Inhale and drag all-in-one
Technical Field
The invention relates to a surface cleaning device, in particular to a suction and mopping integrated machine.
Background
In modern intelligent homes, non-contact surface cleaning devices such as vacuum cleaners form negative pressure vacuum through motors to achieve a cleaning effect, are often suitable for dust and dirt on dry ground, and are gradually replaced by contact surface cleaning devices such as electric mops and the like due to limited application scenes and narrow cleaning effects; when the mop is applied to cleaning bare floor surfaces (such as tile floors, linoleum floors, vinyl floors, laminated floors and hardwood floors), the electric mop in the prior art designs the mop cloth into a ring shape, circularly rotates the mop cloth through the driving part and the transmission shaft, and simultaneously assists to synchronously spray the parts, so that the mop cloth is circularly cleaned and simultaneously and liquid such as clear water or cleaning agent is uniformly sprayed to the surface to be cleaned, and the electric mop has the advantages of cleanness, labor saving, high cleaning efficiency, wide application range and the like.
In order to optimize the defects of poor dirt collecting effect and the like of the electric mop, an integrated sucking and mopping machine is available on the market at present, and a dust suction device is integrated on the electric mop, so that dirt such as dust can be sucked while the electric mop is used for wiping the floor, the synchronous sucking and mopping is realized, and the surface cleaning is more convenient, quicker and more effective.
The existing integrated sucking and mopping machine is modified by taking an electric mop as a mother board, and a dust collection device is integrated and fixed on the electric mop, so that the design has the advantages of low cost, simple design and the like, but because the dust collector is not detachable, and components such as a vacuum pump, a dirty collection box and the like in the vacuum dust collector are large in size and weight, when a user does not suck dust and only mops the floor, the user needs to carry the dust collection component which stops working together to mop the floor, which is laborious and inconvenient; or the vacuum cleaner assembly can be detached, but after the detachment, one of the electric mop or the vacuum cleaner can not work due to the lack of a power supply, so that the application flexibility of the equipment is greatly reduced.
In addition, because its needs of dust absorption mouth realize with wait to clean the surperficial large tracts of land contact and form certain sealed environment so that more efficient suction, so the dust absorption mouth adopts the bar structure increase area of contact of broad usually, and make it hug closely with ground and improve dust absorption efficiency, when only need drag the ground like this, the inevitable ground that has increased unnecessary resistance of dragging, influence user's use and experience, and the dust absorption mouth is as dirty entrance such as dirt bits, the dirt accumulation on the dust absorption mouth can certainly be caused, fixed mounting's structure also makes its cleanness inconvenient.
The chinese patent document with application number CN201710361359.5 proposes a sweeping, sucking and mopping integrated machine, which comprises a chassis with traveling wheels, wherein a sweeping mechanism, a dust collecting mechanism and a mopping mechanism are sequentially arranged on the chassis from front to back; the sweeping mechanism comprises a dustpan, two sweeping arms and a steering component for driving the sweeping arms to steer, the two sweeping arms are symmetrically and movably arranged at the front part of the lower disc surface of the chassis, and the dustpan is arranged on the chassis behind the two sweeping arms; the mopping mechanism comprises a water spraying mechanism and a water absorbing mechanism; the water sprinkling mechanism comprises a water tank, a booster pump and a sprinkler, the water tank is arranged on the booster pump, the sprinkler is connected with the booster pump, and the sprinkler is arranged on a base plate behind the dust collection head; the water absorption mechanism comprises a closed transmission sponge blanket, the lower end of the sponge blanket is positioned behind the sprinkler and can be in pressing contact with the ground; the sweeping, sucking and mopping integrated machine has the advantages of compact structure, light volume, convenience in use, high cleaning efficiency and the like; but this technique does not solve the problem of non-removable suction cleaners.
Therefore, there is a need for a suction and mopping integrated machine with detachable and separable suction/mopping components, which can still work independently after separation, and which can eliminate the useless resistance influence of the dust suction nozzle on mopping work when the user does not need to perform dust suction work, so as to solve the existing technical problems.
Disclosure of Invention
The invention provides a suction and mopping integrated machine 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.
The invention is realized by the following technical scheme.
