CN211381127U - Joint assembly of cleaning all-in-one machine and cleaning all-in-one machine thereof - Google Patents

Abstract

The utility model discloses a joint component of a cleaning all-in-one machine and the cleaning all-in-one machine, the cleaning all-in-one machine comprises a cleaning tool for cleaning and a manual operation part, the manual operation part is connected with the cleaning tool through the joint component, the cleaning tool comprises an installation shell, and the joint component comprises a joint head; the joint head comprises a joint clamping part and a joint rotating part, wherein the joint clamping part is clamped and installed with the lower end part of the manual control part in a matching manner, two sides of the joint rotating part are respectively installed on the installation shell in a relatively rotatable manner, and the joint clamping part is sleeved and installed on the joint rotating part in a relatively rotatable manner; the utility model discloses a manual operation portion can be for burnisher swing on the side in front and back and left and right sides through the joint head, and the mounting structure of joint head is not only simple, can adjust the angle of manual operation portion in real time according to actual clean needs moreover when using, increases and uses the convenience.

Description

Joint assembly of cleaning all-in-one machine and cleaning all-in-one machine thereof

Technical Field

The utility model belongs to the technical field of it is clean, concretely relates to joint assembly of clean all-in-one, the utility model discloses still relate to the clean all-in-one of using this joint assembly.

Background

Cleaning is usually the daily affairs that people need to face, and also directly influences the quality of daily life of people. In particular, people often use various cleaning tools to clean floors in various forms, and typical types of cleaning include the following:

a purely mechanical way of operating a purely mechanical cleaning implement purely manually, which way generally comprises: the broom is used for sweeping sundries and dust on the ground and/or the wet mop is used for cleaning dirt or stain on the ground, and the broom or the wet mop is used as a cleaning tool and belongs to a pure mechanical structure; because the pure mechanical cleaning tools such as the broom, the mop and the like have simple installation structure, small volume, convenient operation and low use cost, the prior broom and the mop are still most widely used in domestic families, and people usually configure the broom and the mop at the same time and are combined and practical in daily cleaning;

secondly, manually operating a semi-automatic cleaning tool, wherein the mode generally comprises that a dust collector is manually operated to remove dust and debris and other garbage impurities on the ground, or an automatic sweeper is manually operated to clean the ground, the mode adopts the dust collector or the automatic sweeper as a cleaning tool, wherein the cleaning principle of the dust collector is that a combined structure of a dust collection motor and a dust collection port provided with a driving rolling brush is adopted to realize negative pressure dust collection and cleaning effects on the ground, the cleaning principle of the automatic sweeper is that functional module motors are respectively arranged to realize friction rotation of a broom and the ground, and/or the dust collection motor and the rolling brush are used for dust collection and cleaning of the ground, and/or mop is used for cleaning the ground, the different functional modules are independently arranged, and then the functional modules are arranged in a whole machine through reasonable layout design; because the dust collector has high use cost and large dust collection noise and can not clean dirt and stains on the ground, the dust collector is usually specially used for cleaning carpets or corners and is not used for cleaning daily grounds, and the automatic sweeper needs to be provided with a plurality of motors and a plurality of cleaning tool modules, has large occupied volume and high cost and is usually only applied to cleaning of large supermarkets;

with the development of cleaning technology, people want to be liberated from daily complicated cleaning affairs more and more, in recent years, a full-intelligent sweeping robot capable of automatically identifying obstacles gets more and more attention and application, and the adopted working principle is that an intelligent obstacle identification technology is added on the basis of the existing automatic sweeping machine and dust collector, and people do not need to operate a cleaning tool; the actual core cleaning technical principle is that motors of all functional modules are respectively arranged to realize the friction rotation of the broom and the ground, the dust absorption of a dust absorption port to the ground and the cleaning of a mop to the ground, the different functional modules are independently arranged and then are installed in an intelligent sweeping all-in-one machine (usually arranged in a disc shape) through reasonable layout design, and the intelligent sweeping all-in-one machine is generally called as a sweeping robot; because the structure cost of the sweeping robot is tens of times or even hundreds of times of the cost of pure mechanical cleaning tools such as a broom and a mop, although the sweeping robot has the advantage of highly intelligent cleaning, the robot is obviously the basis for lacking the cost saving aspect when being used as a popular cleaning tool for daily cleaning.

To gain further insight into the current innovative cleaning techniques, the applicant has invested considerable time in reviewing the disclosure of various cleaning tool technologies, a list of cleaning technologies that the applicant considers representative is set forth below:

A. the invention patent with publication number CN106264321A discloses a dragging and sucking integrated dust collector, which comprises a dust collection rod, a dust collector main body, a fan, a dust collection cavity, a water tank, a dust collection pipe, a water pipe, a micro water pump, a dust collection nozzle, a dust collection inlet, a nozzle, a scraping strip and a pulley, wherein an insulating anti-skidding sleeve is sleeved at the handheld part of the dust collection rod; the technology adopts the dust absorption fan to realize the dust absorption effect and combines the mop cleaning mode of a pure mechanical structure, the cost is high, and the dust absorption noise is large.

B. The invention patent with publication number CN108618706A discloses a mopping, sweeping and sucking integrated machine, which comprises a machine body and a handle, wherein the lower part of the machine body is provided with a dust suction port, a liftable mop, a liftable rotary broom and a dust collector are arranged in the dust suction port, the handle is connected with the machine body, and a lifting motor, a rotary motor and a dust suction motor are connected with an energy storage device in parallel. The mop, the rotary broom and the dust collector are integrated, and the mop, the rotary broom and the dust collector work under the power provided by the energy storage device; the technology is generally provided with a plurality of functional motors (including a lifting motor, a rotating motor and a dust collection motor) for respectively driving the mop, the rotating broom and the dust collector, and the technology has the advantages of large installation volume, high cost and large motor noise.

C. The invention patent with the publication number of CN106137053B discloses a household vertical floor washing machine, which comprises a machine body with a plurality of containing positions, a mop head movably arranged at the bottom of the machine body, a clear water tank detachably arranged at the upper part of the machine body and communicated with the mop head, a sewage tank detachably arranged at the lower part of the machine body, an electric power assembly arranged at the middle part of the machine body and communicated with the sewage tank in a sealing way, and a flow channel arranged in the mop head, wherein an opening at one end of the flow channel is communicated with the sewage tank in a sealing way, an opening at the other end of the flow channel faces the ground, and the electric power assembly is electrically connected with the mop head and used for controlling the mop head to; in addition, one side of the machine body is provided with a telescopic rod component which is used for being supported by a user and pushing the whole machine to move; this technique adopts electronic round brush to combine clean water tank, sewage case and water pump structure to be exclusively used in ground washing, and the overall arrangement of clean water tank, sewage case occupies the installation volume to very big, only can realize simultaneously that the function is very single to ground cleaning effect, and the using value is limited.

