CN215457784U

CN215457784U - Multifunctional mop cleaning device's separation structure of decontaminating

Info

Publication number: CN215457784U
Application number: CN202120884019.2U
Authority: CN
Inventors: 贾兴行
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-27
Filing date: 2021-04-27
Publication date: 2022-01-11
Anticipated expiration: 2031-04-27

Abstract

The utility model provides a cleaning and separating structure of a multifunctional mop cleaning device, which comprises: the mop squeezing device comprises a barrel body, a water supply mechanism and a squeezing mechanism, wherein a cleaning cavity for cleaning or dehydrating a mop is formed in the barrel body; the water supply mechanism is arranged in the barrel body and used for cleaning the water discharged from the mop and dehydrating the mop; the extrusion mechanism is arranged on one side of the cleaning cavity; the mop can slide up and down in the cleaning cavity, when the mop is close to one side in the barrel body, the water supply mechanism leads the mop to clean water, and the squeezing mechanism synchronously realizes mop dehydration; when the mop is close to the other side in the barrel body, the water supply mechanism stops supplying water, and the squeezing mechanism realizes mop dehydration. The dirt removing and separating structure of the multifunctional mop cleaning device can realize automatic water outlet of a mop, is convenient to operate and use by a user, can automatically separate clear water from sewage, can freely switch a cleaning or dewatering state, and has a simple internal structure and a better use effect.

Description

Multifunctional mop cleaning device's separation structure of decontaminating

Technical Field

The utility model relates to the technical field of cleaning tools, in particular to a dirt removing and separating structure of a multifunctional mop cleaning device.

Background

Cleaning is a task that must be performed in everyday life, and how to make cleaning effective and quick is the development direction of cleaning tools today. The flat mop comprises a mop rod and a flat mop head which are hinged together, and the flat mop wiper is fixed on the flat mop head in a sleeving, sticking or buckling mode; when in use, the wiping materials on the flat mop can be completely attached to the ground, so that the ground is very convenient to clean; in addition, the wiping materials can be conveniently taken down or placed in the barrel for cleaning during cleaning, so that the flat mop is favored by people, but the operation convenience of the flat mop and the cleaning of the flat mop are always difficult to produce.

Mop cleaning is mostly carried out by utilizing a clear water area in the cleaning and dewatering of the flat mop in the market, after the cleaning is finished, a wringing mechanism is arranged on a mop rod, and the wringing and cleaning of the wiping matters on the flat mop are realized through the relative squeezing movement between the wringing mechanism and the flat mop; in addition, the water scraping strip of the water squeezing device is directly arranged in the barrel, dirt on the mop head is removed while water is squeezed and scraped, the decontamination effect is improved, the gap between the water scraping strip and the mop head is changed by sliding of the sliding chute, the use is convenient and labor-saving, and the simple mop has a simple structure and is economical and practical; however, in the process of implementing the technical solution of the utility model in the embodiment of the present application, the inventor of the present application finds that the above-mentioned technology has the following technical problems: at present, two steps of cleaning and dewatering are often all required to be completed to the flat mop on the market to thoroughly clean the effect, and the problem brought about is that, the user elution process is loaded down with trivial details, and the use is wasted time and energy, and the water in clear water district can not guarantee thorough cleanness, and repetitious usage easily becomes sewage, can not guarantee the separation to clear water and sewage, and inside structure setting is more complicated.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model aims to solve the technical problem of providing a dirt removing and separating structure of a multifunctional mop cleaning device, which can realize free switching between cleaning and wringing, realize automatic water outlet cleaning, synchronous cleaning and dehydration, automatic separation of clear water and sewage, simple structure and more convenient operation and use for users.

