CN112641394B - Inhale and drag all-in-one with suction nozzle floats - Google Patents

Abstract

The invention discloses a suction and mopping integrated machine with a floating suction nozzle, which comprises a vertical support component, a handheld dust collection component, a mop component and an independent power module, wherein the handheld dust collection component is detachably arranged on the vertical support component, the mop component comprises a mop suction nozzle and a plurality of groups of cleaning components, a first independent power receiving part and a second independent power receiving part which can detachably install the independent power module are respectively arranged on the vertical support component and the handheld dust collection component, the independent power module is arranged on the first independent power receiving part and supplies power to the mop component, when the independent power module is arranged on the second independent power receiving part, the power module supplies power to the handheld dust collection component or the suction and mopping integrated machine, and the mop suction nozzle is an up-and-down floating suction nozzle device. The invention can realize the independent design of the dust collection and floor mopping components through the structure, avoid synchronously completing the water spraying and cleaning work of the ground under the condition of soaking the cleaning disc, adaptively adjust the distance between the suction nozzle and the ground and improve the working efficiency.

Description

Inhale and drag all-in-one with suction nozzle floats

Technical Field

The invention relates to a surface cleaning device, in particular to a suction and mopping integrated machine.

Background

In modern intelligence house, inhale and drag the all-in-one and design the mop and form the ring usually, make the mop circulation rotate through drive division, transmission shaft, supplementary spraying parts with the synchronization simultaneously for the mop is in the circulation when cleaning also liquid such as clear water or sanitizer evenly spray to treating the clean surface, makes this kind of electronic mop have clean laborsaving, clean efficient, application range advantage such as wide.

However, the existing suction and mopping integrated machine has the disadvantages that the dust collector is not detachable, the suction nozzle is fixedly arranged on the dust collector body and keeps a certain height with the floor, and the vacuum pump, the dirty collecting box and other parts in the vacuum dust collector are large in size and weight, so that when a user does not suck dust and only needs to mop the floor, the user needs to carry the dust collection assembly which stops working together to mop the floor, which is laborious and inconvenient, or the dust collector assembly can be detached, but after the detachment, one of the electric mop or the vacuum dust collector needs to lack a power supply and cannot work, and meanwhile, along with the abrasion of cloth, the distance between the suction nozzle and the floor is gradually smaller, so that the dust collection effect is poor, dust collection is needed repeatedly, the working efficiency is reduced, and the user is very inconvenient; existing suction and mopping all-in-one machine generally sets up the water jet equipment water spray at dust absorption portion front end simultaneously to promote the clean ability to the stubborn spot that bonds subaerial, however dust collecting equipment is mainly to the cleanness that is used for dry dirt bits, and the structure of front end water spray easily causes the dust excessively wet, weakens cleaning equipment's clean ability.

Disclosure of Invention

The invention provides a suction and mopping integrated machine with a floating suction nozzle, which can realize the independent design of a dust collection and mopping assembly through a structure so as to meet the requirements of a user on different use scenes of a surface cleaning device, can synchronously finish the water spraying cleaning work of the ground under the condition of avoiding soaking a cleaning disc, prevents the negative influence on the synchronous dust collection process, adaptively adjusts the distance between the suction nozzle and the ground, and improves the working efficiency.

The invention is realized by the following technical scheme.

The utility model provides a inhale and drag all-in-one with unsteady suction nozzle, includes vertical bracket component, handheld dust absorption subassembly, mop subassembly and independent power module, vertical bracket component lower extreme is connected to the mop subassembly, handheld dust absorption subassembly demountable installation in on the vertical bracket component, the mop subassembly includes mop suction nozzle and the clean subassembly of a plurality of groups, be provided with respectively on vertical bracket component and the handheld dust absorption subassembly and dismantle the installation the first independent power receiving part and the second independent power receiving part of independent power module, independent power module install in first independent power receiving part do the mop subassembly provides the power, independent power module install do when the second independent power receiving part handheld dust absorption subassembly or inhale and drag the all-in-one and provide the power, handheld dust absorption unit install in during the vertical bracket component, handheld dust absorption subassembly is in the pipeline sealing connection to on the mop suction nozzle, the mop is the suction nozzle device that floats from top to bottom. The vertical support assembly and the handheld dust collection assembly are respectively provided with a power supply mounting position, so that when the handheld dust collection assembly is separated from the mop assembly, the handheld dust collection assembly and the mop assembly can be provided with independent power supply modules to normally work, and a user can carry out electric mopping work without carrying a heavy dust collection assembly only when needing a mopping function; according to the abrasion condition of the mop, the up-and-down floating suction nozzle device can be adjusted in a self-adaptive mode, so that the suction nozzle always keeps a certain height with the ground, and a better dust collection effect is achieved.