D. The invention discloses a household intelligent sweeper, which comprises a sweeper body, a rotary brush, an air inlet and a connecting rod, wherein a vent is installed at the bottom of the sweeper body, a sterilizing lamp is installed above the vent, a mop is installed above the sterilizing lamp, a dust suction port is formed above the mop, a mop cloth is fixed above the dust suction port, a water spray port is installed above the mop cloth, a motor is arranged above the water spray port, a universal wheel is installed above the motor, the rotary brush is arranged on one side of the water spray port, a crawler wheel is arranged on one side of the rotary brush, a side brush is installed above the crawler wheel, an air outlet is formed in one side of the crawler wheel, and the air inlet is formed in one side edge of the sweeper body. This technique is comparatively typical robot structure of sweeping the floor at present, and the cleaning means through the multiple different grade type of rational layout specifically includes round brush, limit brush, mop and drags the cotton clean effect that realizes multiple complex function, and is with high costs, is unfavorable for clean cost saving.

E. The utility model with the publication number of CN208677293U discloses a floor brush device, which comprises a floor brush base, a floor mop plate arranged at the bottom of the floor brush base, and a rolling brush component, wherein the rolling brush component comprises a rolling brush bracket and a rolling brush rotationally arranged on the rolling brush bracket, the rolling brush bracket is floatingly arranged on the floor brush base along the up-down direction through a connecting mechanism, the rolling brush and the floor mop plate are arranged in tandem, and the rolling brush and the floor mop plate are simultaneously contacted with a working surface; the technology only adopts the rolling brush to realize the floor sweeping effect, the floor mopping function is realized by the mop cloth, and the dust removing function is still realized by combining the dust collecting motor with the dust collecting port structure.

It can be seen from the summary thinking of the existing cleaning technology that people still adopt the conventional functional module type cleaning technical idea of 'cleaning sundries on the ground by adopting a broom, cleaning stains on the ground by adopting a mop, cleaning dirt on the ground by adopting a rolling brush or a floor brush, or cleaning dust on the ground by adopting a dust collection motor', the adopted cleaning tools are still various, and the cleaning technical idea obviously does not really realize the integrated compound function on the ground. As a cleaning tool which needs to be frequently used in daily life, the ground can face various complex and diversified environments to be cleaned, such as sundries, dust, dirt or stains, and the like, after intensive research and long-term development and exploration, the applicant thinks that the cleaning effect of realizing multiple complex functions on the ground by a single cleaning tool is a core key technology which is more convenient to realize cleaning operation, more compact in installation volume and lower in use cost, and is also a cleaning product which can be really popularized and applied by the public in daily life.

Driven by the above background and the applicant's technical initiatives, the applicant wishes to seek new cleaning tools and cleaning methods to break the thinking of cleaning in the prior art.

Disclosure of Invention

In view of this, the utility model aims at providing a joint assembly of clean all-in-one and clean all-in-one thereof, manual control portion can be for the swing of burnisher in front and back and left and right sides orientation through the joint head, and the mounting structure of joint head is not only simple, can come the angle of adjusting manual control portion in real time according to the clean needs of reality when using moreover, increases the convenience of use.

The utility model adopts the technical scheme as follows:

a joint assembly of a cleaning all-in-one machine comprises a cleaning tool for cleaning and a manual operation part, wherein the manual operation part is connected with the cleaning tool in a mounting mode through the joint assembly, the cleaning tool comprises a mounting shell, and the joint assembly comprises a joint head; joint head includes joint portion and joint rotation portion, wherein, joint portion with the cooperation is installed to tip joint under the manual control portion, joint rotation portion both sides are installed relatively rotatably respectively on the installation casing, just joint portion cup joints relatively and installs on the joint rotation portion.

Preferably, the joint head includes the latch segment, joint rotation portion be equipped with latch segment joint complex installation joint groove, simultaneously joint portion pass through the latch segment can cup joint with rotating relatively install on the joint rotation portion.

Preferably, joint portion tip is equipped with rotates the spout or rotates the slip table, joint rotation portion corresponds and is equipped with and rotates the slip table or rotate the spout, joint portion with joint portion passes through rotate the spout with rotate the sliding fit between the slip table and realize rotating relatively.

Preferably, the mounting housing is mounted with a lower rotation limiting part and/or an upper rotation limiting part for controlling a range of rotation of the joint rotating part.

Preferably, the upper rotation limiting part adopts an elastic limiting block assembly, the joint rotating part is provided with a joint limiting part, and the joint limiting part can be selectively matched with the elastic limiting block assembly in a limiting manner through rotation and is used for limiting the upper rotating angle of the joint rotating part.

Preferably, the elastic limiting block assembly comprises an installation block installed on the installation shell, the upper end of the installation block is provided with an installation limiting protrusion selectively matched with the joint rotating part in a limiting mode, and the periphery of the installation block is sleeved with a compression spring.

Preferably, the cleaning tool comprises a driver installed in the installation shell, the driver is used for driving the cleaning tool to clean, wherein a travel switch used for controlling the driver to start or stop is installed on the installation shell, the joint rotating part is provided with a travel limiting part, and the travel limiting part can be selectively contacted with a contact of the travel switch through rotation.

Preferably, the joint rotating part can overcome the limiting force of the elastic limiting block assembly, so that the stroke limiting part is in contact with a contact of the travel switch and is clamped with the clamping part of the installation shell.

Preferably, the cleaning all-in-one machine comprises a cleaning tool for cleaning and a manual operation part, wherein the manual operation part is connected with the cleaning tool in an installing mode through the joint assembly, and the joint assembly adopts the joint assembly.

Preferably, the manual operation part is provided with a liquid spraying assembly, and the liquid spraying assembly can relatively swing relative to the cleaning tool through the joint head for adjusting a liquid spraying angle.

The utility model discloses the first time propose adopt with the relative rolling contact's of working face cleaning roller as burnisher, its core cleaning thought is: the rolling contact can realize partial cleaning of the working surface, which is beneficial to directly taking out dirt or dirt garbage on the ground, and simultaneously, in the actual cleaning, when in rolling contact, the cleaning roller generates centrifugal force in the circumferential direction and generates negative pressure adsorption effect on the working surface instantly when being positioned at the rolling contact position, the applicant surprisingly finds that the negative pressure adsorption effect can enable various garbage on the working surface to leave the working surface, the garbage leaving the working surface can continuously roll along the circumferential direction of the cleaning roller under the action of the circumferential centrifugal force of the cleaning roller, and when the space is suddenly increased in the rolling process, the garbage rolling along the circumferential direction of the cleaning roller can be thrown out and enter the increased space, therefore, the applicant can creatively utilize the combination effect caused by the rolling and correspondingly arrange a collecting region capable of automatically collecting the garbage in the cleaning tool, make and form centrifugal force tangent line export between cleaning roller and the collecting region, can obtain very surprised technological effect, when practical application, specifically can show as:

firstly, the mopping effect cleaning of the working surface can be realized through rolling contact;

secondly, when the working surface is in a dry environment, the sundries, the flocks and the dust on the working surface can be directionally collected into the collecting area of the utility model through the combined effect brought by the rolling contact of the cleaning roller;

third, when the working face is in under the wet environment, the waste liquid on the working face can be through the rolling contact of scrub roller as above composite effect brought, by the orientation get rid of to the utility model discloses an in the collecting region.