(II) technical scheme

In order to solve the technical problem, the utility model discloses a dirt-removing and separating structure of a multifunctional mop cleaning device, which comprises: a barrel body which is provided with a cleaning cavity for cleaning or dewatering the mop; the water supply mechanism is arranged in the barrel body and used for cleaning the mop after water is discharged; the squeezing mechanism is arranged on one side of the cleaning cavity and used for dewatering the mop; the mop can slide up and down in the cleaning cavity, when the mop is close to one side in the barrel body, the water supply mechanism leads the mop to clean water, and the squeezing mechanism synchronously realizes the dehydration of the mop; when the mop is close to the other side in the barrel body, the water supply mechanism stops supplying water, the squeezing mechanism realizes the dehydration of the mop, and the water supply mechanism comprises: drive assembly and play water component, the mop when wasing with drive assembly cooperation drives it realizes water spray cleaning to go out the water component, it sets up to go out the water component wash the intracavity, it includes: water pump, inhalant canal and exhalant canal utilize the water pump goes out water, and inner structure sets up rationally, drive assembly connects the drive the water pump work, inhalant canal sets up wash the intracavity, exhalant canal is connected with squeezing mechanism, and the setting of this structure can pass through the upper and lower activity of mop drives thereby drive assembly drives exhalant canal realizes going out water, realizing automatic play water among the mop cleaning process makes the mop can realize wasing and dewater and go on in step, saves user's live time, avoids wasing earlier in the past and washs the district again and dewaters, and user operation uses more conveniently, and inner structure sets up simply.

Further, it is provided with the backup pad to wash the intracavity, the water pump is installed in the backup pad, inhalant canal arranges in the below of backup pad, exhalant canal arranges in the top of backup pad sets up the backup pad can be guaranteed clear water in the barrel goes out water more thoroughly, simultaneously can clear water below the backup pad plays certain filtering action, makes the cleaning performance better.

Furthermore, the squeezing mechanism comprises a guide plate arranged on the barrel body, a water storage plate is arranged in one side of the guide plate, a water outlet connecting column is arranged on the water storage plate and connected with the water outlet channel, water pumped out by the water outlet assembly can reach the water storage plate and be sprayed onto the mop through the guide plate, the whole structure is reasonable, the water outlet effect is better, and the internal structure is simple to set.

Further, be formed with play water portion and water conservancy diversion portion on the guide plate, the sealed buckle setting of water storage plate is in the play water portion, water conservancy diversion portion is used for clear water conservancy diversion to wash the mop, water storage plate with be formed with out the basin between the guide plate, water in the passageway of intaking passes through it flows extremely to go out in the basin to go out the water spliced pole, the setting of this structure can prevent that water from following the water storage plate flows out, the setting of going out the basin can satisfy large-traffic cleaning performance, guarantees right the cleaning dehydration effect of mop, and can reduce occupation of inner space, make holistic structure and rivers passageway set up more rationally.

Furthermore, one side of the flow guide part, which is close to the water storage plate, is provided with a plurality of water outlet holes, and the water outlet holes are communicated with the water outlet part; the downside of water conservancy diversion portion is provided with a plurality of waist type water conservancy diversion hole, waist type water conservancy diversion hole is close to the apopore setting and be used for the sewage water conservancy diversion after the mop washs, water outlet portion is "L" type, and the setting of this structure utilizes the apopore goes out water, guarantees right the washing of mop side wiper is more even, the water flow can be guaranteed in setting up in waist type water conservancy diversion hole, avoids because the flow is too big to spill over, can play the water conservancy diversion effect to the sewage after wasing the completion simultaneously.

Further, the transmission assembly is disposed at one side in the barrel body, and the transmission assembly includes: a transmission gear and an output gear, wherein the transmission gear is matched with the mop, the output gear is connected with the water outlet assembly, the mop drives the water outlet component to work through the transmission gear and the output gear, the barrel body is provided with a gear cover plate, the transmission gear and the output gear are arranged in the gear cover plate, one side of the transmission gear is provided with a driving gear, the driving gear is meshed with the rack on the mop to drive the transmission gear to rotate, the arrangement of the structure can play a role of protection through the gear cover plate, the driving gear and the mop can be matched to synchronously drive the transmission assembly to work for water outlet through the up-and-down movement of a user during the mop, the transmission assembly is simple in internal structure, the transmission precision is higher through gear meshing transmission, and meanwhile, the water outlet quantity can be controlled more accurately.

