Sweeping and mopping integrated machine
Technical Field
The utility model relates to an indoor burnisher field especially relates to a accomplish simultaneously sweep the floor, drag sweep of ground and drag all-in-one.
Background
With the increasing quality of life of people, more and more attention is paid to indoor cleanness. In indoor cleaning, two situations of sweeping and mopping are common, and sweeping and mopping are separated at present. It is necessary to prepare the tools for sweeping and mopping the floor separately, and to operate the sweeping and mopping work separately at different time stages. A plurality of cleaning tools are arranged at home, so that the space is occupied, separate operation is needed when sweeping and mopping are carried out, and the time is wasted. In order to reduce the types of cleaning tools configured for families, and to simultaneously perform floor sweeping and floor mopping operations, time is saved, a tool which can simultaneously perform floor sweeping and floor mopping functions is required to be designed, so that the space of the families is saved, the time consumed by people in the cleaning operations is saved, and the living efficiency is improved.
Therefore, those skilled in the art have endeavored to develop a new cleaning tool that can perform floor sweeping and mopping operations at a time.
SUMMERY OF THE UTILITY MODEL
In view of the above-mentioned defects in the prior art, the technical problem to be solved in the present invention is to provide a sweeping and mopping integrated machine.
In order to achieve the purpose, the utility model provides a sweeping and mopping integrated machine which is characterized by comprising a sweeping and mopping component, a containing component, a water spraying component and a handle, wherein the water spraying component is arranged on the handle or the sweeping and mopping component and comprises a water storage pot component and a nozzle assembly; the water spraying component is arranged to spray water or cleaning liquid in the water storage pot component on a working surface to be swept through the nozzle assembly; the sweeping and mopping assembly comprises a motor and a roller type working part which can rotate under the drive of the motor; the sweeping and mopping assembly is arranged to sweep and mop the working surface through the rotation of the drum-type working part, and the garbage and the liquid on the working surface are brought into the storage assembly.
Further, the nozzle assembly is a nozzle, which is provided as a liquid outlet.
Further, the water spray assembly includes a manual pump or an electric pump.
Further, the sweeping assembly includes a battery, and the motor is powered by the battery.
Further, the material of the drum-type working part comprises cloth, sponge, felt, collodion or fiber.
Further, the drum type working portion is detachable.
Further, the handle comprises a holding bent part, a switch of the water spraying assembly is arranged at the holding bent part, and the switch is mechanical or electronic.
Further, the mop device also comprises a control switch, and the control switch is arranged on the sweeping and mopping assembly or the handle. Preferably, the control switch is provided on the handle assembly.
Further, the sweeping assembly includes an electronic control assembly.
Further, the receiving assembly is detachable.
Compared with the prior art, the utility model discloses can spray water through the nozzle and wait to drag and sweep ground, do benefit to wet and drag, the high-speed rotation of round brush can sweep rubbish into also can also sweep into the rubbish box with unnecessary water and rubbish when the rubbish box, has accomplished to sweep the floor, has dragged the ground and has gone on simultaneously, has once only solved current ordinary mop can not sweep rubbish, ordinary sweeper can not drag the problem on ground.
The utility model provides a drum-type work portion can rotate at a high speed under the motor drives to when producing the effect that "drags" like working face friction such as ground or window glass, the rotary motion of work portion and the negative pressure that forms from this can also bring solid waste and liquid into and inhale storage assembly, also be exactly the effect of "sweeping". Meanwhile, the storage assembly can be thrown into liquid absorbed by the working part by high-speed rotation, so that the liquid storage assembly has a spin-drying effect, and the working part can continuously absorb the liquid on the working surface.
The current dust catcher can not wet mop, the noise is high, the price is high to it is inconvenient to lead to the fact the use with the power cord, and the robot of sweeping the floor on the market can not wet mop, and extremely individual can wet mop the ground but have secondary pollution, price height, nevertheless the utility model discloses can hand, convenient operation can not have secondary pollution when wet mopping, and the price is low.
The conception, the specific structure and the technical effects of the present invention will be further described with reference to the accompanying drawings, so as to fully understand the objects, the features and the effects of the present invention.
Drawings
FIG. 1 is a general schematic view of a preferred embodiment of the present invention;
fig. 2 is a partial cross-sectional view of a preferred embodiment of the invention;
FIG. 3 is a schematic view of a preferred embodiment of the invention of a water storage jug assembly;
FIG. 4 is a schematic view of a nozzle assembly in accordance with a preferred embodiment of the present invention;
fig. 5 is a partial schematic view of a preferred embodiment of the present invention;
FIG. 6 is a schematic view of a multi-directional rotary head structure according to a preferred embodiment of the present invention;
FIG. 7 is a schematic view of a sweeping assembly according to a preferred embodiment of the present invention;
fig. 8 is a schematic view of the handle structure of a preferred embodiment of the present invention;
FIG. 9 is a schematic view of a handle assembly according to a preferred embodiment of the present invention;
FIG. 10 is a schematic view of a handle assembly according to a preferred embodiment of the present invention;
fig. 11 is an overall schematic view of another preferred embodiment of the present invention;
fig. 12 is a schematic view of a handle assembly according to another preferred embodiment of the present invention.