The utility model discloses broken the clean thinking bias that technical staff usually exists in the field effectively: realize sweeping, dragging, clean effects such as dust absorption need adopt different burnishers just can realize, if the utility model discloses in the background art, this prejudice has leaded to current clean current situation: the pure manual broom and pure mop cleaning tools are widely combined and used by the public due to low use cost, and various cleaning modules are independently arranged for meeting the composite cleaning function due to semi-automation or full intelligence, so that the daily cleaning burden of people is relieved to a certain extent by the products, but the problems of high use cost, high noise or large volume also exist; this applicant has realized sweeping, dragging and dust absorption effect to the working face simultaneously as single kind burnisher through the cleaning roller, can get rid of the rubbish including all kinds of shapes or properties such as debris, flock, dust, waste liquid, spot or dirt, has not only realized the clean effect of multiple complex function, moreover the utility model discloses compact structure, the operation is convenient, and the noise is little, and use cost is low, and the universality is good.

Drawings

Fig. 1 is a schematic structural diagram of a cleaning integrated machine 1 according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic structural view of a cleaning roller according to an embodiment of the present invention;

FIG. 5 is a schematic view of the installation structure of the rolling shaft and the motor according to the embodiment of the present invention;

FIG. 6 is a cross-sectional view of FIG. 4;

FIG. 7 is a schematic diagram of the exploded structure of FIG. 4;

fig. 8 is a schematic view of the mounting structure of the mounting housing 110 according to the embodiment of the present invention;

FIG. 9 is a schematic view of the mounting structure of FIG. 8 with the upper mounting housing 110a removed;

FIG. 10 is a schematic view of the mounting structure of FIG. 8 with the lower mounting housing 110b removed;

FIG. 11 is a schematic view of the mounting structure of FIG. 8 rotated 180 degrees;

FIG. 12 is a schematic diagram of the exploded structure of FIG. 1;

fig. 13 is a schematic view of the installation structure of the lower spray mechanism 320 according to the embodiment of the present invention;

FIG. 14 is a schematic view of an installation structure of the liquid storage area 310 according to the embodiment of the present invention;

fig. 15 is a schematic view of an installation structure of the manual manipulation unit 20 according to the embodiment of the present invention;

fig. 16 is a schematic view of a push handle assembly 220 according to an embodiment of the present invention;

FIG. 17 is a cross-sectional view of FIG. 16;

FIG. 18 is a schematic diagram of the exploded structure of FIG. 16;

fig. 19 is a schematic structural diagram of a joint head 410 according to an embodiment of the present invention;

FIG. 20 is a cross-sectional view of FIG. 19;

FIG. 21 is a schematic view of the exploded structure of FIG. 19;

FIG. 22 is a schematic view of the mounting structure of the lower joint assembly 40 according to the embodiment of the present invention;

FIG. 23 is a schematic view of the mounting structure of the resilient stop block assembly and the articulation section of FIG. 22;

fig. 24 is a schematic view showing the installation structure of the stroke switch and the joint rotating part in fig. 22.

Detailed Description

The embodiment of the utility model discloses joint assembly of clean all-in-one, clean all-in-one is including being used for clear burnisher and manual operation portion, and manual operation portion passes through joint assembly and burnisher erection joint, and the burnisher includes the installation casing, and the joint head includes joint portion and joint rotation portion, and wherein, joint portion and manual operation portion lower extreme joint installation cooperation, joint rotation portion both sides can install on the installation casing relatively rotatoryly respectively, and joint portion cup joints with relatively rotating and installs on joint rotation portion.

In order to make the technical solutions in the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Referring to fig. 1 and 2, a cleaning tool 10 with highly efficient integrated complex functions comprises a collecting area 120 and a cleaning roller 130 which are installed and connected into a whole through a mounting shell 110 and can be in opposite rolling contact with a working surface; meanwhile, the cleaning roller 130 generates centrifugal force in the circumferential direction thereof by rolling, and a centrifugal force tangential outlet 140 is formed between the cleaning roller 130 and the collecting region 120, so that at least part of the garbage on the working surface leaves the working surface and is collected to the collecting region 120, and the garbage can comprise sundries and/or flocks and/or dust and/or waste liquid and/or dirt; when the embodiment is used for actual cleaning, the centrifugal force at the rolling contact position can instantly generate a negative pressure adsorption effect on the working surface, the negative pressure adsorption effect can enable various kinds of garbage on the working surface to leave the working surface, the garbage leaving the working surface can continue to roll along the circumferential direction of the cleaning roller 130 under the action of the circumferential centrifugal force of the cleaning roller 130, when the garbage leaves the tangential outlet of the centrifugal force in the rolling process, the garbage rolling along the circumferential direction of the cleaning roller 130 can be thrown out from the tangential outlet 140 of the centrifugal force and enter the collecting region 120, and then the cleaning effect of various complex functions on the working surface is realized.

The cleaning method adopted by the cleaning tool of the embodiment comprises the following steps: mopping cleaning of the work surface is achieved by the relative rolling contact of the cleaning roller 130 with the work surface; simultaneously through the roll centrifugal force that produces, centrifugal force forms the negative pressure effort with the position of working face rolling contact, leaves the working face and is collected to collecting region 120 under the centrifugal force effect with at least partial rubbish on the working face through this negative pressure effort, realizes sweeping the floor clean and the dust absorption clean to the working face simultaneously, finally realizes the cleanness to the high-efficient integrated complex function as follows at least of working face:

firstly, the mopping effect cleaning of the working surface can be realized through the rolling contact of the cleaning roller 130;

secondly, when the working surface is in a dry environment, the impurities, the flocks and the dust on the working surface can be directionally collected into the collecting region 120 through the combined effect brought by the rolling contact of the cleaning roller 130;

third, when the working surface is in a wet environment, the waste liquid on the working surface can be directionally thrown into the collection area 120 by the combined effect of the rolling contact of the cleaning roller 130.

The embodiment of the utility model provides a powerful clean thinking bias that has broken the technical staff in the field and has usually existed: realize sweeping, dragging, clean effects such as dust absorption need adopt different burnishers just can realize, if the embodiment of the utility model provides a in the background art, this prejudice has leaded to current clean current situation: the pure broom and pure mop cleaning tools are widely combined and used by the public due to low use cost, and various cleaning modules are independently arranged due to semi-automation or full intelligence to meet the requirement of a composite cleaning function, so that the daily cleaning burden of people is relieved to a certain extent by the products, but the problems of high use cost, high noise or large volume also exist; the applicant has realized sweeping, dragging and dust absorption effect to the working face simultaneously as single kind burnisher through cleaning roller 130, can get rid of the rubbish including all kinds of shapes or properties such as debris, flock, dust, waste liquid, spot or dirt, has not only realized the clean effect of multiple complex function, moreover the embodiment of the utility model provides a compact structure, the operation is convenient, and the noise is little, and use cost is low, and the universality is good.