An integrated sucking and mopping machine comprises a vertical bracket component, a handheld dust sucking component, a mopping component and an independent power module, the lower end of the vertical bracket component is connected to the mop component, the handheld dust collection component is detachably arranged on the vertical bracket component, the mop component comprises a mop suction nozzle and a plurality of groups of cleaning components, the vertical support component and the handheld dust collection component are respectively provided with a first independent power supply receiving part and a second independent power supply receiving part which can be detachably mounted with the independent power supply module, the independent power supply module is arranged on the first independent power supply receiving part to supply power to the mop component, the independent power supply module is arranged on the second independent power supply receiving part and provides power supply for the handheld dust collection assembly or the suction and mopping integrated machine, when the handheld dust collection assembly is installed on the vertical support assembly, the handheld dust collection assembly is connected to the mop suction nozzle through a pipeline in a sealing mode.
In the above embodiment, preferably, the mop assembly further includes a mop support, the mop suction nozzle is detachably connected below the mop support, and the mop suction nozzle is of a T-shaped structure and includes a transverse dust suction port at the front end and a longitudinal dust suction pipe at the rear end.
Above-mentioned embodiment, it is preferred that the mop support is including being located the suction nozzle mounting groove of its front end below and being located the articulated passageway installation position of rear end below, evenly be provided with the public head of a plurality of erection columns in the suction nozzle mounting groove, it has the spring to surround fixed mounting on the public head of erection column.
In the above embodiment, preferably, the mop assembly further includes a mop support and a rotary joint, the plurality of groups of cleaning assemblies are mounted below the mop support, the mop suction nozzle is mounted below the mop support, the rotary joint includes a connecting pipe at the middle part, the connecting pipe is hinged on the mop support through hinge rods symmetrically arranged on the side surface, and the lower end of the connecting pipe is hermetically connected with the longitudinal dust collection pipeline through a flexible pipeline.
Above-mentioned embodiment, it is preferred that mop suction nozzle casing overall dimension and suction nozzle mounting groove cooperation, casing below are the suction chamber, the suction chamber bottom pastes tightly treats clean surface, and its top central authorities are the groove for the installation, and mop suction nozzle casing top corresponds with the public head of erection column and is provided with the female seat of a plurality of erection columns, when the public head of erection column was installed in the female seat of erection column, the just embedding suction nozzle mounting groove of detachable suction nozzle just and vertical dust absorption pipeline's one end seal installation was in the inslot for the installation.
In the above embodiment, it is preferable that the mop suction nozzle further includes a flexible sealing strip and a moving roller, the flexible sealing strip is fixedly installed behind the suction cavity, and when the flexible sealing strip is in an undeformed state, the position of the suction cavity is slightly higher than the bottom end of the flexible sealing strip, and the moving roller is rotatably installed in the center of the front end of the suction cavity and contacts with the surface to be cleaned.
In the above embodiment, it is preferable that the cleaning assembly includes a gear box as a driving part, and a rotating tray and a cleaning tray as a cleaning part, and the cleaning tray is fixedly installed below the rotating tray.
Above-mentioned embodiment, it is preferred that vertical bracket component includes vertical support, be provided with dust absorption subassembly receiving part on the vertical support, handheld dust absorption subassembly can dismantle clamp in dust absorption subassembly receiving part, first independent power source receiving part is located vertical support, vertical support lower extreme is the connecting tube, both ends are connecting tube upper interface and connecting tube lower interface respectively about the connecting tube, connecting tube lower interface and connecting tube upper end sealing connection.
Above-mentioned embodiment, it is preferred that vertical bracket assembly still includes operating handle, operating handle is located vertical bracket upper end extending direction, and its top is the handle, be provided with the first actuator that is coupled in cleaning element drive division on the handle.
Above-mentioned embodiment, it is preferred that handheld dust absorption subassembly includes dust absorption host computer and collection box, the dust absorption host computer embeds has the vacuum pump, collect the box can dismantle the joint in on the dust absorption host computer.
In the above embodiment, preferably, the lower end of the main dust collection unit is provided with a vacuum dust collection channel, when the collection box body is installed on the main dust collection unit, the upper end of the vacuum dust collection channel is hermetically connected to the inside of the collection box body, and when the handheld dust collection assembly is installed on the dust collection assembly receiving part, the lower end of the vacuum dust collection channel is hermetically connected to the upper interface of the connecting pipe.
In the above embodiment, it is preferable that the dust suction main body is externally provided with a second actuator coupled to the vacuum pump.
