of the body 1, and the latch assembly and the locking assembly are located at opposite sides of the installation cavity 1a (for example, the latch assembly and the locking assembly are located at left and right sides of the installation cavity 1 a).

According to some embodiments of the present invention, referring to fig. 18, 19 and 29, the body 1 is formed with a coupling portion 12 adapted to be coupled with the sewage tank 4, and the coupling portion 12 is formed as an inwardly concave arc surface. Therefore, the size of the whole machine in the horizontal direction can be reduced, and the whole machine is more convenient to use. For example, when the sewage tank 4 is detachably provided on the machine body 1 and the above-mentioned mating portion 12 is formed on the machine body 1, the assembling and disassembling work of the sewage tank 4 can be conveniently performed at this time due to the good guiding function of the arc surface.

According to some embodiments of the present invention, referring to fig. 18, 19 and 29, the sewage tank 4 is detachably provided to the body 1, a recess 1d is formed on the body 1, and a lower end of the sewage tank 4 is fitted into the recess 1 d. Thus, the recess 1d of the machine body 1 can support and position the sewage tank 4, thereby conveniently and reliably mounting the sewage tank 4 on the machine body 1 and reducing the height of the whole machine.

Further, referring to fig. 18, 19 and 29, the upper end surface of the recess portion 1d is formed in a stepped shape, the installation notch 4b is formed in the outer peripheral wall of the sewage tank 4, the installation notch 4b penetrates the bottom surface of the sewage tank 4 downward, the lower end surface of the installation notch 4b is formed in a stepped shape to be fitted to the upper end surface of the recess portion 1d, and the upper end surface of the recess portion 1d abuts against the lower end surface of the installation notch 4 b. Thereby, the contact area between the sewage tank 4 and the machine body 1 can be increased, and at the same time, the sewage tank 4 can be prevented from rotating in the horizontal direction.

For example, in the examples of fig. 18, 19 and 29, the upper end face of the recess portion 1d is formed in a stepped shape, the upper end face of the recess portion 1d includes a first end face 11d adjacent to the center of the body 1, a second end face 12d distant from the center of the body 1, the first end face 11d and the second end face 12d each have a semicircular arc shape in extension, the first end face 11d is disposed higher than the second end face 12d, and a first step face 13d extending in the vertical direction is provided between the first end face 11d and the second end face 12 d. The lower end surface of the mounting notch 4b is formed in a stepped shape to be matched with the upper end surface of the concave portion 1d, the lower end surface of the mounting notch 4b comprises a third end surface 41b adjacent to the center of the machine body 1 and a fourth end surface 42b far away from the center of the machine body 1, the extending shapes of the third end surface 41b and the fourth end surface 42b are semicircular, the third end surface 41b is higher than the fourth end surface 42b, and a second step surface 43b extending in the vertical direction is arranged between the third end surface 41b and the fourth end surface 42 b. When the sewage tank 4 is mounted on the machine body 1, the lower end of the sewage tank 4 is accommodated in the concave part 1d, the third end face 41b of the mounting notch 4b is abutted against the first end face 11d of the concave part 1d, and the fourth end face 42b of the mounting notch 4b is abutted against the second end face 12d of the concave part 1d, so that the supporting function of the sewage tank 4 is achieved; the second step surface 43b of the installation recess 4b abuts against the first step surface 13d of the recess 1d, thereby preventing the sewage tank 4 from rotating.

Alternatively, referring to fig. 19, 20 and 29, the bottom of the sewage tank 4 has a first communication port 4c, a second communication port 1e opposite to the first communication port 4c is formed on the bottom wall of the recess 1d, a ring-shaped connection protrusion 13 is formed on the bottom wall of the recess 1d and the connection protrusion 13 is disposed around the second communication port 1e, the connection protrusion 13 is fitted in the first communication port 4c, and the second communication port 1e communicates with the dust suction chamber 81 a. From this, the air current that gets into in the dust absorption chamber 81a flows through second intercommunication mouth 1e and first intercommunication mouth 4c and gets into in the sewage case 4, through set up connecting protrusion 13 on the diapire of depressed part 1d and make this connecting protrusion 13 cooperate in first intercommunication mouth 4c, made things convenient for the intercommunication of sewage case 4 and dust absorption chamber 81a, and made things convenient for the bottom of sewage case 4 to be connected with the cooperation of organism 1, also made things convenient for the dismouting of sewage case 4 simultaneously.

According to some embodiments of the present invention, referring to fig. 4, 11, and 19-25, the sewage tank 4 is detachably connected to the machine body 1, so that cleaning and maintenance of the sewage tank 4 are facilitated, and the sewage tank 4 is locked to the machine body 1 by a locking assembly. For example, when the recess 1d is formed in the body 1, the lower end of the sewage tank 4 may be fitted into the recess 1d of the body 1 when the sewage tank 4 is mounted, the sewage tank 4 may be roughly positioned, and then the sewage tank 4 may be locked to the body 1 by the locking means.

Further, referring to fig. 6, 12 and 21-24, the sewage tank 4 is further provided with a handle 48, the handle 48 is movably provided to the sewage tank 4, the locking assembly locks and unlocks the sewage tank 4 in response to movement of the handle 48, the locking assembly locks the sewage tank 4 to the machine body 1 when the handle 48 is in the locked position, and unlocks the sewage tank 4 to be separated from the machine body 1 when the handle 48 is moved from the locked position to the unlocked position. Thus, when it is desired to mount and lock the sewage tank 4 to the machine body 1, the handle 48 is moved to the locking position, at which time the locking assembly locks the sewage tank 4 to the machine body 1 in response to the movement of the handle 48; when the sewage tank 4 needs to be detached from the machine body 1, the handle 48 is moved to the unlocking position, and at the moment, the locking assembly responds to the movement of the handle 48 to unlock the sewage tank 4 from the machine body 1, so that the sewage tank 4 can be separated from the machine body 1, sewage collected in the sewage tank 4 can be conveniently dumped, and the sewage tank 4 can be conveniently cleaned. By the linkage action of the handle 48 and the locking assembly, the handle 48 only needs to be moved to the corresponding position when the sewage tank 4 is locked and unlocked.

Alternatively, the movement of the handle 48 between the locked and unlocked positions may be rotational, translational, a combination of rotational and translational, or the like.

Alternatively, the handle 48 may be arcuate, curved, etc.

In some alternative embodiments of the present invention, referring to fig. 6, 8, 12, and 21-24, a handle 48 is rotatably connected to an upper portion of the sewage tank 4, the handle 48 is received in the sewage tank 4 when in a horizontal position and the locking assembly locks the sewage tank 4, and the handle 48 is pressed against the locking assembly to unlock the sewage tank 4 after the handle 48 is rotated up to a predetermined angle (e.g., the handle 48 is rotated up to 90 degrees). Thus, by rotatably providing the handle 48 at the upper portion of the sewage tank 4, the movement of the handle 48 is made simple, and the switching of the handle 48 between the locking position and the unlocking position is achieved by rotating the handle 48, so that the locking and unlocking of the sewage tank 4 can be conveniently achieved. When the handle 48 is in the locking position, the handle 48 is in the horizontal position and is accommodated in the sewage tank 4, so that when the sewage tank 4 is mounted and locked on the machine body 1, the handle 48 is in the accommodated state, and the whole machine is compact in structure, and neat and attractive in appearance. After the handle 48 is rotated up to a preset angle, the sewage tank 4 is unlocked and separated from the machine body 1, and the sewage tank 4 can be conveniently removed from the machine body 1 by the handle 48.

Alternatively, referring to fig. 6, 8 and 12, a handle 48 is provided at the top end of the sewage tank 4, and the handle 48 is accommodated at the top of the sewage tank 4 and adjacent to the outer peripheral edge of the sewage tank 4 when in the horizontal position. Therefore, the space at the top of the sewage tank 4 can be fully utilized to store the handle 48, so that the structure of the whole machine is more compact, and interference influence and the like on other parts can be avoided.

For example, in the examples of fig. 6, 8 and 12, the top of the sewage tank 4 is formed with two arc-shaped abutting walls 45, the two arc-shaped abutting walls 45 are located along the periphery of the sewage tank 4 and are disposed radially opposite and spaced apart, each abutting wall 45 extends along the periphery of the sewage tank 4, and two receiving notches 45a are defined between the two abutting walls 45. The two handles 48 are respectively and rotatably arranged in the two receiving notches 45a, and the connection point of each handle 48 and the sewage tank 4 is positioned on the abutting wall 45.

When the sewage tank 4 is required to be mounted on the machine body 1, the handle 48 is rotated to a horizontal position, at this time, the handle 48 is accommodated in the corresponding accommodating notch 45a, at this time, the upper end surface of the handle 48 and the upper end surface of the abutting wall 45 may be located substantially in the same horizontal plane, at this time, the two handles 48 and the two abutting walls 45 may form an annular abutting wall. At the same time, the handle 48 is coupled to the locking assembly, which locks the tank 4 to the housing 1, such that the bottom surface of the portable cleaning apparatus 3 may abut against the annular abutment wall. When the sewage tank 4 needs to be detached from the machine body 1, the handle 48 is rotated upward to a predetermined position (for example, the handle 48 can be rotated to a vertical position), the handle 48 is separated from the accommodating notch 45a, the sewage tank 4 is unlocked and separated from the machine body 1, and the sewage tank 4 can be conveniently removed from the machine body 1 by carrying the handle 48.

In some alternative embodiments of the present invention, referring to fig. 21-24, the locking assembly described above may include: a bolt 46, a locking groove 1g adapted to cooperate with the bolt 46, and a locking spring 47. The latch 46 is horizontally movably provided on the sewage tank 4 (for example, the latch 46 is provided on the sewage tank 4 to be movable back and forth), and the latch groove 1g is formed on the body 1 (for example, the latch groove 1g is formed on the front side wall of the body 1). When the lock tongue 46 is matched in the lock groove 1g, the sewage tank 4 is in a locking state; when the lock tongue 46 is disengaged from the lock groove 1g, the sewage tank 4 is in the unlocked state. One end of the locking spring 47 is connected with the sewage tank 4, the other end of the locking spring is connected with the lock tongue 46, and when the handle 48 rotates to the unlocking position, the handle 48 is matched with the lock tongue 46 to drive the lock tongue 46 to be disengaged from the locking groove 1 g; when the handle 48 is rotated to the locking position, the handle 48 is disengaged from the lock tongue 46 and the lock spring 47 drives the lock tongue 46 to engage with the lock groove 1 g. Therefore, the locking assembly is simple in structure and convenient to operate.