It should be particularly pointed out that the dust collection modes adopted in the prior art are negative pressure airflow dust collection modes adopting a dust collection motor, for example, the dust collection structure adopted by the floor brush device disclosed in the publication No. CN208677293U has high dust collection noise, and because the dust collection path is long, not only can the problem that the airflow pipeline is blocked by dust impurities to cause difficulty in cleaning occur, but also the hidden trouble that fine dust is inhaled by an operator due to the movement of the airflow can also occur; and this application adopts the mechanical dust collection structure who mainly combines collecting region 120 to constitute by cleaning roller 130, need not set up specially to be used for realizing the dust absorption motor of negative pressure air current effect, and then has reduced the noise that the dust absorption motor brought again, simultaneously the utility model discloses the dust absorption route is short, and the clearance is maintained simply relatively, can not take place the air flow pipeline and block up the problem, in clean in-process, can greatly reduce the human body and be forced the risk of inhaling the dust moreover.

As further shown in fig. 3, the cleaning roller 130 includes a contact area 130a for rolling contact with the working surface to make at least a portion of the garbage on the working surface leave the working surface, and a guard area 130b with a clearance fit through the mounting housing 110, the garbage carried by the contact area 130a is conveyed to the collecting area 120, and the guard area 130b can further reliably ensure that the garbage leaving the working surface is accurately conveyed to the collecting area 120, and prevent other non-target centrifugal force tangential outlets formed in the garbage conveying path from being thrown out to cause collection failure or omission.

As further shown in fig. 4, in the present embodiment, preferably, the cleaning roller 130 includes a rolling shaft 131 installed and connected to the driver, a cleaning portion 132 is disposed on the outer periphery of the rolling shaft 131, the rolling shaft 131 receives the driving force of the driver and drives the cleaning portion 132 to relatively roll and contact with the working surface, wherein the rolling shaft 131 mainly serves as an installation function, and may be made of plastic or metal, and preferably, the rolling shaft 131 made of plastic may reduce the installation cost and the installation weight; the cleaning part 132 is mainly used for making rolling contact with the working surface, and may be made of fiber or plastic or other materials with flexible effect, preferably, fiber cloth is used, and more preferably, fiber cloth with relatively low weaving density is proposed, so that the garbage on the working surface is easy to generate adsorption force to enable the garbage to leave the working surface, and meanwhile, the garbage leaving the ground can be relatively easily and accurately conveyed to the collecting area 140, and after the cleaning application implemented by the applicant, it is found that nylon cloth with relatively high weaving density is not proposed, so that the adsorption force effect on the garbage is relatively poor, but this is not limited as an essential feature of this embodiment; further preferably, the cleaning portion 132 is provided with a spiral groove 133, the groove depth of the spiral groove 133 can be set to be 1-3mm, and the structure can quickly roll up the garbage on the working surface, and can reduce or avoid the garbage foreign matter on the working surface from rubbing against the working surface to scratch the working surface, especially avoid scratching or scratching the working surface of the floor.

Preferably, as further shown in fig. 5, in the present embodiment, the driver includes a motor 151 and a transmission belt assembly, the motor 151 inputs a driving force for rolling to the rolling shaft 131 through the transmission belt assembly, the transmission belt assembly includes a first pulley 152 fixedly connected to an output shaft 151a of the motor, and a second pulley 153 fixedly connected to the rolling shaft 131, the transmission belt 153a is simultaneously engaged and transmitted between the first pulley 152 and the second pulley 153, the driving force of the motor 151 is transmitted to the rolling shaft 131, and the rolling shaft 131 is driven to be in rolling contact with the working surface; in practical application, the transmission ratio can be set by setting the diameter ratio of the first belt pulley 152 and the second belt pulley 153, and it is generally preferable that the diameter of the first belt pulley 152 is smaller than that of the second belt pulley 153, so as to realize the speed reduction output of the motor 151 and the start of the motor 15 with small torque and large rotation speed; the preferable control of the rolling speed range of the cleaning roller 130 can be realized after the transmission ratio output by the transmission belt assembly is within a proper range, in other embodiments of the present application, the transmission ratio can be selected according to the rolling speed requirement of the cleaning roller 130, and the transmission ratio can be used for increasing the speed and also can be used for reducing the speed, which is not particularly limited by the embodiments of the present application; through the research on the relationship between the rolling speed and the cleaning effect of the cleaning roller 130, it is suggested that the rolling speed of the cleaning roller 130 is not lower than 1000rpm, preferably, the rolling speed of the cleaning roller 130 is in the range of 1500-; in order to flexibly adapt to the cleaning requirements of the working surface in various different environments, the rotating speed of the motor 151 can be selectively changed according to the actual conditions of the working surface (such as the humidity of the working surface and the main garbage type on the working surface) during implementation, and a more intelligent cleaning effect can be realized.

The applicant finds that, due to the adoption of the cleaning roller 130 as a core cleaning tool, under the condition of long-time use, the problem of regular maintenance and replacement is existed, preferably, as further shown in fig. 6 and 7, the embodiment also provides a cleaning tool mounting structure convenient for efficient maintenance, wherein one end of the rolling shaft 131 is detachably and drivingly connected with the driver, and the other end is detachably mounted on the mounting shell 110, under the condition of ensuring the driving force input, in the practical use, the user can realize the quick disassembly and assembly maintenance of the cleaning roller 130 through the detachable structure;