Wherein, 1-sweeping and dragging component, 1001-transparent cover, 1002-pedal switch, 1003-multidirectional rotating head, 100301-E ring, 100302-reversing link component, 100303-plastic pin shaft, 100304-rotating shaft, 1004-charging indicator light, 1005-roller component, 1006-cloth brush, 1007-cloth brush handle, 1008-garbage box, 1009-battery pack, 1010-switch, 1011-ground brush motor, 1012-conveyor belt, 1013-charging interface, 201-water storage pot component, 202-nozzle component, 203-manual pump 203, 204-nozzle, 301-upper inner rod connecting rod, 302-upper connecting rod outer rod, 303-rod link, 304-guiding outer four-edge frame, 305-inner rod guiding inner four-edge frame, 306-lower connecting rod outer rod, 307-lower connecting rod inner rod, 401-upper handle cover, 402-hook, 403-lower handle cover, 404-handle pressing handle and 100201-button switch.
Detailed Description
The invention is further described with reference to the accompanying drawings and specific embodiments. For convenience of description, in the present invention, the end of the sweeping and mopping integrated machine close to the user (or the handle) or far away from the ground is referred to as "near end", and the end of the sweeping and mopping integrated machine far away from the user (or the handle) or close to the ground is referred to as "far end".
As shown in fig. 1, is a preferred embodiment of the present invention. In the embodiment, the far end of the sweeping and mopping integrated machine comprises a sweeping and mopping component 1 and a water spraying component 2, and the near end of the sweeping and mopping integrated machine comprises a handle component 4. The water spraying component 2, the sweeping and mopping component 1 and the handle component 4 are connected through a handle 3. The handle 3 is divided into an upper handle connecting rod and a lower handle connecting rod which are connected through a handle connecting piece, the upper handle connecting rod is positioned at the near end, and the lower handle connecting rod is positioned at the far end. Particularly, the sweeping and mopping component 1 is connected with the water spraying component 2, the water spraying component 2 is connected with the lower handle connecting rod, and the sweeping and mopping component 1, the water spraying component 2, the lower handle connecting rod and the upper handle connecting rod are sequentially connected from the far end to the near end of the sweeping and mopping integrated machine.
The handle assembly 4 is connected to the upper handle link. The handle is lower the connecting rod and is passed through the handle connecting piece towards one side of near-end and is connected with the handle upper connecting rod, the handle is lower the connecting rod and is close to one side of distal end and be connected with water spray assembly 2, water spray assembly 2 passes through the connecting piece and sweeps and drag subassembly 1 to be connected, water spray assembly 2 can rotate for sweeping and drag subassembly 1 in a flexible way, the user can adjust the handle through rotating the handle and sweep the contained angle between the subassembly 1, guarantee to sweep when dragging the operation conveniently fast and adjust to the most suitable comfortable position. The water spraying component 2 is fixedly connected with the lower connecting rod of the handle. In the process of using the sweeping and mopping integrated machine, the water spraying assembly 2 is responsible for spraying water, evenly falls on the ground after being atomized by the nozzle, keeps the ground wet, and meanwhile, the sweeping and mopping assembly 1 is responsible for finishing the work of mopping and sweeping, so that the mopping and sweeping are finished at one time. The water spraying component 2 and the sweeping and mopping component 1 are kept at a certain distance, when the sweeping and mopping component 1 is close to the ground, the water spraying component 2 is fixed on the lower connecting rod of the handle and is away from the ground for a certain distance, and the water sprayed by the water spraying component 2 can be sprayed to the ground instead of falling on the surface of the sweeping and mopping component 1. One side of the upper handle connecting rod facing the far end is connected with the lower handle connecting rod through a handle connecting piece, and one side of the upper handle connecting rod close to the near end is connected with a handle assembly 4.