Further, one side of output gear is provided with link assembly, output gear passes through link assembly drive the water pump work of water outlet assembly, the actuating lever, the one end of actuating lever is rotated and is provided with the connecting rod, the one end of connecting rod with the water pump of water outlet assembly is connected the drive, link assembly includes: the water pump is characterized by comprising a driving rod and a connecting rod, wherein one end of the driving rod is arranged on the output gear in a limiting mode, the other end of the driving rod is connected with the connecting rod, the other end of the connecting rod is connected with the water pump to drive, the structure is arranged and utilized, the connecting rod assembly can be arranged to guarantee the driving effect on the water pump, the water outlet work is guaranteed, and meanwhile the phenomenon that the water outlet flow is too large can be avoided.

Furthermore, a bevel gear is arranged between the driving gear and the transmission gear, the bevel gear is matched with the inner teeth of the transmission gear and used for controlling the one-way transmission output of the transmission gear, one side of the gear cover plate is provided with a roller used for limiting the mop, the roller corresponds to the driving gear, one side of the mop is meshed with the driving gear through the rack, the other side of the mop is matched with the roller in a rolling manner, the bevel gear is matched with the inner teeth to realize the one-way rotation of the gear so as to ensure that the mop stops water outlet when the barrel body falls off, in addition, the roller and the driving gear can be limited by the arrangement of the mop, the mop is ensured to be matched with the transmission assembly, and the water outlet of the water outlet assembly is more stable.

Further, the squeezing mechanism is arranged on the water scraping plate below the guide plate in a movable mode, one side of the water scraping plate is close to the mop and is provided with a water scraping portion, the water scraping portion is used for squeezing and dewatering the mop, a sewage groove is formed in the water scraping plate and corresponds to a waist-shaped water guide hole in the guide plate, the water scraping plate can achieve dewatering and decontamination effects of the mop, sewage guide can be achieved through the arrangement of the sewage groove, sewage flow is avoided, and the arrangement of the inner structure is more reasonable in the clean water area and the barrel body.

Further, the wash chamber includes: clear water district and sewage district, it arranges in to go out the water subassembly be used for the clear water to go out in the clear water district, the sewage district with extrusion mechanism corresponds and is used for the sewage holding, the lower extreme of wiper blade is provided with sewage water conservancy diversion post, sewage water conservancy diversion post switches on with the sewage district, the downside slant of wiper blade is provided with the guide pillar, the guide pillar with guide way cooperation on the staving, clear water and sewage separation can be realized in the setting of this structure, sewage water conservancy diversion post can with the sewage water conservancy diversion that extrudes extremely in the sewage district to convenience of customers discharges, holistic structure sets up rationally, and user operation is simple to use, need not to carry out the clear water in addition and discharges, uses laborsavingly more.

Further, be provided with the mounting panel on the staving, extrusion mechanism sets up on the mounting panel, drive assembly sets up one side of mounting panel corresponds on the mounting panel the washing chamber is provided with the water filling port, one side of staving is provided with the outlet, the washing tank has been seted up on the mounting panel, the mop is arranged in activity about in the washing tank realizes wasing and the dehydration, and the setting of this structure reduces the inner space and occupies, the water filling port with the setting convenience of customers of outlet adds clear water and sewage discharge, uses the operation laborsaving convenience more.

Further, be provided with stopper and guide pulley on the mounting panel, the stopper with the guide pulley respectively with the spacing groove cooperation of both sides on the mop, the spacing groove with rack on the mop corresponds, the rack sets up the outside of spacing groove, and the setting of this structure utilizes rack setting on the mop with the drive gear cooperation realizes drive assembly's drive effect, the setting of spacing groove can convenience of customers carry out independently to switch over washing and dehydration, satisfies diversified user demand.