For example, when the sewage tank 4 is detached from the machine body 1 (refer to e2 direction in fig. 25 as the detaching direction of the sewage tank 4), the handle 48 is rotated to the unlock position, and at this time, the handle 48 cooperates with the lock tongue 46 to drive the lock tongue 46 to move away from the lock groove 1g (for example, the handle 48 cooperates with the lock tongue 46 to drive the lock tongue 46 to move forward), so that the lock tongue 46 is disengaged from the lock groove 1g, and at this time, the sewage tank 4 is unlocked, and the sewage tank 4 can be detached from the machine body 1. When the sewage tank 4 is mounted on the machine body 1, the handle 48 is rotated to the locking position, and the locking spring 47 drives the lock tongue 46 to move toward the lock groove 1g (for example, the locking spring 47 drives the lock tongue 46 to move backward), so that the lock tongue 46 protrudes into the lock groove 1g, and the sewage tank 4 is locked on the machine body 1.

Further, referring to fig. 21 to 24, an unlocking protrusion 481 is formed on the handle 48, and the unlocking protrusion 481 may be formed at an end of the handle 48 adjacent to the lock tongue 46, the lock tongue 46 having an engagement slope 461 engaged with the unlocking protrusion 481, the engagement slope 461 extending obliquely downward in the protruding direction (e.g., in the front-to-rear direction) of the lock tongue 46. Thus, when the handle 48 is rotated to the unlock position, the unlock projection 481 on the handle 48 abuts on the engagement slope 461 of the latch 46, and at this time, the handle 48 has a driving force for the latch 46 in a direction away from the lock groove 1g (for example, the handle 48 has a forward driving force for the latch 46), and the handle 48 drives the latch 46 to move in a direction away from the lock groove 1g (for example, the handle 48 drives the latch 46 to move forward), so that the latch 46 is disengaged from the lock groove 1g, whereby the sewage tank 4 can be unlocked. When the handle 48 is rotated to the locking position, the unlocking protrusion 481 on the handle 48 is disengaged from the engagement inclined surface 461 on the latch 46, the driving force of the handle 48 to the latch 46 disappears, and the latch 46 moves toward the lock groove 1g under the driving of the locking spring 47 (for example, the latch 46 moves toward the rear under the driving of the locking spring 47), so that the latch 46 extends into the lock groove 1g, and the sewage tank 4 is locked.

According to some alternative embodiments of the present invention, referring to fig. 6, 8 and 12, the locking assemblies include two and are disposed at intervals in a horizontal direction (e.g., the locking assemblies include two and are disposed at intervals in a left-right direction), and the handles 48 are two and correspond one-to-one to the two locking assemblies, respectively, each of the locking assemblies being interlocked with the corresponding handle 48, i.e., each of the locking assemblies being responsive to movement of the corresponding handle 48. When the sewage tank 4 is locked, both handles 48 are moved to the locking position at the same time; when the sewage tank 4 is unlocked, both handles 48 are moved to the unlocked position at the same time. By arranging two handles 48 and two corresponding locking assemblies, the sewage tank 4 can be locked on the machine body 1 more reliably, and the disassembly and assembly process of the sewage tank 4 is easier and more labor-saving by the two handles 48.

In some alternative embodiments of the present invention, the wet and dry dual purpose vacuum cleaner 100 further comprises: and a connecting member horizontally movably provided to the sewage tank 4, to which the handle 48 is rotatably connected, the handle 48 being switched between a locking position and an unlocking position by horizontal movement of the connecting member. For example, when it is desired to lock the sewage tank 4 to the machine body 1, the handle 48 is rotated to a position suitable for carrying, the sewage tank 4 is mounted to the machine body 1, the connector is moved horizontally to the first position at this time, the handle 48 is moved to the locking position along with the connector while the connector is moved, the locking assembly is responsive to the movement of the handle 48 to lock the sewage tank 4, and the handle 48 can be rotated to the storage position by rotating the handle 48. When the sewage tank 4 needs to be detached from the machine body 1, the connecting piece is horizontally moved to the second position, the handle 48 moves to the unlocking position along with the connecting piece when the connecting piece moves, the locking assembly responds to the movement of the handle 48 to unlock the sewage tank 4, the handle 48 is rotated to a position suitable for carrying, and the sewage tank 4 is removed from the machine body 1. Therefore, the locking and unlocking operations of the sewage tank 4 can be simple, and the use experience of a user is improved.

In some alternative embodiments of the present invention, the wet and dry dual purpose vacuum cleaner 100 further comprises: the connecting piece is arranged on the sewage tank 4 in a vertically movable mode, the handle 48 is rotatably connected to the connecting piece, and the handle 48 is switched between the locking position and the unlocking position through the vertical movement of the connecting piece and the rotation of the handle 48. For example, when the sewage tank 4 needs to be mounted and locked on the machine body 1, the handle 48 is rotated to a position suitable for carrying, the sewage tank 4 is mounted on the machine body 1, the connecting piece is moved to the third position in the vertical direction, the handle 48 moves along with the connecting piece while the connecting piece moves, after the connecting piece moves to the third position, the handle 48 is rotated to enable the handle 48 to rotate to the locking position, and the locking assembly is used for locking the sewage tank 4 in response to the movement of the handle 48. When the sewage tank 4 needs to be detached from the machine body 1, the handle 48 is rotated to enable the handle 48 to leave the locking position, the connecting piece is moved to the fourth position along the up-down direction, the handle 48 moves along with the connecting piece when the connecting piece moves, and after the connecting piece moves to the fourth position, the locking assembly responds to the movement of the handle 48 to unlock the sewage tank 4, and at the moment, the sewage tank 4 can be removed from the machine body 1. Therefore, the operation processes of locking and unlocking the sewage tank 4 can be more diversified, and the use experience of a user is improved.

In some embodiments of the present invention, referring to fig. 11 to 25 (the e1 direction in fig. 11 is the removal direction of the portable cleaning apparatus 3, and the e2 direction in fig. 25 is the removal direction of the sewage tank 4), the portable cleaning apparatus 3 and the sewage tank 4 are both detachably provided on the body 1, and the portable cleaning apparatus 3 may be provided directly above the sewage tank 4. When the sewage tank 4 and the portable cleaning apparatus 3 are mounted on the machine body 1, the sewage tank 4 may be mounted on the machine body 1, and then the portable cleaning apparatus 3 may be mounted on the machine body 1 and engaged with the sewage tank 4. When the sewage tank 4 is detached from the body 1, the portable cleaning apparatus 3 may be detached from the body 1 first, and then the sewage tank 4 may be detached from the body 1.

According to some embodiments of the present invention, referring to fig. 25, 26 and 30, a mounting groove 1f adapted to accommodate the cleaning liquid tank 5 is formed on the body 1, and at least a portion of the cleaning liquid tank 5 is located in the mounting groove 1 f. Therefore, the contact area between the cleaning liquid tank 5 and the machine body 1 can be increased, the cleaning liquid tank 5 can be reliably installed on the machine body 1, and the size of the whole machine in the horizontal direction can be reduced, so that the whole machine can be moved flexibly, and the use is more convenient. For example, it is possible that a part of the cleaning liquid tank 5 is located inside the installation groove 1f and another part is located outside the machine body 1; alternatively, it may be that the entire cleaning liquid tank 5 is located in the mounting groove 1f, and the surface of the cleaning liquid tank 5 away from the center of the body 1 may be flush with the corresponding surface of the body 1.

For example, in some examples of the present invention, referring to fig. 25, 26 and 30, a mounting groove 1f is formed on a rear side wall of the body 1 and opened toward the rear, a cleaning liquid tank 5 is provided at the rear side of the body 1 within the mounting groove 1f, a rear surface of the cleaning liquid tank 5 may protrude rearward beyond the opened mouth, or a rear surface of the cleaning liquid tank 5 may be located within the opened mouth, or a rear surface of the cleaning liquid tank 5 may be flush with an edge of the opened mouth.

Alternatively, referring to fig. 25 to 27, the cleaning liquid tank 5 is detachably provided in the installation groove 1f, a top wall of the installation groove 1f (the top wall of the installation groove 1f refers to an upper side wall of the installation groove 1 f) has a first installation guide surface 11f, an upper end surface of the cleaning liquid tank 5 has a second installation guide surface 51 mated with the first installation guide surface 11f, and both the first installation guide surface 11f and the second installation guide surface 51 extend obliquely downward in a back-to-front direction. Thus, when the cleaning liquid tank 5 is mounted in the mounting groove 1f, the cleaning liquid tank 5 can be quickly mounted in place by the guiding action by the mutual cooperation of the first mounting guide surface 11f and the second mounting guide surface 51, and the effect of saving labor can be achieved.

According to some embodiments of the present invention, referring to fig. 25 to 27, the cleaning solution tank 5 is detachably provided to the machine body 1, and the cleaner includes a locking assembly for locking the cleaning solution tank 5 to the machine body 1, the locking assembly including a locking buckle 161 and a locking groove 5b which are engaged with each other, one of the locking buckle 161 and the locking groove 5b being provided to the machine body 1 and the other being provided to the cleaning solution tank 5. For example, when the lock catch 161 is provided on the machine body 1, the lock groove 5b is provided on the cleaning liquid tank 5; when the lock catch 161 is provided on the cleaning liquid tank 5, the lock groove 5b is provided on the machine body 1. When the locking buckle 161 is matched in the locking groove 5b, the cleaning solution tank 5 is in a locking state, and the cleaning solution tank 5 is locked on the machine body 1; when the locking buckle 161 is disengaged from the locking groove 5b, the cleaning liquid tank 5 is in an unlocked state, and the cleaning liquid tank 5 can be separated from the machine body 1.

Thus, when the cleaning liquid tank 5 needs to be detached from the machine body 1, the locking buckle 161 is disengaged from the locking groove 5b, so that the cleaning liquid tank 5 can be unlocked; when the cleaning liquid tank 5 is required to be mounted on the machine body 1, the locking buckle 161 is fitted into the locking groove 5b, so that the cleaning liquid tank 5 can be locked on the machine body 1. Through the locking component that sets up, can conveniently lock cleaning solution case 5 on organism 1, also make things convenient for the dismouting and the washing of cleaning solution case 5 simultaneously.

Alternatively, referring to fig. 27, a locking buckle 161 is provided on the body 1 to be movable up and down and a locking groove 5b is formed on the cleaning liquid tank 5, and the locking assembly further includes: an unlock button 162 and a lock spring. An unlocking button 162 is movably provided on the machine body 1 back and forth, the unlocking button 162 is adapted to cooperate with the locking buckle 161 to drive the locking buckle 161 to disengage from the locking groove 5b, one end of the locking spring is connected with the machine body 1 and the other end is connected with the locking buckle 161, and the locking spring is adapted to drive the locking buckle 161 to cooperate with the locking groove 5 b. Thus, when the cleaning liquid tank 5 needs to be detached from the machine body 1, the unlocking button 162 is pressed so that the unlocking button 162 pushes the lock catch 161 to move in a direction away from the lock groove 5b, thereby disengaging the lock catch 161 from the lock groove 5b, and thus the cleaning liquid tank 5 can be unlocked. When the cleaning solution tank 5 is required to be mounted on the machine body 1, the locking buckle 161 moves towards the locking groove 5b under the action of the elastic force of the locking spring, so that the locking buckle 161 is matched into the locking groove 5b, the cleaning solution tank 5 can be locked on the machine body 1, and the locking and unlocking operations of the cleaning solution tank 5 are more convenient.