As a further improvement of the invention, the vertical support assembly comprises a vertical support, the vertical support is provided with a dust collection assembly receiving part, the handheld dust collection assembly is detachably clamped in the dust collection assembly receiving part, the first independent power supply receiving part is positioned on the vertical support, the lower end of the vertical support is provided with a connecting pipeline, the upper end and the lower end of the connecting pipeline are respectively provided with a connecting pipeline upper connector and a connecting pipeline lower connector, and the connecting pipeline lower connector is hermetically connected with the upper end of the connecting pipeline. When the handheld dust collection assembly is arranged on the dust collection assembly receiving part of the vertical support, the dust collection channel on the handheld dust collection assembly is communicated with the upper interface of the connecting pipeline on the vertical support.

As a further improvement of the present invention, the mop assembly further comprises a mop support, the mop suction nozzle is connected to the bottom of the mop support, the mop suction nozzle comprises a connecting plate provided with a suction nozzle and an elastic assembly arranged between the connecting plate and the mop support, the elastic assembly comprises a first guide piece positioned on the connecting plate, a second guide piece positioned on the mop support, and an elastic piece, the second guide piece is sleeved on the periphery of the first guide piece, the elastic piece is sleeved on the periphery of the second guide piece, one end of the elastic piece abuts against the mop support, and the other end abuts against the connecting plate. Along with the friction of the mop and the ground, the thickness of the mop is gradually reduced, the connecting plate moves upwards under the elastic action of the elastic component, and the height between the suction nozzle on the connecting plate and the ground is kept constant in the whole suction and mopping process, so that a better cleaning effect is achieved.

As a further improvement of the invention, the mop suction nozzle further comprises a limit screw, the limit screw is connected with the end part of the first guide piece, and the elastic piece is a spring. The limit screw is matched with the threaded hole of the first guide piece to limit the connecting plate and prevent the connecting plate from being separated from the body,

as a further improvement of the invention, the mop component further comprises a water tank, the mop support comprises an upper body cover and a lower body cover component, the water tank is arranged above the upper body cover, the upper body cover and the lower body cover component are installed in a matched manner to form an installation cavity, a plurality of groups of cleaning components are arranged on the lower body cover component, each cleaning component comprises a rotary driving component, a rotary water spraying component and a cleaning disc, the rotary water spraying component comprises a rotary tray, the rotary driving component is arranged in the installation cavity, the output end of the rotary driving component is fixedly arranged with the rotary tray outside the installation cavity, the upper end face of the rotary tray is provided with a water guide groove, a plurality of water guide holes are uniformly distributed in the circumferential direction of the water guide groove, the water tank is connected to the water guide groove through a water path in the installation cavity, and the cleaning disc is fixedly arranged at the bottom end of the rotary tray.

As a further improvement of the present invention, the rotating tray is a disc structure, the upper end surface of the rotating tray is sequentially provided with a first annular wall, a second annular wall and a third annular wall from the center of a circle to the outside, the center of the circle is provided with an installation hole, the center of the first annular wall is provided with an output shaft hole, and a water guiding groove is arranged between the second annular wall and the third annular wall.

As a further improvement of the present invention, the lower end surface of the rotating tray is a water guiding rib corresponding to the third annular wall, the outer range of the lower end surface of the rotating tray along the water guiding rib is a cleaning part mounting surface, and the cleaning tray is of an annular structure and is fixedly mounted on the cleaning part mounting surface.

As a further improvement of the invention, the rotary water spraying component further comprises a water spraying nozzle which is fixedly arranged on the lower cover component of the machine body, the upper end of the water spraying nozzle is provided with a water injection port, the lower end of the water spraying nozzle is provided with a water spraying port, the water injection port is connected to the water tank, and the water spraying port is positioned right above the water guiding groove.