(III) advantageous effects

Compared with the prior art, the multifunctional mop cleaning device has the advantages that: holistic simple structure, can realize that the mop activity drives out water and washs, can satisfy the free switching of user's washing and dehydration, and can realize the autosegregation of clear water sewage in the staving, user operation uses more conveniently, through being provided with drive assembly and play water assembly, utilize the cooperation of drive assembly and mop to realize wasing the automatic play water realization of play water assembly, the rack cooperation convenience of customers on the drive assembly of setting and the mop washs or the free switching of dehydration, holistic function is more comprehensive, the play water assembly that sets up in clear water district can satisfy clear water play water and washs the mop, utilize extrusion mechanism to sewage water conservancy diversion to sewage district after the extrusion, realize inside separation of decontaminating, guarantee user's result of use.

Drawings

FIG. 1 is a perspective view of a first embodiment of a dirt-removing and separating structure of a multi-functional mop cleaning apparatus according to the present invention;

FIG. 2 is a side perspective view of a first embodiment of a dirt separation structure of the multi-function mop cleaning apparatus of the present invention;

FIG. 3 is an exploded view of a first embodiment of a dirt-removing and separating structure of the multifunctional mop cleaning apparatus according to the present invention;

FIG. 4 is a top view of a first embodiment of a dirt separation structure of the multi-function mop cleaning apparatus of the present invention;

FIG. 5 is a sectional view showing an example of a dirt-removing and separating structure of the multi-functional mop cleaning apparatus according to the present invention;

FIG. 6 is a perspective view of a squeezing mechanism and a water outlet assembly according to an embodiment of the dirt separating structure of the multifunctional mop cleaning device of the present invention;

FIG. 7 is a schematic structural view of a squeezing mechanism and a water outlet assembly according to an embodiment of a dirt separating structure of the multifunctional mop cleaning device of the present invention;

FIG. 8 is a schematic structural view of a driving mechanism and a water outlet assembly of an embodiment of a dirt separation structure of the multifunctional mop cleaning device of the present invention;

FIG. 9 is a schematic structural view of a deflector according to an embodiment of the dirt separation structure of the multifunctional mop cleaning apparatus of the present invention;

FIG. 10 is a schematic view of a water storage plate according to an embodiment of the dirt separation structure of the multifunctional mop cleaning apparatus of the present invention;

FIG. 11 is a schematic structural view of a wiper blade according to an embodiment of the dirt-removing and separating structure of the multifunctional mop cleaning apparatus of the present invention;

FIG. 12 is a perspective view of a second embodiment of a dirt separation structure of the multi-function mop cleaning apparatus of the present invention;

FIG. 13 is a side perspective view of a second embodiment of the dirt separation structure of the multi-function mop cleaning apparatus of the present invention;

FIG. 14 is an exploded view of a second embodiment of a dirt-removing and separating structure of the multi-functional mop cleaning apparatus according to the present invention;

FIG. 15 is a sectional view showing a second embodiment of a dirt-removing and separating structure of the multi-functional mop cleaning apparatus according to the present invention;

FIG. 16 is a schematic structural view of a driving assembly of the first and second embodiments of the dirt separation structure of the multi-functional mop cleaning apparatus according to the present invention;

FIG. 17 is a schematic structural view of a water outlet assembly and a supporting plate of a second embodiment of a dirt separation structure of the multifunctional mop cleaning apparatus of the present invention;

FIG. 18 is a perspective view of a second embodiment of a dirt-removing and separating structure of the multifunctional mop cleaning apparatus of the present invention, with the water outlet assembly and the support plate facing upward;

wherein: 1 is a barrel body, 101 is a mounting plate, 2 is a mop, 201 is a rack, 202 is a limit groove, 3 is a cleaning cavity, 301 is a clear water area, 302 is a sewage area, 5 is a transmission component, 501 is a transmission gear, 511 is an internal tooth, 502 is an output gear, 6 is a water outlet component, 601 is a water pump, 602 is a water inlet channel, 603 is a water outlet channel, 7 is an extrusion mechanism, 701 is a guide plate, 711 is a water outlet part, 721 is a guide part, 702 is a water scraping plate, 712 is a water scraping plate, 722 is a sewage groove, 8 is a support plate, 9 is a water storage plate, 901 is a water outlet connecting column, 10 is a water outlet groove, 11 is a water outlet hole, 12 is a kidney-shaped guide hole, 13 is a driving gear, 14 is a connecting rod component, 1401 is a driving rod, 1402 is a connecting rod, 15 is a helical gear, 16 is a sewage guide column, 17 is a guide column, 18 is a guide groove, 19 is a water inlet, 20 is a water outlet, 21 is a cleaning groove, 22 is a limit block, 23 is a clear water outlet, 24 is a roller, 25 is a gear cover plate.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