Further, referring to fig. 27, the unlocking button 162 has a first driving inclined surface 1621, the locking buckle 161 has a second driving inclined surface 1611 engaged with the first driving inclined surface 1621, and both the first driving inclined surface 1621 and the second driving inclined surface 1611 extend obliquely toward the front in the extending direction (e.g., in the top-to-bottom direction) of the locking buckle 161. Thus, when the unlocking button 162 is pressed, the unlocking button 162 has a driving force to the locking buckle 161 toward a direction away from the locking groove 5b (for example, the unlocking button 162 has an upward driving force to the locking buckle 161) by the engagement of the first driving inclined surface 1621 of the unlocking button 162 and the second driving inclined surface 1611 of the locking buckle 161, and the locking buckle 161 can be conveniently driven to move in a direction away from the locking groove 5b (for example, the unlocking button 162 drives the locking buckle 161 to move upward), whereby the locking buckle 161 can be disengaged from the locking groove 5 b.

For example, in the example of fig. 25 to 27, a mounting groove 1f is formed on the rear side wall of the body 1, the mounting groove 1f is opened rearward, the cleaning liquid tank 5 is adapted to be accommodated in the mounting groove 1f, and the cleaning liquid tank 5 is locked to the body 1 by the above-described locking assembly. The locking assembly comprises the locking buckle 161, the locking groove 5b, the unlocking button 162 and the locking spring, wherein the locking buckle 161 is arranged on the machine body 1 in a vertically movable manner and is positioned on the top wall of the mounting groove 1f, the locking groove 5b is formed on the upper end surface of the cleaning liquid tank 5, and the unlocking button 162 is arranged on the rear side wall of the machine body 1 in a vertically movable manner and is positioned above the mounting groove 1 f.

When it is necessary to detach the cleaning liquid tank 5 from the machine body 1, the unlocking button 162 is pressed so that the unlocking button 162 moves forward to push the locking buckle 161 to move upward, so that the locking buckle 161 is disengaged from the locking groove 5b, and thus the cleaning liquid tank 5 can be unlocked. After the cleaning liquid tank 5 is detached, the unlock button 162 is reset (for example, the unlock button 162 may be moved backward to the initial position by a return spring). When the cleaning liquid tank 5 needs to be mounted on the machine body 1, the cleaning liquid tank 5 is mounted into the mounting groove 1f, and the upper end surface of the cleaning liquid tank 5 presses the locking buckle 161 upward so that the locking buckle 161 moves upward to avoid the mounting space. After the cleaning liquid tank 5 is installed in place, the locking buckle 161 is opposite to the locking groove 5b, and the locking buckle 161 moves downward to extend into the locking groove 5b under the elastic force of the locking spring, so that the cleaning liquid tank 5 can be locked on the machine body 1,

according to some embodiments of the present invention, referring to fig. 34 to 39, the floor brush 8 includes a brush housing 81, a roller brush 84, and a driving mechanism 86 for driving the roller brush 84 to rotate, a dust suction chamber 81a is defined in the brush housing 81, and a suction port 81b is formed at the bottom of the brush housing 81. The roller brush 84 is rotatably provided in the dust suction chamber 81a with a portion of the roller brush 84 at the suction port 81b, the rotation axis of the roller brush 84 extending in the left-right direction, and the shower head 72 is provided in the brush housing 81 adjacent to the roller brush 84, the shower head 72 being adapted to spray the cleaning liquid toward the roller brush 84. Thus, by forming the suction port 81b at the bottom of the brush housing 81 such that a part of the rotatable roller brush 84 is located at the suction port 81b, it is possible to easily suck solid waste such as dust on a surface to be cleaned into the dust suction chamber 81a through the suction port 81 b. Meanwhile, since the spray head 72 sprays the cleaning liquid onto the rolling brush 84, the rolling brush 84 is in contact with the surface to be cleaned in the rotating process, and the surface to be cleaned is cleaned and nursed by the cleaning liquid thereon, and the sewage formed after the cleaning and nursing of the surface to be cleaned by the cleaning liquid on the rolling brush 84 flows into the dust collection cavity 81a, so that the cleaning and nursing of the surface to be cleaned are more convenient, the cleaning liquid residue on the surface to be cleaned can be reduced or avoided, and the cleaning effect is further improved.

Further, referring to fig. 35, the shower head 72 may spray the cleaning liquid onto the roller brush 84 in a radial direction of the roller brush 84, and the surface to be cleaned may be cleaned and nursed by rolling frictional contact of the roller brush 84 with the surface to be cleaned. Because the spray head 72 is arranged to spray the cleaning liquid toward the roller brush 84 along the radial direction of the roller brush 84, the sewage remained on the surface to be cleaned can be further reduced, the cleaning effect can be improved, and the cleaning liquid sprayed by the spray head 72 can be basically sprayed onto the roller brush 84 and can be uniformly sprayed.

Alternatively, referring to fig. 39, the bottom of the brush housing 81 is provided with a wiper strip 811, the wiper strip 811 extending in a direction coincident with the axial direction of the roller brush 84 (e.g., the wiper strip 811 extends in the left-right direction), the wiper strip 811 being disposed adjacent to the suction port 81b and on the rear side of the suction port 81 b. Thus, when the wet and dry dual-purpose cleaner 100 is in operation, dirt on the surface to be cleaned can be scraped to the suction port 81b by the abutting action of the scraping strip 811 and the surface to be cleaned during the traveling of the wet and dry dual-purpose cleaner 100, thereby improving the cleaning effect.

In some alternative embodiments of the present invention, referring to fig. 38 and 39, a suction pipe 83 communicating with the sewage chamber is provided in the suction chamber 81a, the suction pipe 83 being located at the rear side of the roller brush 84 with a suction port 83a of the suction pipe 83 facing the roller brush 84, an upper side wall of the suction port 83a being abutted with the roller brush 84, and a lower side wall of the suction port 83a being spaced apart from the roller brush 84. Thereby, the air flow can enter the suction pipe 83 through the gap between the lower side wall of the suction port 83a of the suction port 81b and the rolling brush 84, and at the same time, the sewage on the rolling brush 84 can conveniently fall into the suction pipe 83 by the squeezing action of the suction pipe 83 by the abutment of the rolling brush 84 with the upper side wall of the suction port 83 a. The solid waste such as dust in the suction pipe 83 and the sewage falling into the suction pipe 83 are guided into the sewage tank 4 by the air flow through the guiding action of the suction pipe 83.

According to some alternative embodiments of the present invention, referring to fig. 35 and 36, the cleaning liquid supply assembly includes a water pump 71, the water pump 71 may be provided in the brush housing 81, a liquid inlet end of the water pump 71 may be adapted to communicate with the cleaning liquid tank 5, and a liquid outlet end of the water pump 71 may be adapted to communicate with the shower head 72. Thus, by the suction action of the provided water pump 71, the cleaning liquid in the cleaning liquid tank 5 can be made to flow into the shower head 72 quickly, and the cleaning liquid can be sprayed onto the roll brush 84 through the shower head 72.

Further, referring to fig. 35 and 36, in the axial direction of the roller brush 84, the water pump 71 and the driving mechanism 86 are located on both sides of the three-way valve 73, respectively (for example, the roller brush 84 extends in the left-right direction, and the water pump 71 and the driving mechanism 86 are located on both left and right sides of the three-way valve 73, respectively). Therefore, each part in the floor brush 8 is reasonable in layout and compact in structure.

According to some alternative embodiments of the present invention, referring to fig. 35, the spray heads 72 are plural and spaced apart along the axial direction of the roll brush 84 (e.g., the roll brush 84 extends in the left-right direction, and the spray heads 72 are plural and spaced apart in the left-right direction). Thus, the plurality of shower heads 72 can uniformly spray the cleaning liquid onto the roller brush 84, and the cleaning efficiency and the cleaning effect can be improved.

Further, referring to fig. 35 and 36, the cleaning liquid supply assembly may include: the three-way valve 73 and the distributing pipe are both arranged in the brush housing 81, the distributing pipe extends along the axial direction of the rolling brush 84 (for example, the distributing pipe and the rolling brush 84 extend along the left-right direction), a first valve port 73a of the three-way valve 73 is connected with the liquid outlet end of the water pump 71, a second valve port 73b and a third valve port 73c of the three-way valve 73 are connected with the distributing pipe, and a plurality of spray heads 72 are connected with the distributing pipe. Under the suction action of the water pump 71, the cleaning liquid flows into the first valve port 73a of the three-way valve 73 and flows out of the second valve port 73b and the third valve port 73c of the three-way valve 73, and the cleaning liquid flowing out of the second valve port 73b and the third valve port 73c flows into the distribution pipe and is distributed into the plurality of spray heads 72 more uniformly, so that the uniformity of spraying the cleaning liquid to the rolling brush 84 by the plurality of spray heads 72 can be further improved.

Alternatively, referring to fig. 35 and 36, the three-way valve 73 may be provided at the rear side of the rolling brush 84, and the three-way valve 73 is located at the middle of the rolling brush 84 in the axial direction of the rolling brush 84. Thus, the three-way valve 73 can be made to uniformly supply the cleaning liquid into the distribution pipe, and the cleaning liquid is further uniformly distributed into the plurality of nozzles 72 through the distribution pipe, so that the uniformity of spraying the cleaning liquid to the roller brush 84 by the plurality of nozzles 72 can be further improved.

According to some embodiments of the invention, referring to fig. 33, a cleaner includes: and a lighting lamp 88, wherein the lighting lamp 88 is arranged on the front side wall of the floor brush 8. Thereby, the illumination lamp 88 can be made to illuminate toward the front side of the floor brush 8, achieving effective illumination.

Alternatively, referring to fig. 34, the illumination lamps 88 are provided in plurality and at intervals along the axial direction of the floor brush 8 (for example, a plurality of illumination lamps 88 are provided at intervals in the left-right direction). Thus, the plurality of illumination lamps 88 can be uniformly illuminated to the front side of the floor brush 8, and the illumination area can be increased, thereby achieving more effective illumination.

Alternatively, in the axial direction of the roll brush 84, the illumination lamp 88 is provided adjacent to the middle of the brush housing 81. Thereby, the effective illumination range of the illumination lamp 88 can be increased.

According to some embodiments of the present invention, referring to fig. 34 to 38, the floor brush 8 includes: a brush housing 81, a roller brush assembly, a locking mechanism and a drive mechanism 86. The brush housing 81 defines a dust suction chamber 81a therein, and the brush housing 81 has a suction port 81b and a mounting port 81c communicating with the dust suction chamber 81 a. When the cleaner is in operation, solid waste such as dust on a surface to be cleaned can be sucked into the suction chamber 81a through the suction port 81 b. The roller brush assembly includes a roller brush 84 and an end cap 85, the end cap 85 is provided at one axial end of the roller brush 84 (e.g., the end cap 85 is provided at the right end of the roller brush 84), the roller brush 84 is rotatably provided in the dust suction chamber 81a, a driving mechanism 86 may be provided in the brush housing 81, and the driving mechanism 86 is used to drive the roller brush 84 to rotate. When the rolling brush 84 rotates, the rolling brush 84 can be in friction contact with the surface to be cleaned, and the cleaning and nursing effects of the surface to be cleaned can be achieved.