As a further improvement of the invention, the lower end surface of the lower shell component of the machine body is an annular secondary step surface with a low outer part and a high inner part, the center of the annular secondary step surface is a through hole, the annular secondary step surface is respectively provided with a first step surface and a second step surface from inside to outside, the first step surface is positioned right above the water guide groove and is provided with a spray nozzle mounting hole, and a water spray nozzle is fixedly arranged on the spray nozzle mounting hole.

As a further improvement of the present invention, when the rotary tray is mounted on the output shaft of the rotary drive assembly, the second annular wall is higher than the first step surface, the third annular wall is lower than the first step surface but higher than the second step surface, and the second annular wall and the third annular wall, the first step surface and the water guide groove together form a water guide cavity.

During the in-service use, water or cleaning solution flow out in its water jet of water spray head, get into the guiding gutter on the rotatory support of rotation state to receive centrifugal force effect, flow from water guide hole department uniformly, receive the effect of water guide bone simultaneously, water or cleaning solution are direct unrestrained to ground, avoid directly soaking annular cleaning dish and make equipment cleaning effect not good.

Compared with the prior art, the invention has the beneficial effects that:

1) The detachable handheld dust collection assembly structure integrated on the vertical support is adopted, and meanwhile, the dust collection assembly and the support are respectively provided with independent power supply installation positions, so that after the handheld dust collection assembly is detached, the electric mop module can provide a working power supply through the power supply on the support, and the use requirements of users on the surface cleaning device in different use scenes can be met;

2) The connecting plate with the suction nozzle is connected with the body through the elastic component and forms an elastic structure, so that the connecting plate can float up and down relative to the body, and the elastic structure can be adjusted in a self-adaptive manner according to the abrasion condition of the mop, so that the suction nozzle always keeps a certain height with the ground, and a better dust collection effect is achieved;

3) The water outlet holes are additionally formed in the circumference of the rotary tray close to the center, so that water or cleaning solution can be uniformly sprayed on the circumference of the middle part of the rotary tray under the action of centrifugal force in the processes of mopping and dust collection, the cleaning capability of equipment is enhanced, and the problem that dust is excessively settled and is difficult to suck when water is sprayed from the front end of a dust collector is avoided; through the water guide cavity formed by the step surface type lower shell structure and the annular wall on the rotating tray, the water guide bone is additionally arranged on the lower end surface of the rotating tray, on one hand, the water or cleaning solution flowing into the water guide groove is prevented from being thrown out of the water guide groove when rotating, on the other hand, the liquid flowing out from the water guide hole is guided by the water guide bone, the dry-wet separation of the mop and the liquid is effectively realized, and the problem that the cleaning effect is poor due to the fact that the water is directly sprayed onto the mop by the existing automatic cleaning equipment and the mop is too wet is solved.

Drawings

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

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an exploded perspective view of the present invention;

FIG. 3 is a schematic perspective view of the present invention in a power mop mode;

FIG. 4 is a perspective view of the vertical bracket assembly of the present invention;

FIG. 5 is a cross-sectional view of the vertical support of the present invention;

FIG. 6 is a partial cross-sectional view of the mop assembly of the present invention;

FIG. 7 is a partial exploded view of the mop assembly of the present invention;

FIG. 8 is an enlarged view of a portion of the invention at A in FIG. 6;

FIG. 9 is an exploded view of the mop assembly of the present invention;

FIG. 10 is a cross-sectional view of another portion of the mop assembly of the present invention;

FIG. 11 is a cross-sectional view of a cleaning assembly of the present invention;

FIG. 12 is an enlarged partial view of FIG. 11 of the present invention;

FIG. 13 is another enlarged partial view of FIG. 11 in accordance with the present invention;

FIG. 14 is a perspective view of the rotating tray of the present invention;

fig. 15 is a bottom view of the rotating tray of the present invention.

Detailed Description

The technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

In the description of the present invention, it should be noted that the drawings are only for convenience of describing the operation principle and the implementation manner of the present invention, and do not indicate or imply that the devices or elements referred to must have specific dimensional values, appearance shapes or be matched with specific dimensional proportions, and therefore, the present invention is not to be understood as being limited thereto.