Example one

Referring to fig. 1 to 11, a dirt-removing separating structure of a multifunctional mop cleaning apparatus includes: the mop bucket comprises a bucket body 1, a water supply mechanism and a squeezing mechanism 7, wherein a cleaning cavity 3 for cleaning or dewatering the mop 2 is formed in the bucket body 1; the water supply mechanism is arranged in the barrel body 1 and used for cleaning the mop 2 by discharging water, and the squeezing mechanism 7 is arranged at one side of the cleaning cavity 3 and used for dehydrating the mop 2; the mop 2 can slide up and down in the cleaning cavity 3, when the mop 2 is close to one side in the barrel body 1, the water supply mechanism leads the mop 2 to clean water, and the squeezing mechanism 7 synchronously realizes the dehydration of the mop 2; when mop 2 is close to 1 interior opposite side of staving, water supply mechanism stops supplying water, and extrusion mechanism 7 realizes 2 dehydrations of mop, and water supply mechanism includes: drive assembly 5 and play water subassembly 6, mop 2 drives out water subassembly 6 with drive assembly 5 cooperation when wasing and realizes water spray cleaning, goes out water subassembly 6 and sets up in washing chamber 3, and washing chamber 3 includes: clear water district 301 and sewage district 302, it is used for the clear water to go out water subassembly 6 arranges in clear water district 301 in, sewage district 302 corresponds with extrusion mechanism 7 and is used for the sewage holding, clear water and sewage separation can be realized, wherein clear water district 301 can set up the top at sewage 302, or clear water district 301 sets up the left and right sides at sewage district 302, or clear water district 301 sets up both sides around sewage district 302, sewage water conservancy diversion post 16 can be with the sewage water conservancy diversion that extrudes to sewage district 302 in, thereby convenience of customers discharges, holistic structure sets up rationally, user operation simple to use, need not to carry out the clear water in addition and discharges, use laborsaving more, it includes to go out water subassembly 6: water pump 601, water inlet channel 602 and exhalant canal 603, drive assembly 5 connects and drives water pump 601 work, water inlet channel 602 sets up in wasing chamber 3, exhalant canal 603 is connected with squeezing mechanism 7, thereby it realizes out water to drive exhalant canal 6 through mop 2's upper and lower activity drive assembly 5, realize the automatic play water of mop 2 cleaning process, make the mop realize wasing and the dehydration go on in step, save user's live time, avoid earlier wash district wash in the past and then the sewage district dehydration, user's operation is more convenient, the inner structure sets up simply.

Referring to fig. 6, 7, 8 and 9, the squeezing mechanism 7 includes a guide plate 701 disposed on the barrel body 1, a water storage plate 9 is disposed in one side of the guide plate 701, a water outlet connection column 901 is disposed on the water storage plate 9, the water outlet connection column 901 is connected with the water outlet channel 603, a water outlet portion 711 and a water guide portion 721 are formed on the guide plate 701, the water storage plate 9 is disposed in the water outlet portion 711 in a sealing manner, the water guide portion 721 is used for guiding clean water to wash the mop 2, water pumped out by the water outlet assembly 6 can reach the water storage plate 9 and be sprayed onto the mop 2 through the guide plate 701, the overall structure is reasonable, the water outlet effect is better, and the internal structure is simple to set.