An end cap 85 is provided in the mounting port 81c and detachably connected to the brush housing 81, and the roller brush 84 is adapted to pass through the mounting port 81c when the roller brush assembly is detached. The locking mechanism is disposed between the end cover 85 and the brush housing 81, and when the end cover 85 rotates in a first direction (e.g., the first direction may be clockwise), the end cover 85 is locked with the brush housing 81 by the locking mechanism, and when the end cover 85 rotates in a second direction (e.g., the second direction may be counterclockwise) opposite to the first direction, the end cover 85 is unlocked from the brush housing 81. Thus, when the rolling brush assembly is mounted, the rolling brush assembly can pass through the mounting opening 81c along the axial direction (such as the left-right direction) and extend into the brush housing 81 until the end cover 85 of the rolling brush assembly is positioned at the mounting opening 81c, at this time, the end cover 85 can be rotated along the first direction, and when the end cover 85 is rotated along the first direction to the first set position, the end cover 85 is in locking connection with the brush housing 81 through the locking mechanism. When the roller brush assembly is taken out of the brush housing 81, the end cover 85 can be rotated in the second direction, and when the end cover 85 is rotated in the second direction to the second set position, the end cover 85 and the brush housing 81 are unlocked, and the roller brush assembly is pulled out of the mounting opening 81c in the axial direction. Therefore, the roller brush 84 can be assembled and disassembled simply and the replacement operation is more convenient.

Through set up the mounting port 81c on the brush shell 81 of the floor brush 8 and set up be suitable for with this mounting port 81c complex end cover 85 in the axial one end of round brush 84, when changing round brush 84, can install round brush 84 to brush shell 81 or take out in the brush shell 81 through this mounting port 81c, realize the side-mounting and the taking out of round brush 84 to through the locking mechanism who sets up, when end cover 85 rotates along different directions, can realize the locking connection between end cover 85 and the brush shell 81 or break away from the locking, make the change operation of round brush 84 more convenient.

Alternatively, the rotation direction of the roll brush 84 may be the first direction. Therefore, the rotation direction of the rolling brush 84 is consistent with the rotation direction of the end cover 85 during locking, so that the rolling brush assembly can be locked with the brush housing 81 more when the wet and dry dual-purpose dust collector 100 works, and the rolling brush assembly is prevented from loosening during working.

According to some alternative embodiments of the present invention, referring to fig. 35-37, the roller brush 84 has a drive end 841 (e.g., the left end of the roller brush 84) and a non-drive end (e.g., the right end of the roller brush 84), the drive end 841 being removably engaged with the drive mechanism 86 via a spline 8711, the non-drive end being coupled to the end cap 85. Thus, the driving end 841 of the roller brush 84 is connected with the driving mechanism 86 through the spline 8711, so that the roller brush 84 can be reliably connected with the driving mechanism 86.

For example, in the example of fig. 35 and 36, the driving mechanism 86 may be a motor, and the driving mechanism 86 may be provided at the rear side of the roller brush 84, and the floor brush 8 further includes: a transmission mechanism for transmitting the driving force of the driving mechanism 86 to the roller brush 84 may be provided on one axial side of the roller brush 84 (for example, the transmission mechanism may be provided on the left side of the roller brush 84) and adjacent to the driving end 841 of the roller brush 84. The transmission mechanism may include: the driving end 841 of the rolling brush 84 is detachably connected with the driving end 871 of the rolling brush through a spline 8711. Further, a housing cover 872 for housing the transmission mechanism may be provided in the brush housing 81, so that dirt such as dust can be prevented from entering the transmission mechanism to affect the operation of the floor brush 8.

According to some alternative embodiments of the present invention, referring to fig. 37, the locking mechanism includes a limit groove 85a and a limit block 82 that are engaged with each other, one of the end cover 85 and the brush housing 81 is provided with the limit groove 85a and the other is provided with the limit block 82 engaged with the limit groove 85a. For example, when the end cover 85 is provided with a limit groove 85a, the brush housing 81 is provided with a limit block 82; when the end cover 85 is provided with the limiting block 82, the brush housing 81 is provided with the limiting groove 85a. Thus, the end cover 85 can be locked on the brush housing 81 by the cooperation of the limit groove 85a and the limit block 82; when the limiting block 82 is disengaged from the limiting groove 85a, the end cover 85 is disengaged from the brush housing 81. Wherein, the circumferential one end of the limit groove 85a is opened, when the end cover 85 rotates along the first direction, the limit block 82 is screwed into the limit groove 85a from the open end of the limit groove 85a, and by rotating the end cover 85 along the first direction, the cooperation between the limit block 82 and the limit groove 85a can be conveniently realized. When the end cover 85 rotates in the second direction, the stopper 82 is screwed out from the open end of the limit groove 85a, so that the separation between the stopper 82 and the limit groove 85a can be conveniently realized.

Alternatively, referring to fig. 37, a stopper groove 85a is provided on the end cover 85, and a stopper 82 is provided on the inner peripheral wall of the mounting port 81 c. Thus, by rotating the end cover 85, the stopper 82 in the mounting port 81c can be conveniently engaged with or disengaged from the stopper groove 85a on the end cover 85.

In some embodiments of the present invention, referring to fig. 37, the limit groove 85a has opposite first and second ends in the circumferential direction of the mounting port 81c, the first end of the limit groove 85a being open and the second end of the limit groove 85a being closed. Thus, when the rolling brush assembly is mounted in the brush housing 81, the end cover 85 is rotated in the first direction, the limiting block 82 is screwed into the limiting groove 85a from the first end of the limiting groove 85a, and the second end of the limiting groove 85a is closed, so that the rotation angle of the end cover 85 can be limited, when the limiting block 82 is screwed into the limiting groove 85a to be abutted against the second end of the limiting groove 85a, the end cover 85 cannot continue to rotate, and at the moment, the end cover 85 is indicated to rotate in place, and the rolling brush assembly is locked on the brush housing 81.

Alternatively, referring to fig. 37, in the radial direction of the end cap 85, one end of the limit groove 85a, which is far from the center of the end cap 85, is opened. Thereby, the process of fitting and removing the stopper 82 and the stopper groove 85a is made easier to operate.

Further, referring to fig. 37, a positioning notch 82a is formed on the stopper 82, and a positioning protrusion 851 is formed on the inner sidewall of the stopper groove 85a to be engaged with the positioning notch 82 a. Therefore, after the limiting block 82 is screwed into the limiting groove 85a, the reliable connection and locking between the rolling brush assembly and the brush shell 81 can be further ensured through the matching of the positioning convex blocks 851 in the limiting groove 85a and the positioning notch 82a on the limiting block 82.

Alternatively, referring to fig. 37, the plurality of limit grooves 85a are provided in plurality (for example, three) and at intervals in the circumferential direction of the end cover 85, the plurality of limit grooves 85a may be provided at uniform intervals in the circumferential direction of the end cover 85, and the open ends of each limit groove 85a are located at the same end in the circumferential direction of the limit groove 85 a; the limiting blocks 82 are multiple (for example, three) and are arranged at intervals along the circumferential direction of the mounting opening 81c, the limiting blocks 82 can be arranged at intervals uniformly along the circumferential direction of the mounting opening 81c, and the number of the limiting blocks 82 is the same as that of the limiting grooves 85a and corresponds to one limiting block. Thus, when the end cover 85 is rotated in the first direction during installation of the rolling brush assembly, the plurality of limiting blocks 82 are simultaneously screwed into the corresponding limiting grooves 85 a; when the roller brush assembly needs to be taken out, the end cover 85 is rotated in the second direction, and the plurality of limiting blocks 82 are simultaneously screwed out of the corresponding limiting grooves 85 a. Through the cooperation of a plurality of stopper 82 and a plurality of spacing groove 85a that set up, can further make the round brush subassembly reliably lock on brush shell 81, and can guarantee that round brush 84 atress is comparatively even in circumference direction.

According to some embodiments of the present invention, the roll brush 84 includes a roll brush body and bristles, including hard bristles and nap, provided on the roll brush body. Thus, the cleaning effect can be improved by the combined action of the hard bristles and the fluff. Alternatively, the bristles may be integrally fixed to an adhesive body, which may be adhered to the roll brush body (for example, the adhesive body may be lint with an adhesive layer, and the adhesive body may be coated on the outer circumferential surface of the roll brush body). Alternatively, the bristles may be directly secured to the roll brush body.

The duct structure of the wet and dry dual-purpose vacuum cleaner 100 of the present invention is described below.

Referring to fig. 35 to 44 (the arrow direction in fig. 40 to 42 is the flow direction of the air flow), the duct structure of the wet and dry dual-purpose vacuum cleaner 100 of the present invention includes: a floor brush 8, a sewage recovery assembly and a portable cleaning device 3.

Specifically, referring to fig. 38 and 39, the floor brush 8 defines a suction chamber 81a therein, and the floor brush 8 has a suction port 81b communicating with the suction chamber 81a, and dirt such as dust on a surface to be cleaned can be sucked into the suction chamber 81a through the suction port 81 b. The sewage recovery assembly includes a sewage tank 4 in communication with the dust suction chamber 81a, the sewage tank 4 being provided above the floor brush 8 and for recovering sewage, the sewage tank 4 having an air outlet 4a. The air flow enters the dust collection cavity 81a through the suction inlet 81b and flows upwards into the sewage tank 4, sewage carried in the air flow can be collected in the sewage tank 4, and secondary pollution caused by the fact that the sewage in the air flow is sucked into the power assembly 32 can be avoided.

Referring to fig. 40 to 43, the portable cleaning apparatus 3 is located above the sewage tank 4, the portable cleaning apparatus 3 includes a dust-drum assembly 31 for dust-gas separation and a power assembly 32, the dust-drum assembly 31 for dust-gas separation and recycling solid wastes such as separated dust in the dust-drum assembly 31, the power assembly 32 provides power for the flow of air flow, and the dust-drum assembly 31 has an air inlet 311a communicating with an air outlet 4 a. Under the action of the power assembly 32, air flows continuously upwards through the sewage tank 4 and the dust barrel assembly 31 after entering the dust collection cavity 81a through the suction inlet 81b, the air flows through the sewage tank 4, flows out of the sewage tank 4 through the air outlet 4a and upwards flows, enters the dust barrel assembly 31 through the air inlet 311a to carry out dust-air separation, and solid wastes such as dust separated from the air flow are collected in the dust barrel assembly 31, and relatively clean air flow after dust-air separation through the dust barrel assembly 31 can be discharged to the external environment through the air outlet 321c on the peripheral wall of the power assembly 32.