In the above embodiment, preferably, a plurality of guide wheels are respectively arranged below the front end and the rear end of the mop support.
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 under different use scenes are met; on the other hand, through the multi-section sealing design of the dust suction pipeline, when the dust suction assembly is installed on the support, the dust suction passage can be simply connected in a sealing manner, so that the dust suction assembly is more excellent in usability;
(2) furthermore, the dust suction nozzle can be detached, so that when a user independently mops the floor, the dust suction nozzle can be simply detached from the structure of the floor mop, the influence of redundant resistance caused by the dust suction nozzle on the independent mopping work is avoided, and when the dust suction nozzle serving as a dust suction inlet needs to be cleaned, the detachment and cleaning are more convenient;
(3) the suction nozzle can be simply installed in the suction nozzle installation groove on the mop support in a simple installation column inserting mode by a user, the whole dust collection channel is sealed, a spring is arranged between the detachable suction nozzle and the installation part of the mop support, so that the suction nozzle can be better attached to different surfaces to be cleaned through moving within a certain longitudinal range, and the suction nozzle is matched with a sealing strip which is arranged behind the suction cavity, so that the cleaning efficiency is higher when the suction nozzle performs dust collection;
drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art 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 electric mop of the present invention;
FIG. 4 is a cross-sectional view of the present invention;
FIG. 5 is a perspective view of the vertical bracket assembly;
FIG. 6 is a cross-sectional view of the vertical stand;
FIG. 7 is a perspective view of the hand held cleaner assembly;
FIG. 8 is a partial cross-sectional view of the hand held suction assembly;
FIG. 9 is a perspective view of the mop assembly;
FIG. 10 is a cross-sectional view of the mop assembly;
FIG. 11 is a perspective view of a rotary joint;
FIGS. 12-13 are perspective views of the suction nozzle of the mop;
FIG. 14 is a perspective view of the mop frame;
fig. 15 is an exploded view of the mop holder and the mop nozzle.
In the figure: 1. a vertical bracket assembly; 11. a vertical support; 111. a dust collection assembly receiving part; 112. a first independent power receiving section; 113. a clamping groove; 114. connecting a pipeline; 1141. connecting an upper connector of the pipeline; 1142. connecting a lower pipeline interface; 12. an operating handle; 121. a handle; 122. a first actuator; 2. a handheld dust extraction assembly; 21. a dust collection host; 211. a vacuum pump; 212. a spring clip assembly; 213. a second actuator; 214. a second independent power receiving part; 215. a vacuum cleaning channel; 22. a collection box body; 221. a disconnect switch; 3. a mop assembly; 31. a mop support; 311. a guide wheel; 312. a suction nozzle mounting groove; 313. mounting a male head of the column; 3131. a spring; 32. a rotary joint; 321. a connecting pipe; 322. a hinged lever; 33. a cleaning assembly; 331. a gear case; 332. rotating the tray; 3321. mounting a post female seat; 3322. a suction lumen; 3323. a mounting groove; 3324. a flexible sealing strip; 3325. a moving roller; 333. cleaning the disc; 34. a mop suction nozzle; 341. a transverse dust suction port; 342. a longitudinal dust collection duct; 4. and an independent power supply module.
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.
As shown in fig. 1 to 4, the invention provides a suction and mopping integrated machine, which mainly comprises a vertical support assembly 1, a handheld dust collection assembly 2, a mop assembly 3 and an independent power module 4, wherein the lower end of the vertical support assembly 1 is installed with the mop assembly 3, the handheld dust collection assembly 2 is detachably installed on the vertical support assembly 1 and is connected with a dust collection port integrated on the mop assembly 3 through a communication pipeline, the independent power module 4 is detachably and electrically connected and installed on the handheld dust collection assembly 2, and the vertical support assembly 1 is additionally provided with a power module installation position, so that when the handheld dust collection assembly 2 is separated from the mop assembly 3, the handheld dust collection assembly and the mop assembly 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 assembly only when needing mopping functions.