Referring to fig. 6, 7, 9 and 10, the squeezing mechanism 7 further includes a wiper plate 702 movably disposed below the flow guide plate 701, one side of the wiper plate 702 is close to the mop 2 and is provided with a wiper portion 712, the wiper portion 712 is used for squeezing and dewatering the mop 2, a sewage groove 722 is formed on the wiper plate 702, the sewage groove 722 corresponds to the kidney-shaped flow guide hole 12 on the flow guide plate 701, a sewage flow guide pillar 16 is disposed at the lower end of the wiper plate 702, the sewage flow guide pillar 16 is communicated with the sewage area 302, a guide pillar 17 is obliquely disposed at the lower side of the wiper plate 702, the guide pillar 17 is matched with a guide groove 18 on the bucket body 1, a dewatering and dirt removing effect can be achieved on the mop 2 by using the wiper plate 702, sewage flow guide can be performed by the arrangement of the sewage groove 722, sewage is prevented from flowing into the clean water area and the bucket body 1, and the arrangement of the internal structure is more reasonable.

Referring to fig. 9 and 10, a water outlet groove 10 is formed between the water storage plate 9 and the flow guide plate 701, water in the water inlet channel 602 flows into the water outlet groove 10 through the water outlet connection column 901, one side of the flow guide part 721 close to the water storage plate 9 is provided with a plurality of water outlet holes 11, and the water outlet holes 11 are communicated with the water outlet part 711; the downside of water conservancy diversion portion 721 is provided with a plurality of waist type water conservancy diversion hole 12, waist type water conservancy diversion hole 12 is close to apopore 11 and sets up and is used for the sewage water conservancy diversion after mop 2 washs, it is "L" type to go out water portion 711, it is more even to utilize apopore 11 to go out water to guarantee to the washing of mop side wiper, water flow can be guaranteed in waist type water conservancy diversion hole 12's setting, avoid because the flow is too big to be spilled over, can play the water conservancy diversion effect to the sewage after the completion of wasing simultaneously, can prevent that water from flowing out from water storage plate 9, the setting of basin 10 can satisfy large-traffic cleaning performance, guarantee the washing dehydration effect to mop 2, and can reduce occupation of inner space, make holistic structure and rivers passageway set up more rationally.

Referring to fig. 16, a driving assembly 5 is disposed at one side in the tub 1, the driving assembly 5 including: drive gear 501 and output gear 502, drive gear 501 cooperates with mop 2, output gear 502 connects out water subassembly 6, mop 2 drives out water subassembly 6 work through drive gear 501 and output gear 502, install gear cover 25 on the staving 1, drive gear 501 and output gear 502 are arranged in gear cover 25, one side of drive gear 501 is provided with driving gear 13, driving gear 13 meshes with rack 201 on mop 2 and drives drive gear 501 and rotate, can play the effect of protection through gear cover 25, driving gear 501 and mop 2's cooperation can drive transmission subassembly 5 work in step when mop 2 is moved from top to bottom through the user and go out water, 5 inner structure of transmission subassembly are simple, it is higher to utilize gear engagement transmission to guarantee transmission precision, simultaneously can more accurate control water yield.

Referring to fig. 6, 7 and 8, a connecting rod assembly 14 is disposed on one side of the output gear 502, the output gear 502 drives the water pump 601 of the water outlet assembly 6 to operate through the connecting rod assembly 14, a driving rod 1401 is disposed at one end of the driving rod 1401, a connecting rod 1402 is rotatably disposed at one end of the connecting rod 1402, and the connecting rod assembly 14 includes: the water pump comprises a driving rod 1401 and a connecting rod 1402, one end of the driving rod 1401 is arranged on the output gear 502 in a limiting mode, the other end of the driving rod 1401 is connected with the connecting rod 1402, the other end of the connecting rod 1402 is connected with the water pump 601 for driving, the driving effect on the water pump can be guaranteed by the aid of the arrangement of the connecting rod assembly 14, water outlet work is guaranteed, and meanwhile the phenomenon that the flow of discharged water is too large can be avoided.