Alternatively, the dustcup assembly 31 may include the dustcup 311 and a cyclone 313 or a filter provided in the dustcup 311, the cyclone 313 may be a single stage cyclone or a multi-stage cyclone, and the filter may be a hepa filter. Specifically, when the dust barrel assembly 31 includes the dust barrel 311 and the cyclone 313 provided in the dust barrel 311, the cyclone 313 may perform dust-gas separation on the air flow entering the dust barrel 311, and when the cyclone 313 is a single stage cyclone, may perform single stage dust-gas separation on the air flow entering the dust barrel 311; when the cyclone 313 is a multi-stage cyclone, the air flow entering the dust drum 311 can be subjected to multi-stage dust-gas separation, and the dust-gas separation effect can be further improved. When the dust cartridge assembly 31 includes the dust cartridge 311 and a filter provided in the dust cartridge 311, the filter may filter the air flow entering the dust cartridge 311 to separate dust and air, and the filter may be a hepa filter, thereby ensuring a filtering effect of the filter.

According to the air duct structure of the wet and dry dual-purpose dust collector 100, the sewage tank 4 is arranged above the floor brush 8, and the portable cleaning device 3 is arranged above the sewage tank 4, so that when the wet and dry dual-purpose dust collector 100 works, under the action of the power component 32, air flow continuously flows upwards through the sewage tank 4 and the dust barrel component 31 after entering the dust collection cavity 81a from the suction inlet 81b, the flow path of the air flow can be shortened, the loss of the air flow is reduced, and sewage carried in the air flow is collected in the sewage tank 4 in the process of flowing through the sewage tank 4, so that secondary pollution caused by the fact that the sewage carried by the air flow is sucked into the power component 32 can be avoided.

According to some embodiments of the present invention, referring to fig. 40 and 41, the bottom of the dustcup assembly 31 has the air inlet 311a, the top of the sewage tank 4 has the air outlet 4a, and the flow path of the air flow from the sewage tank 4 into the dustcup assembly 31 extends along the center line of the sewage tank 4 or the center line of the dustcup assembly 31, thereby further shortening the flow path of the air flow and further reducing the air flow loss. The center line of the sewage tank 4 refers to the center line of the sewage tank 4 in the vertical direction, and the center line of the dustcup assembly 31 refers to the center line of the dustcup assembly 31 in the vertical direction.

Wherein the flow path of the air flow from the sewage tank 4 into the dustcup assembly 31 extends along the centerline of the sewage tank 4 or the centerline of the dustcup assembly 31, may include the following: 1) When the center line of the sewage tank 4 and the center line of the dust barrel assembly 31 coincide, the flow path of the air flow from the sewage tank 4 into the dust barrel assembly 31 extends along both the center line of the sewage tank 4 and the center line of the dust barrel assembly 31; 2) When the center line of the sewage tank 4 and the center line of the dustcup assembly 31 deviate from each other, a flow path from the sewage tank 4 into the dustcup assembly 31 may extend along the center line of the sewage tank 4; 3) When the center line of the sewage tank 4 and the center line of the dustcup assembly 31 are deviated from each other, a flow path from the sewage tank 4 into the dustcup assembly 31 may extend along the center line of the dustcup assembly 31.

According to some alternative embodiments of the present invention, referring to fig. 40 and 41, the bottom of the dustcup assembly 31 has an air inlet 311a, an air inlet pipe 312 is connected to the air inlet 311a, the air inlet pipe 312 may extend in a vertical direction, the top of the sewage tank 4 has an air outlet 4a, and the air inlet pipe 312 communicates with the air outlet 4 a. Thus, the air flow in the sewage tank 4 flows out through the air outlet 4a at the top of the sewage tank 4 and flows into the dust barrel assembly 31 through the air inlet 311a of the dust barrel assembly 31 in the process of flowing from the sewage tank 4 to the dust barrel assembly 31, so that the air flow can flow along the direction adjacent to the central line of the sewage tank 4 or the dust barrel assembly 31 in the process of flowing from the sewage tank 4 to the dust barrel assembly 31, and the flow loss of the air flow is reduced. In addition, the air inlet pipe 312 is connected to the air inlet 311a, so that the dust barrel assembly 31 and the sewage tank 4 can be conveniently and flexibly connected, and for example, one end of the air inlet pipe 312, which is far away from the air inlet 311a, can be used as the suction inlet of the portable cleaning device 3.

For example, in the examples of fig. 40 and 41, the center line of the dustcup assembly 31 and the center line of the sewage tank 4 both extend in the vertical direction and overlap, the bottom of the dustcup assembly 31 has the air inlet 311a and the center line of the air inlet 311a coincides with the center line of the dustcup assembly 31. The air inlet 311a is connected with an air inlet pipe 312, the air inlet pipe 312 extends along the vertical direction, the top of the sewage tank 4 is provided with an air outlet 4a, the central line of the air outlet 4a coincides with the central line of the sewage tank 4, and the lower end of the air inlet pipe 312 is inserted into the air outlet 4a and communicated with the air outlet 4 a. The top of the sewage tank 4 has an annular abutment wall provided around the air outlet 4a, which is located at the outer peripheral edge of the sewage tank 4, and the outer peripheral edge portion of the bottom surface of the dustcup assembly 31 abuts against the annular abutment wall on the sewage tank 4 when the portable cleaning device 3 is mounted on the body 1 and engaged with the sewage tank 4.

Therefore, the docking structure of the portable cleaning device 3 and the sewage tank 4 is simple, and the portable cleaning device 3 is convenient to assemble and disassemble. And, in the course of the air flow from the sewage tank 4 to the dustcup assembly 31, the air flow vertically flows upward along the center line of the dustcup assembly 31 and the center line of the sewage tank 4, so that the loss of the air flow can be reduced better. In addition, the lower end of the air inlet pipe 312 of the dust barrel assembly 31 is inserted into the air outlet 4a of the sewage tank 4, so that the portable cleaning apparatus 3 can be limited in the circumferential direction.

Further, referring to fig. 40 and 41, the air outlet 4a is connected with an air guide pipe 41, the air guide pipe 41 can extend downwards from the air outlet 4a into the inner cavity of the sewage tank 4, the air guide pipe 41 is connected with the air inlet pipe 312 and is conducted, the lower end of the air inlet pipe 312 can pass through the air outlet 4a and is inserted into the air guide pipe 41, and the connection point of the air guide pipe 41 and the air inlet pipe 312 is located between the dust barrel assembly 31 and the sewage tank 4. Thus, after the sewage carried in the air flow entering the sewage tank 4 is collected in the sewage tank 4 by the air guide duct 41 provided at the air outlet 4a, the air flow can enter the air inlet duct 312 by the guide action of the air guide duct 41, and by locating the connection point of the air guide duct 41 and the air inlet duct 312 between the dust barrel assembly 31 and the sewage tank 4, the air flow can be made to flow from the sewage tank 4 to the dust barrel assembly 31 all the time in the direction substantially adjacent to the centers of the sewage tank 4 and the dust barrel assembly 31, and the loss of the air flow can be reduced.

In some embodiments of the present invention, referring to fig. 40 and 41, at least a portion of the air guide duct 41 is located in the sewage tank 4, for example, it may be that a portion of the air guide duct 41 is located in the sewage tank 4 and another portion extends upward to the outside of the sewage tank 4, or it may be that the entire air guide duct 41 is located in the sewage tank 4 and the upper end of the air guide duct 41 extends to the air outlet 4a. Thereby, the space occupied by the air guide pipe 41 can be reduced, and the air duct structure is compact. The air duct 41 includes a first duct section 411, a second duct section 412 and a third duct section 413 sequentially connected from bottom to top, the third duct section 413 is connected to the air inlet duct 312 and concentrically arranged, the second duct section 412 and the third duct section 413 are angled to each other, and the first duct section 411 and the third duct section 413 are parallel and eccentrically arranged. Thus, by providing the air guide duct 41 with the above-described structure, the inlet end of the air guide duct 41 can be prevented from directly opposing the flow of the sewage carried in the sewage tank 4, and a part of the flow of the sewage carried in the sewage can be prevented from directly flowing upward into the air inlet duct 312 through the air guide duct 41. And, by disposing the third conduit section 413 of the air conduit 41 concentrically with the air inlet pipe 312, the air flow can be made to flow vertically upward into the air inlet pipe 312 directly after the third conduit section 413, further reducing the air flow loss.

Alternatively, referring to fig. 40 and 41, an air intake duct 42 extending in a vertical direction is provided in the sewage tank 4, a lower end of the air intake duct 42 communicates with the dust suction chamber 81a, an upper end of the air intake duct 42 communicates with an inner chamber of the sewage tank 4, the air intake duct 42 and the first duct section 411 are located on opposite sides of a center line of the third duct section 413, and an air intake hole 411a is provided on a side wall of the first duct section 411. The air flow entering the dust collection cavity 81a through the suction inlet 81b flows into the sewage tank 4 through the air inlet pipeline 42, and the sewage carried in the air flow falls into the sewage tank 4 to be collected in the process of flowing into the air inlet hole 411a on the first pipe section 411 from the air flow flowing out of the upper end of the air inlet pipeline 42, enters the air guide pipe 41 through the air inlet hole 411a, flows through the first pipe section 411, the second pipe section 412 and the third pipe section 413 of the air guide pipe 41 in sequence, and then flows into the air inlet pipe 312.

Therefore, by arranging the air inlet pipeline 42 in the sewage tank 4, the air flow in the dust collection cavity 81a can vertically flow upwards along the air inlet pipeline 42 in the process of flowing into the sewage tank 4, and flows out of the upper end of the air inlet pipeline 42 and flows into the sewage tank 4, so that the air flow is limited to flow in the air inlet pipeline 42, the air flow can be diffused, the flow speed of the air flow is increased, and the flow loss of the air flow is reduced. Also, by locating the air intake duct 42 and the first conduit section 411 on opposite sides of the center line of the third conduit section 413, it is possible to avoid the air outlet end of the air intake duct 42 being vertically opposed to or close to the air inlet 411a of the first conduit section 411, and it is possible to further prevent the air flow flowing out of the air intake duct 42 from directly flowing into the first conduit section 411, thereby reducing the sewage collection effect.

Further, referring to fig. 40 and 1, a baffle plate 43 extending in the up-down direction is provided between the air intake duct 42 and the air intake hole 411a, the baffle plate 43 being spaced apart from the air intake duct 42 and the first duct section 411 in the horizontal direction, and the lower end of the baffle plate 43 being spaced apart from the bottom wall of the sewage tank 4. Thus, by providing the flow blocking plate 43 extending in the up-down direction between the air intake duct 42 and the air intake hole 411a, the air flow carrying sewage can be further prevented from entering the air guide duct 41, and the air flow flowing out from the upper end of the air intake duct 42 flows to the flow blocking plate 43 and collides with the flow blocking plate 43 to realize gas-liquid separation in the process of flowing to the air intake hole 411a on the first duct section 411, the sewage in the air flow can flow downwards along the flow blocking plate 43 and falls into the sewage tank 4 under the guiding action of the flow blocking plate 43, and then the air flow bypasses the lower end of the flow blocking plate 43 and flows upwards and enters the air guide duct 41 through the air intake hole 411a in the first duct section 411.