The present invention will be described in further detail below with reference to specific embodiments and with reference to the attached drawings.

The invention provides a suction and mopping integrated machine with a floating suction nozzle, which mainly comprises a vertical support component 1, a handheld dust collection component 2, a mop component 3 and an independent power module 4, wherein the lower end of the vertical support component 1 is installed with the mop component 3, the handheld dust collection component 2 is detachably installed on the vertical support component 1 and is connected with a dust collection port integrated on the mop component 3 through a communication pipeline, the independent power module 4 is detachably and electrically connected and installed on the handheld dust collection component 2, and the vertical support component 1 is additionally provided with a power module installation position, so that when the handheld dust collection component 2 is separated from the mop component 3, the handheld dust collection component and the mop component can be provided with the independent power module 4 to normally work, and a user can carry out electric mopping work without carrying a heavy dust collection component only when needing mopping functions.

The vertical bracket assembly 1 comprises a vertical bracket 11, the vertical bracket 11 comprises a dust collection assembly receiving part 111 and a first independent power supply receiving part 112, the dust collection assembly receiving part 111 is used for installing and supporting the handheld dust collection assembly 2, in the embodiment, the independent power supply receiving part 112 is positioned at the inner side of the vertical bracket 11, so that the handheld dust collection assembly 2 can be just shielded by the handheld dust collection assembly 2 when the handheld dust collection assembly 2 is installed on the vertical bracket 11, the integral integrity and the aesthetic property of the whole equipment are ensured, and when the handheld dust collection assembly 2 is detached, the independent power supply module 4 can be installed on the first independent power supply receiving part 112 in a coupling mode; a clamping groove 113 is additionally arranged at the upper end of the vertical support 11 and is used for being matched with the handheld dust collection component 2 to be stably installed, so that the handheld dust collection component 2 is prevented from being stably installed and falling off in the using process, and the use experience is prevented from being influenced, a connecting pipeline 114 is arranged at the lower end of the vertical support 11, and the upper end and the lower end of the connecting pipeline are respectively provided with a connecting pipeline upper connector 1141 and a connecting pipeline lower connector 1142 which are respectively used for connecting a negative pressure dust collection channel between the handheld dust collection component 2 and the mop component 3; the vertical bracket assembly 1 further has an operating handle 12 extending upward from the vertical bracket 11, the operating handle 12 is provided with a handle 121 at the end thereof, so that the user can more conveniently operate the mobile suction-mopping machine on the surface to be cleaned, and the handle 121 is further integrated with a first actuator 122, so that the user can conveniently control the working procedure of the equipment by pressing the first actuator 122.

The handheld dust collection assembly 2 comprises a dust collection host and a collection box body, a vacuum pump is arranged in the dust collection host to provide negative pressure for a dust collection process, a spring buckle assembly is arranged on the dust collection host, the spring buckle assembly is in clamping fit with the clamping groove, and the handheld dust collection assembly 2 can be separated from the vertical support 11 by pressing the spring buckle assembly; the dust collection host is further provided with a second actuator and a second independent power supply receiving part 214, the second actuator is coupled to the vacuum pump, so that a dust collection process of starting and stopping equipment can be started and stopped by pressing the second actuator, and the independent power supply module 4 can be coupled and installed on the second independent power supply receiving part 214 to provide power for the whole handheld dust collection assembly 2 or the integrated suction and mopping machine; the collecting box body is detachably clamped on the dust collection host, a release switch is arranged on the collecting box body, and the collecting box body is separated from the dust collection host when the release switch is pressed; the inside vacuum dust absorption passageway that is provided with of dust absorption host computer, inside vacuum dust absorption passageway one end was connected to collection box 2, and the other end can be dismantled seal installation and connect the pipe connection and go up interface 1141.