in this embodiment, one end of the rolling shaft 131 is detachably and drivingly connected to the second pulley 153, the other end of the rolling shaft is detachably mounted on the mounting housing 110, the mounting shaft 134 is inserted into one end of the rolling shaft 131, the outer end of the mounting shaft 134 is inserted into the limiting member 135, and the limiting gear 135a of the limiting member 135 is in clamping limiting fit with the slot 111 of the mounting housing 110, preferably, the limiting gear 135a of the limiting member 135 is provided with a notch 135b for deformation, when clamping is required, pressure is applied to the notch 135b to reduce the diameter of the limiting gear 135a so that the limiting gear 135a can be smoothly clamped into the slot 111, and when the clamping is required, pressure is continuously applied to the notch 135b to reduce the diameter of the limiting gear 135a so that the limiting gear 135a can be smoothly taken out of the; the mounting shaft 134 and the rolling shaft 131 or the limiting member 135 may be relatively rotatably connected, that is, when the mounting shaft 134 and the rolling shaft 131 are relatively rotatably connected, the mounting shaft 134 and the limiting member 135 are fixedly connected, and when the mounting shaft 134 and the limiting member 135 are relatively rotatably connected, the mounting shaft 134 and the rolling shaft 131 are fixedly inserted and matched, and a specific connection scheme may be selected by a person skilled in the art according to an actual design convention; specifically, in the present embodiment, the mounting shaft 134 is relatively rotatably inserted into the rolling shaft 131, the mounting shaft 134 is fixedly connected to the limiting member 135, and a limiting snap spring 136 is added at an outer end of the mounting shaft 134 to prevent the mounting shaft 134 from moving in the axial direction; a clamping limiting disc 137 is installed at the other end of the rolling shaft 131 in a limiting mode, the outer end portion of the clamping limiting disc 137 is fixedly clamped and connected with a driving connecting shaft 138, the driving connecting shaft 138 is installed on the installation shell 110 in a relatively rotating mode through a bearing 139, and meanwhile a second belt wheel 153 is fixedly pressed on the driving connecting shaft 138 in a pressing mode; particularly preferably, in this embodiment, the clamping limiting disc 137 adopts a conical surface clamping groove limiting surface, and the other end of the rolling shaft 131 is provided with an inverted conical surface clamping groove 131a in limiting clamping connection with the conical surface clamping groove limiting surface; the rolling shaft 131 mounting structure provided by the embodiment does not adopt any threaded locking part, when the cleaning part of the cleaning roller 130 needs to be thoroughly cleaned or replaced, the limiting part 135 positioned at one end of the rolling shaft 131 can be directly taken out from the slot 111 of the mounting shell 110, the clamping limiting disc 137 positioned at the other end of the rolling shaft 131 is taken out from the rolling shaft 131, and then the quick assembly and disassembly are realized, and similarly, when the mounting structure needs to be mounted, the two ends of the rolling shaft 131 are respectively connected with the mounting shell 110 and the clamping limiting disc 137 in an installing manner, and the operation in the whole assembly and disassembly process is convenient and can be efficiently completed.

Preferably, referring to fig. 3 in combination with fig. 12, in the present embodiment, the collecting region 120 includes a collecting box 122 having a collecting cavity 121, the collecting box 122 is clamped in the mounting housing 110, the collecting box 122 is provided with a collecting inlet 123 communicating with the collecting cavity 121, the collecting inlet 123 is disposed around the centrifugal force tangential outlet 140, and the directional and sufficient collecting effect on the garbage can be sufficiently ensured.

In order to facilitate the maintenance and cleaning operation of the collection box 122, in the present embodiment, the collection box 122 includes a collection box base 122a clamped in the mounting housing 110 and a collection box cover 122b having a handle 124, and the collection box base 122a and the collection box cover 122b are connected to form a collection chamber 121; wherein, one side of the collecting box body base 122a is provided with a lower bending inclined plane 122c which is bent towards the lower side of the outer side; the inner surface of one side of the collecting box body cover plate 122b adopts an upper cambered surface 122d extending towards the inner side of the collecting box body cover plate, and the lower bent inclined surface 122c and the upper cambered surface 122d are mutually matched to form a collecting inlet 123, so that the garbage can be prevented from splashing everywhere when being thrown out from a centrifugal force tangent outlet, and the garbage can be accurately conveyed into the collecting cavity 121 of the collecting box body 122; in order to ensure the mounting effect of the collecting cassette base 122a in the mounting housing 110, the mounting housing 110 is provided with a housing bending slope 112 which is in guiding mounting cooperation with the lower bending slope 122 c.

In this embodiment, a structure of the mounting housing 110 is further proposed, which facilitates the mounting layout and the manufacturing, please further refer to fig. 3 and 8, the mounting housing 110 includes an upper mounting housing 110a and a lower mounting housing 110b integrally mounted and connected to form a layout space, the upper mounting housing 110a further engages with the centrifugal guiding mounting housing 110c, the centrifugal guiding mounting housing 110c is in clearance fit with the protection area 130b, and in order to prevent the garbage from forming a non-target centrifugal tangential outlet in the protection area 130b and being thrown out to cause a collection failure, the clearance between the centrifugal guiding mounting housing 110c and the protection area 130b is recommended not to exceed 15mm, and more preferably, recommended not to exceed 10 mm.

Referring to fig. 9 and 10, the driver of the present embodiment further includes a controller 154 for controlling the motor 151, the controller 154 is electrically connected to a power source, the power source may be a storage battery or an external power source electrically connected through a connection line, the driver further includes a switch for electrically connecting to a switch control, the switch control is a wired control and/or a wireless control, in the present embodiment, the power source is the storage battery 155, and the switch control is a combination of a wired control and a wireless control; more specifically, for convenience of use, the switch for controlling the driver is a pedal switch 156 mounted on the upper mounting housing 110a and controlled by wire, and a remote control switch (not shown) controlled by remote wireless remote control, and the specific electrical connection is common knowledge of those skilled in the art on the basis of the present application, and the embodiment will not be described in detail.

In order to achieve a more compact installation layout structure, please refer to fig. 9 and 10 as well, in this embodiment, the cleaning roller 130 is installed at the front end, the collection box 122 is installed at the middle part, and the motor 151, the storage battery 155 and the controller 154 are respectively installed at the rear end, wherein the motor 151 at the rear end is in transmission connection with one end of the cleaning roller 130 at the front end through a transmission belt assembly, the shapes of the upper installation shell 110a, the lower installation shell 110b and the centrifugal guide installation shell 110c are all designed adaptively according to the shape of the installation component, and meanwhile, for facilitating the processing and installation of the installation structure, a split installation structure is adopted for part of the installation structure of the upper installation shell 110a or the lower installation shell 110b, for example, the installation connecting plate 110d is fixedly installed on the lower installation shell 110b, and the installation connecting plate 110d can adapt to the layout installation of various functional structural components (including the motor 151 and the joint rotating part 430) inside the installation shell 110 However, these are all conventional technical choices that can be made by those skilled in the art according to the functional installation requirement of the embodiment, and the embodiment will not be described in too much for the sake of saving the specification space.

Referring further to fig. 11, preferably, in the present embodiment, the lower mounting shell 110b is mounted with a roller for displacement change of the cleaning tool 10 as a whole on the working surface, and the cleaning roller 130 is higher than the roller with the working surface as a uniform reference surface, the applicant suggests that the height difference is not more than 5mm, and through the whole displacement and bearing effect of the roller on the cleaning tool 10, not only can the abrasion of the cleaning roller 130 and the interference negative influence on the rolling drive caused by the friction contact of the cleaning roller 130 and the working surface be avoided, but also the rolling contact of the cleaning roller 130 on the working surface is not influenced, so as to achieve the cleaning effect; specifically, in the present embodiment, the lower mounting housing 110b is provided with rollers at the front end and the rear end, respectively, which cooperate with each other to form a reliable and stable fulcrum structure for displacement change of the grooming tool 10 on the working surface; particularly preferably, in the present embodiment, the lower mounting case 110b is mounted with a main roller 161 at the rear end and a sub roller 162 at the front end, wherein the main roller 161 includes two main roller units 161a, 161b arranged at intervals, each main roller unit 161a, 161b is rotatably mounted at the rear end of the lower mounting case 110b by a respective main roller mounting shaft, the sub roller 162 includes two sub roller units 162a, 162b arranged at intervals, each sub roller unit 162a, 162b is rotatably mounted in a mounting groove 163a, 163b at the bottom of the front end of the lower mounting case 110b by a respective sub roller mounting shaft, and the outer diameters of the sub roller units 162a, 162b are smaller than the outer diameters of the main roller units 161a, 161b, so as to be beneficial to adapt to the displacement action on the uneven working surface.