According to other embodiments of the present invention, referring to fig. 42 to 44, the sidewall of the sewage tank 4 has an air outlet 4a, the sidewall of the dustcup assembly 31 has an air inlet 311a, the air inlet 311a and the air outlet 4a are connected through an air inlet pipe 312, and the air inlet pipe 312 is located outside the dustcup assembly 31 and the sewage tank 4. During the process of entering the dust barrel assembly 31 from the sewage tank 4, the air flow mainly flows along the air inlet pipe 312 positioned outside the sewage tank 4 and the dust barrel assembly 31, and the flow path of the air flow entering the dust barrel assembly 31 from the sewage tank 4 is deviated from the center line of the sewage tank 4 and the center line of the dust barrel assembly 31. Therefore, the arrangement of the flow path of the air flow is more flexible, and the arrangement of the air duct structure is more flexible and novel. The center line of the sewage tank 4 refers to the center line of the sewage tank 4 in the vertical direction, and the center line of the dustcup assembly 31 refers to the center line of the dustcup assembly 31 in the vertical direction.

In some alternative embodiments of the present invention, referring to fig. 42 to 44, a connection channel 1k having an L shape is provided in the body 1, the connection channel 1k having a first open end 11k facing the sewage tank 4 and a second open end 12k facing upward, the first open end 11k being opposite to and communicating with the air outlet 4a, and the second open end 12k being connected to the air inlet duct 312. Therefore, by arranging the L-shaped connecting channel 1k on the machine body 1, the air flow flowing out from the air outlet 4a of the sewage tank 4 flows through the L-shaped connecting channel 1k and then enters the air inlet pipe 312, and enters the dust barrel assembly 31 through the air inlet 311a on the dust barrel assembly 31 after passing through the air inlet pipe 312, thereby facilitating the connection between the air inlet pipe 312 and the air outlet 4a on the sewage tank 4 and ensuring that the whole structure is more compact and attractive.

Alternatively, referring to fig. 43 and 44, a first sealing ring 111k is provided between the first open end 11k and the end face of the air outlet 4a, and a second sealing ring 121k is provided between the second open end 12k and the end face of the air inlet duct 312. Thereby, the sealing property of the flow passage of the air flow from the sewage tank 4 to the air inlet duct 312 can be ensured.

In some alternative embodiments of the present invention, referring to fig. 42 to 44, the dust barrel assembly 31 includes a dust barrel 311 and a cyclone 313 provided in the dust barrel 311, an air inlet 311a is formed at a sidewall of the dust barrel 311, an air flow enters the dust barrel 311 through the air inlet 311a, dust and gas separation is performed through the cyclone 313, solid wastes such as separated dust are collected in the dust barrel 311, and clean air flow flows upward and is discharged to the external environment through an air outlet 321c provided at an outer circumferential wall of the power assembly 32.

Optionally, a baffle is disposed in the dust barrel 311 and spaced apart from the air inlet 311a, and at least a portion of the baffle is disposed opposite to the air inlet 311a, or a portion of the baffle is opposite to the air inlet 311a, or the whole baffle is opposite to the air inlet 311 a. Therefore, when the air flow enters the dust barrel 311 through the air inlet 311a on the side wall of the dust barrel 311, at least a part of the baffle is opposite to the air inlet 311a, and the air flow entering through the air inlet 311a collides with the baffle, so that the air flow entering the dust barrel 311 is rotated, and the dust-gas separation effect can be improved.

According to some alternative embodiments of the present invention, referring to fig. 42, an air guide duct 44 is provided in the sewage tank 4, and the air guide duct 44 includes a first duct section 441 and a second duct section 442 sequentially connected from bottom to top, the first duct section 441 extends in a vertical direction, the second duct section 442 extends in a horizontal direction, one end of the second duct section 442 is connected to the first duct section 441, and the other end is butted with the air outlet 4 a. The air flow entering the sewage tank 4 is collected in the sewage tank 4 during the flow to the air guide duct 44, and then enters the first duct section 441 through the air inlet holes 411a of the first duct section 441 during the upward flow and flows along the first duct section 441.

The air flow is then changed in direction of the horizontal direction by the guiding action of the connection portion of the first and second pipe sections 441 and 442, flows into the second pipe section 442 and flows along the second pipe section 442, and finally flows out through the air outlet 4a on the sidewall of the sewage tank 4. Thus, by providing the air guide duct 44 in the sewage tank 4, after sewage carried in the air flow entering the sewage tank 4 is collected in the sewage tank 4, the air flow can enter the air inlet duct 312 through the guiding action of the air guide duct 44, so that the air flow flowing in the vertical direction is conveniently guided to flow in the horizontal direction and flows out from the air outlet 4a on the side wall of the sewage tank 4.

According to some embodiments of the present invention, referring to fig. 38 and 39, the floor brush 8 includes a brush housing 81 and a roller brush 84, a dust suction chamber 81a is defined in the brush housing 81, a suction inlet 81b is formed at the bottom of the brush housing 81, and the suction inlet 81b may be disposed adjacent to the center of the bottom of the brush housing 81, such that the suction inlet 81b is adjacent to the center line of the sewage tank 4, further shortening the flow path of the air flow. The rolling brush 84 is rotatably provided in the dust suction chamber 81a with a part of the rolling brush 84 being located at the suction port 81b, a suction pipe 83 communicating with the inner chamber of the sewage tank 4 is provided in the dust suction chamber 81a, the suction pipe 83 is located at the rear side of the rolling brush 84 with the suction port 83a of the suction pipe 83 facing the rolling brush 84 and the suction port 81b.

Thus, when the cleaner is in operation, the roller brush 84 rotates, the cleaning liquid can be sprayed to the roller brush 84 while the roller brush 84 rotates, the roller brush 84 contacts the surface to be cleaned, the surface to be cleaned can be cleaned and nursed, the dust and other solid garbage on the surface to be cleaned can be sucked into the suction pipe 83 of the floor brush 8 through the suction inlet 81b, the sewage generated on the roller brush 84 can fall into the suction pipe 83, and the sewage flows upward into the sewage tank 4 along with the dust and other solid garbage through the suction pipe 83. By providing the suction pipe 83 in the brush housing 81, the air flow can be concentrated in the suction pipe 83, the air flow loss can be reduced, and at the same time, the suction pipe 83 is provided at the rear side of the rolling brush 84, the length of the suction pipe 83 can be shortened, and the suction pipe 83 is provided near the center line of the sewage tank 4, further the air flow loss can be reduced.

Alternatively, referring to fig. 38 and 39, an upper side wall of the suction port 83a abuts against the rolling brush 84, and a lower side wall of the suction port 83a is spaced apart from the rolling brush 84. Thus, by abutting the upper side wall of the suction port 83a against the roller brush 84, the sewage on the roller brush 84 can be squeezed out and falls downward into the suction pipe 83, and the lower side wall of the suction port 83a is spaced apart from the roller brush 84, so that solid waste such as dust on the surface to be cleaned can flow into the suction pipe 83 through the gap between the suction pipe 83 and the roller brush 84.

Alternatively, referring to fig. 38 and 39, the suction pipe 83 extends obliquely upward in the front-to-rear direction. By this, by disposing the suction pipe 83 obliquely, the air flow entering the suction pipe 83 is caused to flow upward into the sewage tank 4 by the diversion of the suction pipe 83.

According to some embodiments of the invention, a liquid level switch for detecting the liquid level in the sewage tank 4 is arranged in the sewage tank 4, and when the liquid level switch detects that the liquid level in the sewage tank 4 reaches a set value, the wet and dry absorber stops working. Therefore, when the sewage in the sewage tank 4 is excessive, the air flow can be cut off in time, the suction is stopped, and the safety is ensured. Alternatively, the liquid level switch may be a float switch.

The flow path structure of the cleaning supply assembly of the wet and dry dual-purpose vacuum cleaner 100 of the present invention is described below.

According to some embodiments of the invention, referring to fig. 3, 26, 28, 30-33 and 35 (the arrow direction in fig. 31 is the flow direction of the cleaning liquid), the cleaning liquid supply assembly includes: a cleaning liquid tank 5 for storing cleaning liquid, a tray 6 for receiving the cleaning liquid tank 5, and a spray assembly for spraying the cleaning liquid to the floor brush 8 or the surface to be cleaned. The cleaning solution tank 5 is arranged on the machine body 1, the tray 6 is arranged on the machine body 1 and is positioned at the bottom of the cleaning solution tank 5, the tray 6 is internally provided with a containing groove 62a and a liquid flow channel 63b which are communicated with each other, the inner cavity of the cleaning solution tank 5 is communicated with the containing groove 62a, and the spraying assembly is communicated with the liquid flow channel 63 b. Thus, when the cleaning solution tank 5 is mounted on the machine body 1 and connected with the tray 6, the cleaning solution in the cleaning solution tank 5 can flow into the accommodating groove 62a of the tray 6, flow out of the accommodating groove 62a through the liquid flow channel 63b on the accommodating groove 62a, and then flow into the spraying assembly, and the spraying assembly sprays the cleaning solution to the floor brush 8 or the surface to be cleaned, so that the cleaning and nursing of the surface to be cleaned are realized. Therefore, the cleaning liquid supply assembly is simple in structure, and the cleaning liquid flow passage is simple and convenient to maintain. By arranging the tray 6 on the machine body 1 to receive the cleaning liquid tank 5, the distribution of the flow channels of the cleaning liquid on the machine body 1 can be reduced during normal maintenance, so that the maintenance of the whole machine is more convenient.

Alternatively, the tray 6 is detachably provided on the body 1, and the cleaning liquid tank 5 is detachably connected to the tray 6. Thereby, maintenance of the cleaning liquid supply assembly is facilitated.

According to some alternative embodiments of the present invention, referring to fig. 28, 30, 32 and 33, the bottom of the cleaning liquid tank 5 has a water through hole 5a communicating with the inner cavity of the cleaning liquid tank 5, a valve body 53 for closing the water through hole 5a is provided at the water through hole 5a, an ejector 64 is provided on the bottom wall of the receiving groove 62a, and when the cleaning liquid tank 5 is mounted on the tray 6, the ejector 64 pushes at least a portion of the valve body 53 upward to open the water through hole 5a. Thus, by providing the valve body 53 at the water passage hole 5a of the cleaning liquid tank 5, the cleaning liquid tank 5 is conveniently mounted on the tray 6, and leakage of the cleaning liquid in the cleaning liquid tank 5 can be avoided in the process of mounting the cleaning liquid tank 5 to the tray 6. And after the cleaning liquid tank 5 is mounted on the tray 6, at least a part of the valve body 53 is pushed upwards by the ejection member 64 to open the water through hole 5a, so that the cleaning liquid tank 5 is conveniently communicated with the accommodating groove 62a, and at this time, the cleaning liquid in the cleaning liquid tank 5 can flow into the accommodating groove 62a of the tray 6 through the water through hole 5a.