The mop suction nozzle 34 is a vertically floating suction nozzle device, the mop assembly further comprises a mop support 31, the mop suction nozzle 34 is connected to the bottom of the mop support 31, the mop suction nozzle 34 comprises a connecting plate 21 provided with a suction nozzle 211 and an elastic assembly 22 arranged between the connecting plate 21 and the mop support 31, the elastic assembly 22 comprises a first guide part 221 positioned on the connecting plate 21, a second guide part 222 positioned on the mop support 31 and an elastic part 223, the second guide part 222 is sleeved on the periphery of the first guide part 221, the elastic part 223 is sleeved on the periphery of the second guide part 222, one end of the elastic part 223 is abutted against the mop support 31, and the other end is abutted against the connecting plate 21.

The connecting plate 21 is kept away from mop support 31 one side still is provided with scraper blade 212 and gyro wheel 213, scraper blade 212 is located suction nozzle 211 one side and ground contact, scraper blade 212 can gather subaerial rubbish, and is convenient suction nozzle 211 inhales subaerial rubbish, gyro wheel 213 replaces scraper blade 212 plays right the effect that connecting plate 21 supported, the protection scraper blade 212, extension scraper blade 212's life. Along with the friction between the mop and the ground, the thickness of the mop is gradually reduced, the connecting plate 21 moves upwards under the action of the elastic force of the spring and the supporting force of the roller 213, and the height between the suction nozzle 211 on the connecting plate 21 and the ground is kept constant in the whole suction and mopping process, so that a better cleaning effect is achieved.

The mop suction nozzle 34 further comprises a limit screw 23, the limit screw 23 is connected with the end of the first guide member 221, and the elastic member 223 is a spring. The limit screw 23 is located at one side of the mop support 31 and connected to an end of the first guide 221, that is, the limit screw 23 is engaged with a threaded hole of the first guide 221 to limit the connection plate 21, so as to prevent the connection plate 21 from being detached from the mop support 31, meanwhile, the first guide 221 has a length longer than that of the second guide 222, that is, the end of the first guide 221 can pass through the second guide 222, so as to limit a compression limit of the elastic member 223, and a floating range of the mop suction nozzle 34 is a distance from the limit screw 23 to an end surface of the second guide 222 located at one side of the lower body.

Mop subassembly 3 still includes water tank 35, mop support 31 includes fuselage upper cover 311 and fuselage lower cover subassembly 312, water tank 35 is installed in fuselage upper cover 311 top, fuselage upper cover 311 and fuselage lower cover subassembly 312 cooperation installation and formation installation cavity, and the clean subassembly 33 of a plurality of groups is installed in fuselage lower cover subassembly 312, clean subassembly includes rotary drive subassembly, rotary water spray subassembly 331 and clean dish 332, rotary water spray subassembly 331 includes rotary tray 333, rotary drive subassembly install in inside the installation cavity, and its output and the outside rotary tray 333 fixed mounting who is located the installation cavity, there is the guiding gutter on the rotary tray 333 up end, circumference evenly distributed has a plurality ofly on the guiding gutter, just water tank 35 is through the inside waterway connection of installation cavity to the guiding gutter, clean dish 332 fixed mounting in rotary tray 333 bottom. The installation cavity is internally provided with a gear box, an output shaft of the gear box is fixedly installed with the rotary water spraying component 331, so that the gear box drives the rotary water spraying component 331 to rotate, and further drives the cleaning disc 332 fixedly installed on the rotary water spraying component 331 to rotate, thereby realizing the rotary water spraying function and the cleaning process of the cleaning disc 332.

The rotating tray 333 is a disc structure, and the upper end surface thereof is sequentially provided with a first annular wall 521, a second annular wall 522 and a third annular wall 523 from the center of a circle to the outside, the center of the circle is provided with a mounting hole 525, the center of the first annular wall 521 is provided with an output shaft hole 524, and a water guide groove is arranged between the second annular wall 522 and the third annular wall 523.

The lower end surface of the rotating tray 333 is provided with a water guiding rib 528 corresponding to the third annular wall 523, the outer range of the lower end surface of the rotating tray 333 along the water guiding rib 528 is provided with a cleaning part mounting surface 529, and the cleaning tray 332 is of an annular structure and is fixedly mounted on the cleaning part mounting surface 529.

The rotary water spraying component 331 further comprises a water spraying nozzle 51, the water spraying nozzle 51 is fixedly mounted on the lower cover component 312 of the body, the upper end of the water spraying nozzle is a water injection port 511, the lower end of the water spraying nozzle is a water spraying port 512, the water injection port 511 is connected to the water tank 35, and the water spraying port 512 is located right above the water chute.