As shown in fig. 11 and 12, a protective protrusion 170 for assisting cleaning is further fixed at the bottom of the lower mounting housing 110b, and the protective protrusion 170 is in flexible contact with the working surface, so that the bottom of the lower mounting housing 110b is prevented from being in frictional contact with the working surface during the cleaning process; particularly preferably, the protective convex strip 170 is a convex strip mounting part 171 fixedly clamped at the bottom of the lower mounting shell 110b, the plane of the convex strip mounting part 171 does not protrude out of the lower mounting shell 110b, so that rigid friction between the convex strip mounting part 171 and the working surface is avoided, and an auxiliary cleaning brush strip 172 in flexible contact with the working surface is fixedly arranged on the convex strip mounting part 171 by adhering or other ways, and is made of flexible materials, and can be a fiber brush, a sponge brush or other flexible elastic brush strips; more preferably, the applicant suggests that the installation position of the protection rib 170 is arranged below the centrifugal tangential outlet 140 of the cleaning roller, which can further serve as a protection zone 130b, so as to effectively prevent the garbage from being thrown out to form a non-target centrifugal tangential outlet in the process of being conveyed to the centrifugal tangential outlet 140, which results in the omission of garbage collection.

Referring to fig. 1, fig. 2 and fig. 12, the present embodiment further provides a cleaning all-in-one machine 1 with highly efficient integrated complex function, which includes a cleaning tool for cleaning and a manual operating part 20, the manual operating part 20 is fixedly connected with the cleaning tool or can be relatively and swingably mounted, the cleaning tool is the cleaning tool 10 with highly efficient integrated complex function as described above in the present embodiment, and the cleaning method with highly efficient integrated complex functions as described above in this embodiment, preferably, in other embodiments of the present application, a button switch (not shown) mounted on the manual operation part 20 may be used as a switch for controlling the driver, so as to further meet the operation habits of various operators, and a known connection method may be directly used as the button switch structure and the electrical connection method thereof, which will not be described in detail in this embodiment.

Preferably, in this application, the spray assembly 30 can be mounted on the mounting housing or the manual operating portion 20 of the cleaning tool 10, or the spray assembly 30 can be mounted directly on the cleaning tool 10 without the manual operating portion 20, the spray assembly 30 includes a storage area 310 for storing water and/or cleaning liquid and a spray mechanism 320, the spray mechanism 320 can selectively spray the water and/or cleaning liquid onto the working surface by a mechanical pump or an electric pump, and in practical applications, an operator can determine whether the water and/or cleaning liquid needs to be sprayed onto the working surface through the spray assembly 30 according to the cleaning needs of the working surface.

It should be noted that the medium stored in the liquid storage area 310 according to the embodiment of the present application may be water, and may also be a cleaning liquid having a cleaning effect, where the water can effectively improve the problem of dust on the working surface during cleaning, and the cleaning liquid can help to clean the working surface with stubborn dirt or dirt, and this embodiment is not particularly limited thereto.

Preferably, in the present embodiment, the manual manipulation part 20 and the cleaning tool 10 are connected in a relatively swingable manner through the joint assembly 40, and the liquid spraying assembly 30 is mounted on the manual manipulation part 20, and the liquid spraying assembly 30 can swing relatively to the cleaning tool 10 through the joint assembly 40 for adjusting the liquid spraying angle, so that the requirement of a user for flexibly adjusting the liquid spraying angle can be greatly met, and the operation is convenient.

Particularly preferably, in the present embodiment, the liquid spraying mechanism 320 can selectively spray water and/or cleaning liquid onto the working surface through a mechanical pump, the mechanical pump can not only simplify the installation structure, but also further reduce the structural cost, and the following scheme is adopted in the preferred embodiment specifically adopted in this embodiment:

in this embodiment, referring to fig. 13, the liquid spraying mechanism 320 includes a pressure piston 321 connected to an external power component, a liquid storage cavity, and a nozzle 323 connected to the liquid storage cavity through a pipeline 320a (usually a hose), the liquid storage area 310 is selectively connected to the liquid storage cavity through the pipeline 320a through a pressure check valve, specifically, in this embodiment, the pressure check valve employs a water sealing sheet (not shown, available on the market directly), wherein the pressure piston 321 selectively injects pressure into the liquid storage cavity under the power of the external power component, so as to selectively enable the liquid storage cavity to suck water into the liquid storage area 310 or spray liquid to an external working surface through the nozzle 323; the liquid storage cavity comprises a liquid storage cavity 322a, a pressure injection port 322b matched with the pressure piston 321 in an installing mode, a water suction port 322c communicated with the liquid storage area 310, a water sealing sheet arranged at the water suction port 322c, and a liquid spraying port 322d communicated with the nozzle 323, wherein the pressure injection port 322b, the water suction port 322c and the liquid spraying port 322d are communicated with each other through the liquid storage cavity 322a, and the nozzle 323 is provided with a plurality of spraying ports for facilitating a spraying effect; further preferably, referring to fig. 14, in the present embodiment, the liquid storage area 310 includes a water storage box 312 having a water outlet 311, a packaging valve 313a is disposed at the water outlet 311, the water storage box 312 is mounted on a water storage box mounting base 315 selectively communicating with the liquid storage cavity through a screw 314 fitting structure, the water storage box mounting base 315 is provided with a valve core 313b for opening the packaging valve 313a, the valve core for opening the packaging valve 313a is a protruding structure, the packaging valve 313a is a water sealing plug (which is directly available from the market and has a structure shown in the figure but is not described in detail in text) pressed by a compression spring, the structure can ensure that the water storage box 315 is always in a communicating state with the liquid storage cavity when the water storage box 312 is inversely mounted on the water storage box mounting base 315, and once the water storage box 315 is taken out, the water sealing plug of the water storage box 315 is no longer subjected to the acting force of the protruding structure, the water outlet 311 of the water storage box 312 is immediately closed, so that the problem of sprinkling when the water storage box 312 is taken out is avoided.