In some embodiments of the present invention, referring to fig. 28, 30, 32 and 33, the cleaning liquid tank 5 is formed with an annular protrusion 52 at the bottom thereof and the annular protrusion 52 is disposed around the circumferential edge of the water passage hole 5a, the annular protrusion 52 is accommodated in the accommodation groove 62a, the valve body 53 includes a valve core 531 and a connection portion 532, the connection portion 532 is annular and an annular groove 532a is formed on the connection portion 532 to be engaged with the annular protrusion 52. The valve body 531 is provided to be vertically movable on the connection portion 532, and a through hole 532b is formed in the connection portion 532, the through hole 532b communicates with the accommodation groove 62a, the valve body 531 is vertically movable through the through hole 532b, and the valve body 531 is adapted to close the water passage hole 5a. When the cleaning liquid tank 5 is mounted on the tray 6, the ejector 64 pushes the valve core 531 upward to open the water passage hole 5a, and at this time the water passage hole 5a communicates with the through hole 532b in the connection portion 532. The cleaning liquid in the cleaning liquid tank 5 flows into the through hole 532b through the water passage hole 5a, flows through the through hole 532b, and flows into the accommodating groove 62 a. Thus, by providing the annular projection 52 at the bottom of the cleaning liquid tank 5, by fitting the annular projection 52 into the annular groove 532a on the valve body 53, the sealing property of the connection of the cleaning liquid tank 5 with the tray 6 can be improved, and the communication of the cleaning liquid tank 5 with the accommodation groove 62a can be facilitated.

Alternatively, referring to fig. 28, a first seal 54 is provided between the lower end surface of the annular projection 52 and the bottom wall of the annular groove 532a, and the first seal 54 may be annular and extend in the circumferential direction of the annular groove 532 a. This can further improve the sealing property of the connection between the cleaning liquid tank 5 and the tray 6.

Alternatively, referring to fig. 28, a second seal member 55 is provided between the outer peripheral surface of the annular projection 52 and the inner peripheral surface of the accommodation groove 62a, and the second seal member 55 may be annular and extend in the circumferential direction of the accommodation groove 62 a. This can further improve the sealing property of the connection between the cleaning liquid tank 5 and the tray 6.

According to some alternative embodiments of the present invention, referring to fig. 31 to 33, a flow passage 63b is formed on a side wall of the receiving groove 62a, a spray assembly is provided in the floor brush 8, the spray assembly is communicated with the flow passage 63b through a communication pipe 66, the communication pipe 66 may penetrate the body 1 and extend into the floor brush 8 to be connected with the spray assembly, and the cleaning liquid flowing into the receiving groove 62a flows into the spray assembly through the flow passage 63b, the communication pipe 66. Thus, by forming the liquid flow passage 63b on the side wall of the accommodation groove 62a, the formation of the liquid flow passage 63b is facilitated, while the connection of the communicating tube 66 with the liquid flow passage 63b is also facilitated. Moreover, the communicating pipe 66 communicates the spray assembly and the flow channel 63b, so that the flow channel of the cleaning liquid can be separated from the machine body 1, thereby avoiding the influence on other components on the machine body 1 (for example, avoiding the influence on the battery module installed on the machine body 1), and simultaneously facilitating the layout of the flow channel of the cleaning liquid in the machine body 1. In addition, through setting up spray assembly in the scrubbing brush 8, conveniently spray the subassembly and spray cleaning solution to scrubbing brush 8 or wait to clean the surface, also make the compact structure of complete machine simultaneously.

For example, in the example of fig. 30 to 33, the lower end of the body 1 is formed with a mounting groove, both upper and rear sides of which are open, the tray 6 has a substantially square structure, and the tray 6 is accommodated in the mounting groove. The front side wall of the mounting groove is formed into an arc surface, and the rear end of the tray is formed into an arc structure which is matched with the shape of the front side wall of the mounting groove, thereby increasing the contact area between the tray 6 and the machine body 1. The tray 6 includes a tray support 61 and a housing tube 62 provided in the tray support 61, the tray support 61 has a substantially square structure, the housing tube 62 defines the housing groove 62a therein, the housing tube 62 has a circular cross section, and a central axis of the housing groove 62a extends in a vertical direction.

The rear side of the tray support 61 is completely opened, the tray support 61 is provided with a connection post 65, the connection post 65 extends toward the rear side of the tray support 61, and a screw hole 65a is formed in the connection post 65. After the tray 6 is mounted in the above-described mounting groove, the fixing of the tray 6 to the body 1 can be achieved by penetrating the screw hole 65a in the connecting column 65 with a screw. An overflow hole 62b is formed in the side wall of the accommodating groove 62a, the overflow hole 62b is disposed adjacent to the bottom wall of the accommodating groove 62a, an overflow pipe 63 is connected to the overflow hole 62b, the overflow pipe 63 defines the liquid flow channel 63b, and the overflow pipe 63 is disposed in a space defined by the tray support 61 and the accommodating cylinder 62. The overflow hole 62b may be formed on a front sidewall of the receiving groove 62a, the overflow duct 63 extends in an L shape with a central axis of the overflow duct 63 in a horizontal plane, and one end of the overflow duct 63 is connected to the overflow hole 62b and the other end extends to the left end of the tray support 61. The rear side wall of the tray holder 61 is formed with an opening 61a at a portion corresponding to the overflow duct 63, and a communication pipe 66 is connected to the other end of the overflow duct 63 through the opening 61 a.

Alternatively, the communication pipe 66 may be a hose. Therefore, the communicating pipe 66 can generate adaptive deformation according to the structures of the machine body 1 and the floor brush 8, so that the distribution of the cleaning liquid flow channels in the machine body 1 and the floor brush 8 is more flexible and convenient.

According to some alternative embodiments of the present invention, referring to fig. 36, the floor brush 8 includes a brush housing 81 and a roller brush 84, a dust suction chamber 81a is defined in the brush housing 81, the roller brush 84 is rotatably provided in the brush housing 81, the spray assembly includes a water pump 71 and a spray head 72, a liquid inlet end of the water pump 71 is communicated with the liquid flow passage 63b, a liquid outlet end of the water pump 71 is communicated with the spray head 72, and the spray head 72 sprays the cleaning liquid toward the roller brush 84 or the surface to be cleaned. When the wet and dry cleaner 100 is operated, the roller brush 84 rolls and the water pump 71 is operated, the water pump 71 sucks the cleaning liquid flowing into the accommodating groove 62a into the nozzle 72, and sprays the cleaning liquid to the roller brush 84 or the surface to be cleaned through the nozzle 72. When the spray head 72 sprays the cleaning liquid toward the rolling brush 84, the rolling brush 84 is in frictional contact with the ground in the rotating process, so that the surface to be cleaned can be cleaned and nursed, and the residual sewage on the surface to be cleaned can be remarkably reduced; when the spray head 72 sprays the cleaning liquid toward the surface to be cleaned, the roller brush 84 is in frictional contact with the floor during rotation, so that the surface to be cleaned can be cleaned and cared for.

Alternatively, referring to fig. 36, the spray heads 72 may be plural and the spray heads 72 may be disposed at intervals along the axial direction of the roll brush 84. Thus, the plurality of shower heads 72 can uniformly spray the cleaning liquid onto the roller brush 84, and the cleaning efficiency and the cleaning effect can be improved.

Further, referring to fig. 36, the spray assembly includes: the three-way valve 73 and the distributing pipe extend along the axial direction of the rolling brush 84, the first valve port 73a of the three-way valve 73 is connected with the liquid outlet end of the water pump 71, the second valve port 73b and the third valve port 73c of the three-way valve 73 are connected with the distributing pipe, and the spray heads 72 are connected with the distributing pipe. Under the suction action of the water pump 71, the cleaning liquid flows into the first port 73a of the three-way valve 73 and flows out of the second port 73b and the third port 73c of the three-way valve 73, and the cleaning liquid flowing out of the second port 73b and the third port 73c flows into the distribution pipe and is distributed into the plurality of spray heads 72 more uniformly through the distribution pipe, so that the uniformity of spraying the cleaning liquid to the rolling brush 84 by the plurality of spray heads 72 can be further improved.

Referring to fig. 45 to 50, the wet and dry dual-purpose vacuum cleaner 100 of the present invention can be powered by a battery module, so that the working range of the wet and dry dual-purpose vacuum cleaner 100 is not limited, and the problem that the conventional ac power driving method is easy to have power line clamping stagnation or power line plug falling is avoided.

Alternatively, the battery module may be one, and the battery module may supply power to the whole machine.

Alternatively, referring to fig. 45 to 50, the battery modules may be plural, and the plural battery modules supply power to different parts of the body 1, respectively. For example, a plurality of battery modules may supply power to the floor brush 8, the portable cleaning apparatus 3, and the like. Each battery module supplying power to the corresponding component may be disposed adjacent to the component, thereby facilitating maintenance of the wet and dry dual-purpose vacuum cleaner 100. The battery module is used for directly supplying power to the wet and dry dual-purpose dust collector 100, so that the working range of the dust collector is not limited, the problem that a power line is blocked or a power line plug falls off easily in a traditional alternating current power supply driving mode is avoided, and the battery module is used for supplying power to different parts on the machine body 1 respectively, so that the wet and dry dual-purpose dust collector 100 is convenient to maintain.

Alternatively, each battery module may be detachably connected to the body 1, or may be fixedly connected to the body 1. When each battery module is charged, each battery module can be taken down from the machine body 1 to be charged, and each battery module can be placed on the machine body 1 to be charged.

According to some embodiments of the present invention, referring to fig. 45 to 50, the plurality of battery modules includes a first battery module 36 and a second battery module 19, the first battery module 36 is provided on the portable cleaning apparatus 3, and the first battery module 36 is used for supplying power to the power assembly 32. Thus, the portable cleaning device 3 can be separated from the machine body 1 for independent use, and the flexibility of using the wet and dry dust collector 100 is enhanced. The second battery module 19 is arranged on the machine body 1, the second battery module 19 is used for supplying power to the ground brush 8, and the second battery module 19 can be arranged adjacent to the ground brush 8, so that the second battery module 19 is convenient to electrically connect with the ground brush 8. For example, the second battery module 19 may supply power to a driving mechanism 86 (e.g., a motor), a water pump 71, etc. within the ground brush 8 for driving the rotation of the roller brush 84. In addition, different components of the wet and dry dual-purpose dust collector 100 adopt different battery modules to supply power, so that energy conservation can be realized, and meanwhile, the single use mode and the combined use mode of the portable cleaning device 3 can be conveniently realized.