During the actual use, water or cleaning solution flow out from its water jet 512 of water spray 51, get into the guiding gutter on rotatory state's rotatory tray 333 to receive the centrifugal force effect, evenly flow from the department, receive the effect of water guide bone 528 simultaneously, water or cleaning solution are direct unrestrained to ground, avoid directly soaking annular cleaning dish 6, make equipment cleaning effect not good.

The gear box is arranged in an installation cavity formed between the upper cover 311 and the lower cover 312, the upper end surface of the lower cover 312 is a gear box installation surface 41, the gear box is fixedly installed on the gear box installation surface 41 through a shock pad 42, and the output shaft 338 end of the gear box extends out of a through hole 43 on the lower cover 312 and is connected with a rotary tray 333 positioned below the lower cover 312; the output shaft is provided with an output shaft mounting hole 336 at the center of the bottom end thereof, the output shaft is mounted in the output shaft hole 336, and the output shaft mounting hole 336 is fixedly connected with the mounting hole 525 through a fixing bolt 337.

The lower end surface of the lower shell component 312 of the machine body is an annular secondary step surface 44 with a low outer part and a high inner part, the center of the annular secondary step surface 44 is a through hole 43, and the through hole is respectively provided with a first step surface 441 and a second step surface 442 from inside to outside, the first step surface 441 is positioned right above the water guide chute and is provided with a spray head mounting hole 45, and the spray head mounting hole 45 is fixedly provided with a water spray nozzle 51.

When the rotating tray 333 is mounted on the output shaft of the rotating driving assembly, the height of the second annular wall 522 is higher than that of the first step surface 441, so as to prevent water or cleaning liquid injected into the water guide channel 526 by the water spraying nozzle 51 from flowing into other parts during high-speed rotation and affecting the sprinkling efficiency, the height of the third annular wall 523 is lower than that of the first step surface 441 but higher than that of the second step surface 442, and the second annular wall 522 and the third annular wall 523 form a water guide cavity together with the first step surface 441 and the water guide channel, thereby preventing the water or cleaning liquid in the water guide channel from flowing out of the parts other than the water guide hole 527.

In actual operation, the water tank 35 is installed above the upper cover 311 of the body and is connected with the water injection port 511 of the water spray nozzle 51 fixedly installed on the lower cover 312 of the body through the upper cover 311 of the body; the gear box drives the output shaft of the gear box to rotate, and drives the rotating tray 333 and the cleaning disc 332 fixedly arranged on the rotating tray 333 to synchronously rotate at high speed through the output shaft; in the cleaning process, water or cleaning fluid is sprayed to the water chute from the water spray port 512, and flows out uniformly under the action of centrifugal force from the water chute, so that the sprinkling process is completed under the condition of avoiding soaking the cleaning disc 332, a large amount of water or cleaning fluid required by soaking the cleaning disc 332 is avoided, and the cleaning effect of dust collection caused by excessively wet ground is also avoided under the condition of synchronously carrying out dragging and sweeping and dust collection.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions deviate from the technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a inhale and drag all-in-one with unsteady suction nozzle which characterized in that: the mopping device comprises a vertical support component, a handheld dust collection component, a mopping component and an independent power module, wherein the lower end of the vertical support component is connected to the mopping component, the handheld dust collection component is detachably mounted on the vertical support component, the mopping component comprises a mopping suction nozzle and a plurality of groups of cleaning components, a first independent power receiving part and a second independent power receiving part which can detachably mount the independent power module are respectively arranged on the vertical support component and the handheld dust collection component, the independent power module is mounted on the first independent power receiving part and supplies power to the mopping component, the independent power module supplies power to the handheld dust collection component or the mopping integrated machine when mounted on the second independent power receiving part, when the handheld dust collection component is mounted on the vertical support component, the handheld dust collection component is hermetically connected to the mopping suction nozzle through a pipeline, and the mopping suction nozzle is an up-and-down floating device suction nozzle; the mop component further comprises a mop support, the mop suction nozzle is connected to the bottom of the mop support, the mop suction nozzle comprises a connecting plate provided with a suction nozzle and an elastic component arranged between the connecting plate and the mop support, the elastic component comprises a first guide piece positioned on the connecting plate, a second guide piece positioned on the mop support and an elastic piece, the second guide piece is sleeved on the periphery of the first guide piece, the elastic piece is sleeved on the periphery of the second guide piece, one end of the elastic piece is abutted to the mop support, the other end of the elastic piece is abutted to the connecting plate, the mop suction nozzle further comprises a limit screw, the limit screw is connected with the end of the first guide piece, the elastic piece is a spring, and the floating range of the mop suction nozzle is equal to the distance between the limit screw and the second guide piece and one side end face of the lower machine body.