As shown in fig. 2, the sprinkler assembly 2 includes a reservoir assembly 201 (shown in fig. 3) and a nozzle assembly 202 (shown in fig. 4). The reservoir pot component 201 and the nozzle assembly 202 are fixedly connected, the reservoir pot component 201 being located at the upper end and the nozzle assembly 202 being located at the lower end. The lower end of the reservoir assembly 201 has a projection and the upper end of the nozzle assembly 202 has an opening into which the projecting lower end of the reservoir assembly 201 is inserted into the opening in the upper end of the nozzle assembly 202. In this embodiment, the two are fixedly connected by screw threads, and the outer surface of the lower end of the water storage pot component 201 is provided with external screw threads, and the inner wall of the corresponding position inside the upper end opening of the nozzle assembly 202 is provided with internal screw threads. The reservoir component 201 is inserted into the nozzle assembly 202 from the upper end, and the external threads of the protruding lower end of the reservoir component 201 are riveted with the internal threads of the upper end of the nozzle assembly 202, thereby fixedly connecting the reservoir component 201 and the nozzle assembly 202. The water storage pot assembly 201 is filled with clean water or washing liquid water.
As shown in fig. 4, the nozzle assembly 202 includes a small segment of connecting rod, and the nozzle assembly 202 is fixedly connected to the small segment of connecting rod, which is a two-layer connecting rod including an inner rod and an outer rod. One end of the connecting rod of the nozzle assembly 202 is fixedly connected with the lower connecting rod of the handle, and the other end is connected with the sweeping and mopping assembly 1. When the reservoir tank assembly 201 is fixedly connected to the nozzle assembly 202, liquid in the reservoir tank assembly 201 can flow through the passage in the connecting thread to the nozzle assembly 202. A hand pump 203 is built in the connection rod of the nozzle assembly 202, and a fluid communication path is formed between the nozzle assembly 202 and the hand pump 203. When the manual pump 203 is in the off state, the manual pump 203 cuts off the flow of the liquid. When the hand pump 203 is in the on state, the liquid flows through the hand pump 203, the hand pump applies a pressure to the liquid, the liquid is pushed to flow into the nozzle assembly 202 from another channel and is sprayed out from the nozzle 204 in the nozzle assembly 202, the nozzle 204 atomizes the liquid, and then the atomized liquid uniformly falls on the ground.
As shown in fig. 5, the sweeping assembly 1 includes a removable transparent cover 1001, a control switch, a multi-directional rotating head 1003, a charge indicator light 1004, and a scroll wheel assembly 1005. The control switch is a step switch 1002. The sweeping assembly 1 is connected to the water spray assembly 2 by a multi-directional swivel head 1003. As shown in fig. 6, the multidirectional rotating head 1003 is disassembled. The multi-directional rotator head 1003 includes an E-ring 100301, a reversing link 100302, a plastic pin 100303, and a spindle 100304. In fig. 5, the foot switch 1002 is located at the rear end of the mop assembly 1, on one side of the multi-directional rotating head 1003. The pedal switch 1002 functions as a master switch, and a user of the sweeping and mopping all-in-one machine can turn on or off the sweeping and mopping all-in-one machine by stepping on the pedal switch 1002 with feet. In this embodiment, turning on the pedal switch 1002 means that the all-in-one machine starts sweeping and mopping, and turning off the pedal switch 1002 means that the all-in-one machine stops sweeping and mopping. The charge indicator lights 1004 are also located at the rear end of the mop assembly 1, and the foot switches 1002 are located on both sides of the multidirectional rotating head 1003. The roller assembly 1005 has two wheels, located on both sides of the rear end of the sweeping assembly 1, mounted at the lower ends of the foot switch 1002, the multi-directional rotating head 1003 and the charging indicator light 1004. The height of the wheels in the roller component 1005 is slightly larger than the thickness of the sweeping and mopping component 1, and when the sweeping and mopping integrated machine works, the height of the wheels can ensure that the sweeping and mopping component 1 is not mopped on the ground, and can keep a proper distance with the ground, thereby ensuring that mopping and sweeping can be finished with high quality. At the front end of the mop assembly 1, there is a detachable transparent cover 1001, which is located on the upper side of the front end of the mop assembly 1. Opening the removable transparent cover 1001, as shown in fig. 7, also includes a cloth brush 1006, a cloth brush handle 1007, and a trash box 1008 within the mop assembly 1, wherein the trash box 1008 is removable. The cloth brush 1006 is a cylinder with a rotatable shaft in the middle, and the cloth brush 1006 is wrapped with cloth, which is equivalent to a rag for mopping the floor. The cloth brush 1006 is horizontally placed at the front end of the sweeping and mopping assembly 1 and below the detachable transparent cover 1001, two ends of the cloth brush 1006 are connected through a bottom fixing piece at a corresponding position of the sweeping and mopping assembly 1, one side of the cloth brush is connected with a cloth brush handle 1007, and the other side of the cloth brush is connected with a conveyor belt. The bottom fixing piece and the sweeping and mopping assembly 1 are integrally formed. When the pedal switch 1002 is turned on, the cloth brush 1006 starts to rotate at a high speed, and when the garbage is swept into the garbage box, the cloth on the cloth brush 1006 wets and wipes the water just sprayed on the ground and the ground, and the excess water is swept into the garbage box 1008 by the way. The operation of the cloth brush 1006 and the trash can 1008 can be seen in real time through the removable transparent cover 1001. When the trash box 1008 is full or sweeping is completed, the detachable transparent cover 1001 can be opened, and the trash box 1008 can be taken out for trash dumping and cleaning.