Further preferably, in the present embodiment, the external power member for providing power to the pressure piston 321 comes from the structure of the manual operation part 20, and the specific embodiment is as follows: referring to fig. 2 and 15 in combination, the manual operating part 20 includes a control housing assembly 210 which is relatively and swingably mounted and connected to the mounting housing 110 of the cleaning tool 10, and particularly, in order to facilitate quick assembly and disassembly, in this embodiment, the control housing assembly 210 includes an upper sleeve 211, a connecting sleeve 212 and a spray assembly mounting part 213 which are communicated with each other and are separately mounted and connected as a whole, wherein the upper sleeve 211 is provided with a pressing handle assembly 220, and further referring to fig. 16, 17 and 18, the pressing handle assembly 220 includes a mounting handle 223 inserted into the upper sleeve 211 and a pressing handle 221 relatively rotatably mounted on the mounting handle 223, and a torsion spring (not shown) is mounted at a rotation fulcrum of the pressing handle 221, and a pressing limit part 221a of the pressing handle 221 is connected with an end of the control link 230 in a limit fit manner, the operating link 230 is sleeved in the upper sleeve rod 211 and extends into the spray assembly mounting part 213 after penetrating and connecting the sleeve rod 212; liquid spraying assembly mounting part 213 is connected with mounting shell 110 of cleaning tool 10 in a relatively swinging way, and water storage box 312 and water storage box mounting base 315 are simultaneously mounted in mounting groove 213a of liquid spraying assembly mounting part 213, so as to facilitate quick disassembly and assembly maintenance of liquid spraying assembly 30; while the liquid ejection mechanism 320 is mounted inside the liquid ejection assembly mounting portion 213, a pressure piston 321 is connected to the lower end portion of the manipulation link 230.

For convenience of manufacturing, installation and appearance, it is preferable that the operating link 230 is a multi-segment link unit type connecting structure (shown in the figure), the pressing handle 221 is relatively rotatably installed on the upper loop bar 211 through the pressing rotating shaft 222, and the end of the pressing handle 221 and the periphery of the pressing rotating shaft 222 can be respectively provided with a protective cover 224a, 224b with a matching shape, which is beneficial to the appearance of the structure.

In the practical use process of the embodiment, when liquid spraying is needed, an upward pressing action is applied to the action of the pressing handle 221 manually, the pressing pressure is transmitted to the operating connecting rod 230, the operating connecting rod 230 receives the pressing force and then drives the pressure piston 321 to move downwards in the liquid storage cavity so as to inject pressure into the liquid storage cavity, under the pressure action of the liquid storage cavity 322a, the water sealing sheet communicated with the liquid storage cavity 322a is closed, so that the communication path between the liquid storage cavity and the liquid storage area 310 is closed, and simultaneously, after a liquid spraying port 322d communicated with the liquid storage cavity 322a receives the pressure, water and/or cleaning liquid is sprayed to an external working surface through a nozzle 323 communicated with the liquid storage cavity; when the pressing action is not applied to the action of the pressing handle 221 manually, the pressing handle 221 resets downwards under the reset acting force of the torsion spring, so that the operating connecting rod 230 and the pressure piston 321 reset, the liquid storage cavity does not receive the injection pressure from the pressure piston 321, the pressure of the water sealing sheet is released, a communication path between the liquid storage cavity and the liquid storage area 310 is opened, the liquid storage cavity absorbs water to the liquid storage area 310 to realize a water storage function, and the water absorption action is stopped until the liquid storage cavity is filled with liquid; therefore, the liquid spraying mechanism 320 provided by the embodiment uses a mechanical pump structure to realize the selective liquid spraying function, and has a compact installation structure, convenient and reliable liquid spraying operation and low cost.

Preferably, the present embodiment further provides a preferred joint assembly 40, please refer to fig. 19, 20 and 21, which includes a joint head 410, the joint head 410 is fixedly installed and connected with the hydrojet assembly installation part 213 as a whole, and both sides of the joint head 410 are respectively and relatively rotatably installed on the installation housing 110, the manual manipulation part 20 can swing in the front-back and left-right directions relative to the installation housing 110 through the joint head 410, the installation structure of the joint head 410 is not only simple, but also the angle of the manual manipulation part 20 can be adjusted in real time according to the actual cleaning requirement when the present embodiment is used, so as to increase the convenience of use; in this embodiment, the joint head 410 includes a joint engaging portion 420 and a joint rotating portion 430, wherein the joint engaging portion 420 is engaged with the liquid spraying assembly mounting portion 213 for mounting and matching, and two sides of the joint rotating portion 430 are respectively mounted on the mounting housing 110 for relative rotation, so as to realize the swinging of the manual manipulation portion 20 relative to the cleaning tool 10 in the front and rear directions; the joint engaging portion 420 is rotatably engaged with the joint rotating portion 430, so that the manual manipulating portion 20 swings in the left-right direction with respect to the cleaning tool 10.

Further preferably, in the present embodiment, the joint engaging portion 420 and the liquid spraying assembly mounting portion 213 are engaged and fitted in a slot-and-tooth type engagement (shown in the drawings), please further refer to fig. 22, two sides of the joint rotating portion 430 are respectively and relatively rotatably mounted in a limiting groove formed by the upper mounting shell 110a and the lower mounting shell 110b, and the limiting groove is formed by an upper limiting half groove 431a of the upper mounting shell 110a and a lower limiting half groove 431b of the mounting connection plate 110 d; the joint head 410 further comprises a locking block 440, the joint rotating part 430 is provided with a mounting clamping groove 432 in clamping fit with the locking block 440, the joint clamping part 420 is inserted into the joint rotating part 430, the locking block with the locking member 440 is mounted and locked in the up-down direction, and the locking block 440 does not generate any limiting force on the circumferential rotation of the joint clamping part 420 in the joint rotating part 430; in order to ensure that the joint clamping portions 420 can rotate relatively in the joint rotating portions 430, meanwhile, the end portions of the joint clamping portions 420 are provided with the rotating sliding grooves 421, the joint rotating portions 430 are provided with the rotating sliding tables 433, the rotating sliding grooves 421 can rotate relatively on the rotating sliding tables 433, and the angle ranges of the rotating sliding grooves 421 can be specifically set according to the requirement of the swing amplitude in the left and right direction actually required by the manual operation portion 20, the applicant suggests that the rotating angle ranges of the rotating sliding grooves 421 should not exceed 90 °; of course, in other embodiments, it is possible to select to provide a rotating sliding table at the end of the joint clamping portion 420, and to provide a rotating sliding chute corresponding to the rotating sliding table at the joint rotating portion 430, which all belong to the variation examples that can be made by those skilled in the art on the basis of the embodiments of the present application, and all belong to the practical scope of the present application.

Further preferably, in the present embodiment, the mounting case 110 is mounted with a lower rotation limiting portion and an upper rotation limiting portion for controlling the range of the rotation range of the joint rotation portion 430, thereby effectively controlling the swing range of the manual manipulation portion 20 in the front and rear directions; the upper mounting shell 110a is provided with a lower rotation limiting part for controlling the swing amplitude range of the manual operation part 20, the lower rotation limiting part adopts a lower limiting ring 451 integrally connected with the upper mounting shell 110a, the lower limiting ring 451 is not only used for lower rotation limiting of the joint rotation part 430, but also has a good bearing function on the manual operation part 20, and in order to further ensure the bearing effect, the mounting connection plate 110d is provided with a reinforcing limiting ring 451a locked and reinforced with the lower limiting ring 451;

referring to fig. 23 in combination with fig. 12, the joint rotation portion 430 is provided with a joint limiting protrusion 452, and the upper rotation limiting portion adopts an elastic limiting block assembly 460; the elastic limiting block assembly 460 includes a mounting block 461 fixedly mounted on the mounting connection plate 110d, a mounting limiting protrusion 462 selectively and limitedly engaged with the joint limiting protrusion 452 is disposed at the upper end of the mounting block 461, and a compression spring 463 is sleeved on the periphery of the mounting block 461, wherein in actual use, the joint limiting protrusion 452 selectively and limitedly engages with the mounting limiting protrusion 462 through the rotation of the joint rotation portion 430, so as to limit the upward swing angle of the manual operation portion 20.