2. The integrated suction and mopping machine with a floating suction nozzle of claim 1, wherein: the vertical support assembly comprises a vertical support, a dust collection assembly receiving part is arranged on the vertical support, a handheld dust collection assembly can be disassembled and clamped in the dust collection assembly receiving part, a first independent power source receiving part is located on the vertical support, the lower end of the vertical support is a connecting pipeline, and an upper connector of the connecting pipeline and a lower connector of the connecting pipeline are respectively arranged at the upper end and the lower end of the connecting pipeline.

3. A suction and mopping integrated machine with a floating suction nozzle according to claim 1 or 2, wherein: the mop component further comprises a water tank, the mop support comprises an upper body cover and a lower body cover component, the water tank is installed above the upper body cover, the upper body cover and the lower body cover component are installed in a matched mode to form an installation cavity, a plurality of groups of cleaning components are installed on the lower body cover component, each cleaning component comprises a rotary driving component, a rotary water spraying component and a cleaning disc, each rotary water spraying component comprises a rotary tray, each rotary driving component is installed inside the installation cavity, the output end of each rotary tray is fixedly installed with the rotary tray located outside the installation cavity, a water guide groove is formed in the upper end face of each rotary tray, a plurality of water guide holes are evenly distributed in the circumferential direction of each water guide groove, the water tank is connected to the water guide groove through an inner water channel of the installation cavity, and the cleaning discs are fixedly installed at the bottom end of each rotary tray.

4. A suction and mopping integrated machine with a floating suction nozzle as claimed in claim 3, wherein: the rotary tray is of a disc structure, a first annular wall, a second annular wall and a third annular wall are sequentially arranged on the upper end face of the rotary tray from the center of a circle to the outside, a mounting hole is formed in the center of the circle, the center of the first annular wall is an output shaft hole, and a water guide groove is formed between the second annular wall and the third annular wall.

5. The integrated suction and mopping machine with the floating suction nozzle as claimed in claim 4, wherein: the lower end face of the rotating tray is provided with a water guide rib corresponding to the third annular wall, the outer range of the lower end face of the rotating tray along the water guide rib is provided with a cleaning part mounting surface, and the cleaning tray is of an annular structure and is fixedly mounted on the cleaning part mounting surface.

6. The integrated suction and mopping machine with the floating suction nozzle according to claim 5, wherein the rotary water spraying assembly further comprises a water spraying nozzle, the water spraying nozzle is fixedly installed on the lower cover assembly of the machine body, the upper end of the water spraying nozzle is a water injection port, the lower end of the water spraying nozzle is a water spraying port, the water injection port is connected to the water tank, and the water spraying port is located right above the water guiding groove.

7. The integrated suction and mopping machine with the floating suction nozzle according to claim 6, wherein the lower end surface of the lower shell assembly of the machine body is an annular secondary step surface with a low outer part and a high inner part, the center of the annular secondary step surface is provided with a through hole, the annular secondary step surface is respectively provided with a first step surface and a second step surface from inside to outside, the first step surface is positioned right above the water guiding groove and provided with a nozzle mounting hole, and a water spraying nozzle is fixedly mounted on the nozzle mounting hole.

8. The integrated suction and mopping machine with the floating suction nozzle as claimed in claim 7, wherein when the rotating tray is mounted on the output shaft of the rotating driving assembly, the second annular wall is higher than the first step surface, the third annular wall is lower than the first step surface but higher than the second step surface, and the second annular wall and the third annular wall form a water guiding cavity together with the first step surface and the water guiding groove.

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