As shown in fig. 7, at the rear end of the sweeping and mopping assembly 1, the rear cover connected to the pedal switch 1002, the multi-directional rotating head 1003 and the charging indicator 1004 is opened, and the rear cover includes a battery pack 1009, a switch 1010, a floor brush motor 1011, a conveyor belt 1012 and a charging interface 1013. Switch 1010 may be opened or closed by depressing switch 1002. The battery pack 1009 is charged through the charging interface 1013, and the battery pack 1009 stores electric energy and provides the stored electric energy for the floor brush motor 1011 for use. When the switch 1010 is turned on, the floor brush motor 1011 starts to rotate, and the cloth brush 1006 is driven to rotate by the conveyor belt 1012. When the switch 1010 is closed, the rotation of the floor brush motor 1011 stops, the rotation of the conveyor belt 1012 stops, and thus the rotation of the cloth brush 1006 also stops, and the sweeping and mopping integrated machine stops working. The battery pack 1009 is located on the same side of the rear end of the mop assembly 1 as the foot switch 1002 and the switch 1010. The floor brush motor 1011 and the charge indicator lamp 1004 are located on the other side of the rear end of the mop assembly 1. The ground brush motor 1011 is close to one wheel of the roller assembly 1005 on the same side, and one end of the conveyor belt 1012 is connected with the wheel and the other end is connected with one side of the rotating shaft of the cloth brush 1006. The diameter of the conveyor belt 1012 at one end of the connecting wheel is larger, the diameter of the conveyor belt 1012 at one end of the connecting cloth brush 1006 rotating shaft is smaller, and the rotating speed of the ground brush motor 1011 is amplified through the conveyor belt 1012, so that the rotating speed of the rotating shaft of the cloth brush 1006 is larger than that of the ground brush motor 1011.
As shown in fig. 8, the handle 3 is divided into an upper handle connecting rod and a lower handle connecting rod, and the upper handle connecting rod and the lower handle connecting rod are connected through a handle connecting piece. The handle upper link includes an upper link inner rod 301 and an upper link outer rod 302. The handle lower link includes a lower link outer rod 306 and a lower link inner rod 307. The handle connecting piece between the upper handle connecting rod and the lower handle connecting rod comprises a rod link connecting piece 303, an inner rod guide outer quadrangular frame 304 and an inner rod guide inner quadrangular frame 305, the length of the connecting rod 3 can be flexibly adjusted, and the handle connecting piece is suitable for different operators. The upper connecting rod inner rod 301 and the upper connecting rod outer rod 302 are concentrically sleeved and can axially slide relative to each other.
As shown in fig. 9 and 10, the handle assembly 4 is connected to the handle 3. The handle assembly 4 comprises a handle upper cover 401, a hook 402, a handle lower cover 403 and a handle pressing handle 404. The handle pressing handle 404 is connected to the nozzle assembly 202 through the upper link inner rod 301 and the lower link inner rod 307, and is driven by the handle pressing handle 404 to open or close the nozzle 204.
In a second preferred embodiment of the present invention, the manual pump 203 is replaced by an electronic pump, and the positions of other components and other components are kept unchanged. The electronic pump is connected to the water tank and operates to open or close the nozzle 204.
In a third preferred embodiment of the present invention, the control switch is provided at the handle assembly 4, and is a push button switch 100201 (see fig. 11 and 12). Turning on the button switch 100201 means that the all-in-one machine starts sweeping and mopping, and turning off the button switch 100201 means that the all-in-one machine stops sweeping and mopping. The button switch 100201 can also function as a power switch of the electronic pump. A switch of the electronic pump may be provided at the handle assembly 4 to switch the electronic pump through the wireless mode. Wireless modes include bluetooth or radio frequency. When the switch of the electronic pump is provided at the handle assembly 4, the handle pressing lever 404 is a key switch of the electronic pump.
In the fourth preferred embodiment of the present invention, the electronic pump is used to replace the manual pump 203, the nozzle 204 is placed in front of the sweeping and dragging assembly 1, so as to facilitate water spraying, and the electronic pump and the water storage pot assembly 201 are integrated in the sweeping and dragging assembly 1. The other components are the same as those of the second preferred embodiment.
As shown in Table 1, the utility model discloses a sweep and drag all-in-one and compare with all kinds of clean products among the prior art, not only have stronger functionality, have lower price moreover, therefore the price/performance ratio is very high.
TABLE 1. the utility model discloses a clean product contrast table of sweeping and mopping integrated machine and prior art
The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the teachings of this invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.