According to some alternative embodiments of the present invention, referring to fig. 45-48, the power assembly 32 includes a power mechanism and a housing 321 covered outside the power mechanism, an upper end of the housing 321 defining a first battery mounting cavity 321a adapted to mount the first battery module 36. Therefore, the first battery module 36 is convenient to install, and meanwhile, the first battery module 36 is convenient to be electrically connected with the power mechanism to supply power to the power mechanism. Alternatively, the power mechanism may be an electric motor.

Alternatively, referring to fig. 46, the housing 321 includes a first sub-housing 3211 and a second sub-housing 3212 detachably connected to each other. Thereby, the disassembly and assembly of the first battery module 36 and the maintenance of the power mechanism are facilitated. For example, at the time of charging or replacing the first battery module 36, the first and second sub-housings 3211 and 3212 may be separated from each other, so that the first battery module 36 may be taken out.

Alternatively, referring to fig. 47 and 48, one side of the first battery mounting cavity 321a is opened, and the case 321 includes a body 3213 and a first cover 3214, the first cover 3214 being for opening and closing the opened side of the first battery mounting cavity 321 a. Thereby, the disassembly and assembly of the first battery module 36 and the maintenance of the power mechanism are facilitated. For example, when the first battery module 36 is charged or replaced, the first cover plate 3214 may be opened, so that the first battery module 36 may be taken out.

Further, referring to fig. 47 to 49, the first cover plate 3214 is rotatably coupled to the body 3213, and the opening and closing of the open side of the first battery mounting cavity 321a by the first cover plate 3214 can be conveniently accomplished by the rotation of the first cover plate 3214. The first cover plate 3214 is provided with a first hook 32141, and the body 3213 is provided with a second hook 32131 adapted to cooperate with the first hook 32141. Thus, when the first cover plate 3214 rotates to close the open side of the first battery mounting cavity 321a, the first hooks 32141 on the first cover plate 3214 cooperate with the second hooks 32131 on the body 3213, thereby locking the first cover plate 3214 in the closed position. When the first hooks 32141 on the first cover plate 3214 are disengaged from the second hooks 32131 on the body 3213, the first cover plate 3214 may continue to rotate to the open position, and the open side of the first battery mounting cavity 321a is opened, so that the first battery module 36 may be removed from the first battery mounting cavity 321 a.

In a specific example of the present invention, referring to fig. 47-49, the second hook 32131 is rotatably disposed on the body 3213, a rotation axis of the second hook 32131 is parallel to a rotation axis of the first cover 3214, an elastic member 32132 is connected between the second hook 32131 and the body 3213, and the elastic member 32132 is adapted to drive the second hook 32131 to cooperate with the first hook 32141. Therefore, when the first cover plate 3214 rotates to close the open side of the first battery mounting cavity 321a, the second hooks 32131 on the body 3213 cooperate with the first hooks 32141 on the first cover plate 3214 under the driving of the elastic member 32132, so as to lock the first cover plate 3214 in the closed position. When the first cover plate 3214 needs to be opened, the end, far away from the first hook 32141, of the second hook 32131 is pressed, the second hook 32131 rotates to enable the second hook 32131 to be disengaged from the first hook 32141, so that the first cover plate 3214 can continue to rotate to an open position, the open side of the first battery mounting cavity 321a is opened, and the first battery module 36 can be taken out from the first battery mounting cavity 321 a.

In some alternative embodiments of the present invention, referring to fig. 46, a plurality of heat dissipation holes 321b are formed on a sidewall of the first battery mounting cavity 321a, and the heat dissipation holes 321b communicate the first battery mounting cavity 321a with the external environment. Therefore, the heat generated by the first battery module 36 can be timely dissipated to the external environment through the plurality of heat dissipation holes 321b, so that the service life of the first battery module 36 is prolonged.

According to some alternative embodiments of the present invention, referring to fig. 45 and 50, a second battery mounting chamber 1t adapted to mount the second battery module 19 is defined in the body 1, and the second battery mounting chamber 1t is disposed adjacent to the ground brush 8. Thereby, the length of the power supply line between the second battery module 19 and the floor brush 8 can be shortened, the power supply line is simplified, and the maintenance is convenient. In addition, the gravity center of the whole machine can be lowered.

In some embodiments of the present invention, referring to fig. 45 and 50, a second battery mounting chamber 1t is formed at the lower end of the body 1 below the tray 6, and the second battery mounting chamber 1t is located above the floor brush 8 and is disposed adjacent to the floor brush 8. Therefore, the gravity center of the whole machine can be lowered, the load sense of a user is reduced, and meanwhile, a proper distance is reserved between the second battery module 19 and the surface to be cleaned, so that the second battery module 19 is prevented from colliding with the surface to be cleaned. The second battery mounting chamber 1t is a separate chamber and is separated from the cleaning liquid flow path of the cleaning liquid supply assembly, so as to prevent the cleaning liquid from penetrating into the second battery mounting chamber 1 t.

Alternatively, referring to fig. 45 and 50, one side of the second battery mounting chamber 1t is opened, and the opened side of the second battery mounting chamber 1t is provided with a second cover plate 17 for opening and closing the opened side of the second battery mounting chamber 1 t. Thereby, the disassembly and assembly of the second battery module 19 are facilitated. For example, when the second battery module 19 is charged or replaced, the second cover 17 may be opened so that the second battery module 19 may be taken out.

Alternatively, referring to fig. 50, the wet and dry dual purpose vacuum cleaner 100 includes: and a mounting bracket 18, the second battery module 19 is mounted on the mounting bracket 18, and the mounting bracket 18 is arranged in the second battery mounting cavity 1 t. Therefore, the second battery module 19 is conveniently installed in the second battery installation cavity 1t through the installation bracket 18, and heat dissipation of the second battery module 19 is facilitated.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A wet and dry dual-purpose vacuum cleaner, comprising:

the floor brush comprises a brush shell and a rolling brush assembly, a dust collection cavity is defined in the brush shell, a suction inlet and a mounting port are formed in the brush shell, the suction inlet is communicated with the dust collection cavity, the rolling brush assembly comprises a rolling brush and an end cover, the end cover is arranged at one axial end of the rolling brush, the rolling brush is rotatably arranged in the dust collection cavity, the end cover is arranged in the mounting port and is detachably connected with the brush shell, the rolling brush is suitable for penetrating through the mounting port when the rolling brush assembly is dismounted, the suction inlet is formed at the bottom of the brush shell, a part of the rolling brush is positioned at the suction inlet, a suction pipe communicated with a sewage cavity is arranged in the dust collection cavity, the suction pipe is positioned at the rear side of the rolling brush, the suction inlet of the suction pipe faces the rolling brush, the upper side wall of the suction inlet is abutted against the rolling brush, and the lower side wall of the suction inlet is spaced apart from the rolling brush;

the vertical machine body is rotatably connected with the floor brush;

the cleaning liquid supply assembly comprises a cleaning liquid tank and a spray head, the cleaning liquid tank is arranged on the machine body and is communicated with the spray head, the spray head is suitable for spraying liquid to the ground brush, and the spray head is suitable for spraying the cleaning liquid to the rolling brush along the radial direction of the rolling brush;

The sewage recycling assembly comprises a sewage tank communicated with the dust collection cavity, the sewage tank is arranged on the machine body and used for recycling sewage, and the sewage tank and the cleaning solution tank are positioned on two opposite sides of the machine body;

the portable cleaning device is detachably arranged on the machine body, the portable cleaning device is positioned above the sewage tank and is positioned on the same side of the machine body as the sewage tank, the upper part of the cleaning liquid tank is opposite to the portable cleaning device, the lower part of the cleaning liquid tank is opposite to the sewage tank, the disassembly direction of the portable cleaning device when the portable cleaning device is separated from the machine body is parallel to or forms an acute angle with the extending direction of the machine body, the portable cleaning device comprises a dust barrel component and a power component, and an air inlet of the dust barrel component is communicated with the sewage tank;

when the portable cleaning device is in a combined use mode, the portable cleaning device is connected with the machine body, under the action of the power assembly, air flows sequentially through the dust collection cavity, the sewage tank and the dust barrel assembly from the suction inlet, and the air flows continuously upwards through the sewage tank and the dust barrel assembly after entering the dust collection cavity from the suction inlet;

When the portable cleaning device is in a single use mode, the portable cleaning device is separated from the machine body and is used independently, and under the action of the power assembly, air flow enters the dust barrel assembly from the air inlet to separate dust from air.

2. The dual wet and dry cleaner as claimed in claim 1, wherein the portable cleaning apparatus is provided at an upper portion of the body above the sump.

3. The dual wet and dry cleaner as claimed in claim 1, wherein the connection point of the portable cleaning apparatus to the machine body is near the top end of the machine body.

4. The dual wet and dry cleaner as claimed in claim 1, wherein the top surface of the portable cleaning apparatus is exposed to the outside of the machine body when the portable cleaning apparatus is coupled to the machine body.

5. The dual wet and dry cleaner as claimed in claim 1, wherein the body is formed with a mating surface adapted to mate with the portable cleaning apparatus, the mating surface being formed as an inwardly concave arcuate surface.

6. The dual wet and dry cleaner as claimed in claim 1, wherein the body is formed with a mating surface adapted to mate with the portable cleaning apparatus, the mating surface being located at a rear side of the portable cleaning apparatus.

7. The dual wet and dry cleaner as claimed in any one of claims 1 to 6, comprising a latch assembly for locking the portable cleaning apparatus to the body, the latch assembly comprising:

the first locking part and the second locking part are matched with each other, the first locking part is arranged on the machine body in a telescopic way, and the second locking part is arranged on the portable cleaning device;

the driving button is arranged on the machine body in a vertically movable mode, the driving button is matched with the first locking part to drive the first locking part to retract, and the first locking part and the second locking part are separated from each other to enable the portable cleaning device to be separated from the machine body;

the drive spring, the one end of drive spring with the organism links to each other and the other end with first hasp portion links to each other, drive spring is suitable for the drive first hasp portion stretches out, first hasp portion with the cooperation of second hasp portion, so that portable cleaning device locks on the organism.

8. The dual-purpose wet and dry cleaner as claimed in claim 7, wherein the driving button has a first engagement slope, the first locking part has a second engagement slope engaged with the first engagement slope, and both the first engagement slope and the second engagement slope are inclined downwardly in an extending direction of the first locking part.

9. The dual wet and dry vacuum cleaner of claim 7, comprising a positioning structure comprising: the portable cleaning device comprises a machine body, a portable cleaning device and a clamping groove and a clamping protrusion which are matched with each other, wherein one of the clamping groove and the clamping protrusion is arranged on the machine body, the other is arranged on the portable cleaning device, and the cross section of the clamping groove and the cross section of the clamping protrusion are non-circular.

10. The dual wet and dry cleaner as claimed in claim 9, wherein the card slot is formed on the body with a top of the card slot opened, the card protrusion is formed on the portable cleaning device, and a cross section of the card slot and a cross section of the card protrusion are both T-shaped.