The specific embodiment is as follows:
as shown in fig. 4 to 6, the vertical stand assembly 1 includes a vertical stand 11, the vertical stand 11 includes a dust-collecting component receiving portion 111 and a first independent power source receiving portion 112, the dust-collecting component receiving portion 111 is used for mounting and supporting the handheld dust-collecting component 2, in this embodiment, the independent power source receiving portion 112 is located inside the vertical stand 11, so that the handheld dust-collecting component 2 can be shielded by the handheld dust-collecting component 2 when mounted on the vertical stand 11, so as to ensure the integral integrity and the aesthetic property of the whole device, and when the handheld dust-collecting component 2 is detached, the independent power source module 4 can be coupled and mounted on the first independent power source receiving portion 112; the upper end of the vertical support 11 is additionally provided with a clamping groove 113 for being matched with the handheld dust collection assembly 2 to be stably installed, so that the handheld dust collection assembly 2 is prevented from being unstably installed and falling off in the using process and the use experience is prevented from being influenced, the lower end of the vertical support 11 is provided with a connecting pipeline 114, the upper end and the lower end of the connecting pipeline are respectively provided with a connecting pipeline upper interface 1141 and a connecting pipeline lower interface 1142 which are respectively used for connecting a negative pressure dust collection channel between the handheld dust collection assembly 2 and the mop assembly 3; the upright support assembly 1 further has an operating handle 12 extending upwardly from the upright support 11, the operating handle 12 being provided at a distal end thereof with a grip 121 to facilitate a user's manipulation of the mobile mop machine over a surface to be cleaned, the grip 121 further having integrated thereon a first actuator 122 to facilitate the user's control of the machine operation by pressing the first actuator 122.
As shown in fig. 7 to 8, the handheld dust collection assembly 2 includes a main dust collection unit 21 and a collection box 22, a vacuum pump 211 is disposed in the main dust collection unit 21 for providing negative pressure for a dust collection process, a spring clip assembly 212 is disposed on the main dust collection unit, the spring clip assembly 212 is engaged with the clip groove 113, and the handheld dust collection assembly 2 can be separated from the vertical support 11 by pressing the spring clip assembly 212; the dust collection host 21 is further provided with a second actuator 213 and a second independent power receiving part 214, the second actuator 213 is coupled to the vacuum pump 211, so that the dust collection process of the device can be started and stopped by pressing the second actuator 213, and the independent power module 4 can be coupled and mounted on the second independent power receiving part 214 to provide power for the handheld dust collection assembly 2 or the integrated suction and mopping machine; the collection box body 22 is detachably clamped on the dust collection host 21, a release switch 221 is arranged on the collection box body 22, and when the release switch 221 is pressed, the collection box body 22 is separated from the dust collection host 21; the vacuum channel 215 is disposed inside the main vacuum cleaner 21, and one end of the vacuum channel 215 is connected to the inside of the collection box 22, and the other end is detachably and hermetically mounted on the connection pipe upper connector 1141.
As shown in fig. 9 to 12, the mop assembly 3 includes a mop support 31, a rotary joint 32, a cleaning assembly 33, a mop suction nozzle 34, and a mop support 31, wherein the mop suction nozzle 34 is detachably connected below the mop support 31, a central main body of the rotary joint 32 is a connecting pipe 321, hinge rods 322 are symmetrically arranged on a side wall of the connecting pipe 321, the rotary joint 32 is hinged to the mop support 31 through the hinge rods 322, and an upper end of the connecting pipe 321 is hermetically mounted to a connecting pipe lower interface 1142; in the embodiment, two groups of cleaning components 33 are symmetrically arranged below the mop support 31, the driving part is a gear box 331, the cleaning part is a rotating tray 332 and a cleaning disc 333 fixedly installed below the rotating tray 332, the cleaning disc 333 and the rotating tray 332 are driven by the gear box 331 to rotate around an axis, the axis can deviate within a range of 10 degrees from the left to the right perpendicular to the surface to be cleaned, and meanwhile, the cleaning discs 333 of each group are in staggered contact with each other, so that the contact area between the cleaning components 33 and the surface to be cleaned is maximized; the front end of the lower part of the mop bracket 31 is detachably provided with a mop suction nozzle assembly 34, in this embodiment, the mop suction nozzle 34 is a T-shaped structure, and the front end thereof is a transverse dust suction port 341, so that when the integrated suction and mopping machine is used for mopping on the floor, the swept area of the mop suction nozzle 34 is maximized, the cleaning efficiency is increased, the rear end of the mop suction nozzle 34 is a longitudinal dust suction pipeline 342, and the tail end of the longitudinal dust suction pipeline 342 is hermetically connected to the lower end of the connecting pipe 321 through a flexible pipeline (not shown in the figure), so that the transverse dust suction port 341, the longitudinal dust suction pipeline 342, the flexible pipeline, the connecting pipe 321, the connecting pipeline 114, the vacuum dust suction channel 215 and the collection box 22 form a complete sealed vacuum dust suction channel, and the flexible pipeline includes; furthermore, in order to facilitate a user to drag the integrated sucking and mopping machine on the surface to be cleaned, guide wheels 311 are respectively arranged below the rear end and the front end of the mop bracket 31; in some embodiments, the mop assembly 3 may further include a clean water tank, a spray head, a spray pipe, etc. to synchronously spray clean water or cleaning liquid when mopping the floor, thereby enhancing the cleaning efficiency and effect.