Referring to fig. 24 in combination with fig. 12, it is further preferable that a travel switch 157 for controlling the start or stop of the driver is installed in the installation housing 110, the joint rotation part 430 is provided with a travel limit protrusion 453, and the travel limit protrusion 453 can selectively contact with a contact protrusion 157a of the travel switch 157 by the rotation of the joint rotation part 430; meanwhile, after the joint rotating portion 430 can overcome the limiting force (elastic deformation) of the elastic limiting block assembly 460, the travel limiting protrusion 453 contacts with the contact protrusion 157a of the travel switch 157, so that the driver stops driving, meanwhile, the joint clamping portion 420 continues to swing upwards to be clamped with the clamping portion of the upper mounting shell 110a, in order to facilitate the processing and manufacturing of the upper mounting shell 110a, the clamping plate 113 is fixedly mounted on the upper mounting shell 110a, and the clamping plate 113 is matched with the clamping teeth 422 on the periphery of the joint clamping portion 420 in a limiting and clamping manner.

In the practical use process of the present embodiment, when the manual operation portion 20 needs to swing in the front-back direction, the manual operation portion 20 directly swings forward or backward, the manual operation portion 20 drives the joint rotation portion 430 to rotate by a corresponding amplitude through the joint clamping portion 420, and since the joint rotation portion 430 is correspondingly provided with the lower rotation limiting portion and the upper rotation limiting portion, the maximum rotation stroke of the joint rotation portion 430 is limited; when the manual manipulation part 20 needs to swing in the left-right direction, the manual manipulation part 20 directly swings left or right, the manual manipulation part 20 directly drives the joint clamping part 420 to rotate in the joint rotation part 430 by a corresponding amplitude, and the maximum rotation stroke of the joint clamping part 420 is limited by limiting and matching the rotation sliding chute and the rotation sliding table; further, after the use of the present embodiment is finished, the operator can swing the manual operation part 20 forward, overcome the limiting force of the elastic limiting block assembly 460, and trigger the travel switch 157, so that the driver stops working, and position the manual operation part 20 on the clamping plate 113, and through a specific structural design, more intelligent and convenient management is achieved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single technical solution, and such description of the present description is for clarity reasons only, and those skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments that those skilled in the art can understand: specifically, those skilled in the art will appreciate that the solution spraying assembly 30 proposed in the present application is not only suitable for applying the cleaning all-in-one machine 1 with highly efficient integrated complex function proposed in the present application, but also can be applied to any product with cleaning effect in the prior art with spraying requirement, and these variations can be applied without creative effort to obtain similar spraying technical effect in the present application.

It should also be understood by those skilled in the art that the structure of the joint assembly 40 provided in the present application is not only suitable for the cleaning all-in-one machine 1 with high-efficiency integrated complex function provided in the present application, but also can be applied to any product with cleaning effect in the prior art requiring the connection of the cleaning tool and the manual operation part, and these changes can be applied in combination without creative work relative to the present application, and can obtain the similar technical effect of the joint connection provided in the present application.

Claims (10)

1. A joint component of a cleaning all-in-one machine, the cleaning all-in-one machine comprises a cleaning tool for cleaning and a manual operation part, the manual operation part is connected with the cleaning tool in an installing mode through the joint component, the cleaning tool comprises an installing shell, and the joint component is characterized by comprising a joint head; joint head includes joint portion and joint rotation portion, wherein, joint portion with the cooperation is installed to tip joint under the manual control portion, joint rotation portion both sides are installed relatively rotatably respectively on the installation casing, just joint portion cup joints relatively and installs on the joint rotation portion.

2. The joint assembly of the all-in-one cleaning machine as claimed in claim 1, wherein the joint head comprises a locking block, the joint rotating part is provided with a mounting clamping groove matched with the locking block in a clamping manner, and the joint clamping part is rotatably sleeved on the joint rotating part through the locking block.

3. The joint assembly of the cleaning all-in-one machine as claimed in claim 1 or 2, wherein a rotation sliding groove or a rotation sliding table is arranged at the end of the joint clamping portion, a rotation sliding table or a rotation sliding groove is correspondingly arranged on the joint rotation portion, and the joint clamping portion realize relative rotation through sliding fit between the rotation sliding groove and the rotation sliding table.

4. The joint assembly of the all-in-one cleaning machine according to claim 1, wherein the mounting shell is provided with a lower rotation limiting part and/or an upper rotation limiting part for controlling the range of rotation amplitude of the joint rotating part.

5. The joint component of the cleaning all-in-one machine as claimed in claim 4, wherein the upper rotation limiting part adopts an elastic limiting block component, the joint rotation part is provided with a joint limiting part, and the joint limiting part can be selectively in limiting fit with the elastic limiting block component through rotation to limit the upper rotation angle of the joint rotation part.

6. The joint assembly of the all-in-one cleaning machine as claimed in claim 5, wherein the elastic limiting block assembly comprises a mounting block mounted on the mounting shell, a mounting limiting protrusion selectively matched with the joint rotating part in a limiting manner is arranged at the upper end of the mounting block, and a compression spring is sleeved on the periphery of the mounting block.

7. The joint assembly of the all-in-one cleaning machine according to claim 5, wherein the cleaning tool comprises a driver installed in a mounting shell, the driver is used for driving the cleaning tool to perform cleaning work, a travel switch used for controlling the driver to start or stop is installed on the mounting shell, the joint rotating part is provided with a travel limiting part, and the travel limiting part can be selectively contacted with a contact of the travel switch through rotation.

8. The joint assembly of the all-in-one cleaning machine according to claim 7, wherein the joint rotating part can overcome the limiting force of the elastic limiting block assembly, so that the stroke limiting part is contacted with the contact of the stroke switch and clamped with the clamping part of the mounting shell.

9. An all-in-one cleaning machine, which comprises a cleaning tool for cleaning and a manual operation part, wherein the manual operation part is connected with the cleaning tool in a mounting way through a joint component, and the joint component is the joint component according to one of claims 1-8.

10. The cleaning machine as claimed in claim 9, wherein the manual manipulation part is provided with a liquid spraying assembly, and the liquid spraying assembly can relatively swing relative to the cleaning tool through the joint head for adjusting a liquid spraying angle.

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