As shown in fig. 13 to 15, the mop support 31 includes a suction nozzle mounting groove 312 located below the front end thereof and a hinge channel mounting position located below the rear end thereof, a plurality of mounting post male heads 313 are uniformly disposed in the suction nozzle mounting groove 312, and a spring 3131 is fixedly mounted on the mounting post male heads 313 in a surrounding manner.
The overall dimension of the shell of the mop suction nozzle 34 is matched with the suction nozzle mounting groove 312 to realize the integration after the installation, the lower part of the shell is a suction cavity 3322, the bottom end of the suction cavity 3322 is tightly attached to the surface to be cleaned, the center of the top end of the suction cavity 3322 is an installation groove 3323, a plurality of mounting column female seats 3321 are correspondingly arranged above the shell of the mop suction nozzle 34 and a mounting column male head 313, in order to ensure that when the mop suction nozzle 34 is installed on the suction nozzle mounting groove 312, a certain longitudinal deformation range exists to ensure that the floor can be attached to the surfaces to be cleaned under different conditions, and when the mounting column male head 313 is installed in the mounting column female seat 3321, the detachable suction nozzle 332 is just embedded into the suction nozzle mounting groove 312 and one end of the longitudinal dust suction.
The mop nozzle 34 further comprises a flexible sealing strip 3324 and a moving roller 3325, the flexible sealing strip 3324 is fixedly arranged behind the suction cavity 3322, the bottom end of the suction cavity 3322 is slightly higher than the bottom end of the flexible sealing strip 3324 when the flexible sealing strip 3324 is in an undeformed state, and the moving roller 3325 is rotatably arranged in the center of the front end of the suction cavity 3322 and contacts with a surface to be cleaned. When mopping is carried out, the vertical support assembly 1 presses the mop assembly 3 on the surface to be cleaned, so that the environment of the suction cavity 3322 is more sealed, and the dust collection capacity of the suction cavity is effectively improved; because the installation can be dismantled mop suction nozzle 34 and carry out mopping during operation, there is certain resistance influence to cleaning device, in can dismantle mop suction nozzle 34 and install the motion gyro wheel 3325 in the middle of the suction chamber 3322 front end, effectively less its resistance influence that brings for it is more simple laborsaving when user operates cleaning device.
When the device is used specifically, the vertical bracket assembly 1 and the mop assembly 3 are in a connected installation state, when a user needs to perform a mopping process, the handheld dust collection assembly 2 is clamped and installed on the dust collection assembly receiving part 111 through the spring clamping assembly 212, so that the vacuum dust collection channel 215 is hermetically connected to the upper interface 1141 of the connecting pipeline, the independent power module 4 is installed on the second independent power receiving part 214 to provide power for the mopping integrated machine, the device switch is started again, the mopping suction nozzle 34 and the cleaning disc 333 on the mop assembly 3 are controlled to move on the surface to be cleaned through the operating handle 12, and dust collection and mopping work are completed synchronously; when a user only needs to mop the floor without dust collection, the hand-held dust collection assembly 2 is separated from the vertical support 11 by pressing the spring buckle assembly 212, another independent power module 4 is used or the independent power module 4 installed on the second independent power receiving part 214 is taken out and installed on the first independent power receiving part 112 to supply power to the lower-end floor mop assembly, the detachable floor mop suction nozzle 34 is pulled out, the installation post male head 313 is separated from the installation post female seat 3321 to detach the floor mop suction nozzle 34, and the equipment switch is started again, so that the cleaning disc 333 on the floor mop assembly 3 is easily controlled to move on the surface to be cleaned by operating the handle 12 to finish the electric floor mopping operation under the condition that the heavy hand-held dust collection assembly 2 is not installed.
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.