Referring to fig. 2 and 3, a bevel gear 15 is arranged between the driving gear 13 and the driving gear 501, the bevel gear 15 is matched with the inner teeth 511 of the driving gear 501 and used for controlling the unidirectional transmission output of the driving gear 501, a roller 24 used for limiting the mop 2 is arranged on one side of the gear cover plate 25, the roller 24 corresponds to the driving gear 13, one side of the mop 2 is meshed with the driving gear 13 through a rack 201, the other side of the mop 2 is in rolling fit with the roller 24, the unidirectional rotation of the gear is realized by the matching of the bevel gear 15 and the inner teeth 511, so that the water outlet is stopped when the mop 2 falls off the barrel body 1, in addition, the arrangement of the roller 24 and the driving gear 501 can limit the mop 2, the matching of the mop 2 and the driving assembly 5 is ensured, and the water outlet of the water outlet assembly 6 is more stable.

Referring to fig. 3, be provided with mounting panel 101 on staving 1, extrusion mechanism 7 sets up on mounting panel 101, drive assembly 5 sets up the one side at mounting panel 101, it is provided with water filling port 19 to correspond washing chamber 3 on mounting panel 101, one side of staving 1 is provided with outlet 20, washing tank 21 has been seted up on mounting panel 101, mop 2 is arranged in washing tank 21 and is moved about and realize wasing and dehydration, it occupies to reduce the inner space, water filling port 19 and outlet 20 set up convenience of customers and add clear water and sewage discharge, it is more laborsaving convenient to use the operation.

Referring to fig. 4, be provided with stopper 22 and guide pulley 23 on the mounting panel 101, stopper 22 and guide pulley 23 respectively with mop 2 on the spacing groove 202 cooperation of both sides, spacing groove 202 corresponds with the rack 201 on mop 2, rack 201 sets up the outside at spacing groove 202, utilize rack 201 setting on the mop to realize the drive effect of drive assembly 5 with the cooperation of driving gear 501, the setting of spacing groove 202 can convenience of customers independently switch over washing and dehydration, satisfy diversified user demand.

The cleaning and separating structure of the multifunctional mop cleaning device realizes the automatic water outlet cleaning of the water outlet component by the matching of the transmission component and the mop through the arrangement of the transmission component and the water outlet component, the arrangement of the transmission component and the rack on the mop are matched to facilitate the free switching of cleaning or dewatering by a user, the integral function is more comprehensive, in addition, the squeezing mechanism is arranged, the guide plate and the water scraping plate are utilized to synchronously clean and dewater the mop, the complicated operation steps of a user in the past are reduced, and can realize clear water and sewage autosegregation, convenience of customers carries out the water injection blowdown, and inner structure sets up rationally, and the result of use is better, can realize that the mop activity drives out the water washing, satisfies the free switching of user's washing and dehydration, and can realize the autosegregation of clear water sewage in the staving, and it is more convenient that user operation uses.

Example two

Referring to fig. 12 to 18, the present embodiment is different from the first embodiment in that: be provided with backup pad 8 in the washing chamber 3, water pump 601 is installed in backup pad 8, and inlet channel 602 arranges the below of backup pad 8 in, and outlet channel 603 arranges the top of backup pad 8 in, and in this embodiment, clear water district 301 and sewage district 302 set up the one side in staving 1, set up and support 8 and can guarantee that the clear water in staving 1 goes out water more thoroughly, and the clear water that can backup pad 8 below plays certain filtering action simultaneously, makes the cleaning performance better.

The separation structure that decontaminates of multi-functional mop belt cleaning device of this embodiment utilizes setting up of backup pad on the one hand to play the effect of fixed stay to the subassembly that gives out water, and on the other hand can guarantee that the washing of wasing the intracavity goes out water totally, guarantees the cleaning performance to the mop, can filter the clear water simultaneously.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several improvements and modifications without departing from the technical principle of the present invention, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims

1. The utility model provides a multi-functional mop cleaning device's separation structure of decontaminating which characterized in that includes:

the mop bucket comprises a bucket body (1) which is provided with a cleaning cavity (3) for cleaning or dewatering a mop (2);

the water supply mechanism is arranged in the barrel body (1) and used for cleaning the mop (2) by discharged water;

the squeezing mechanism (7) is arranged on one side of the cleaning cavity (3) and is used for dehydrating the mop (2);

wherein, water supply mechanism includes: the mop cleaning device comprises a transmission assembly (5) and a water outlet assembly (6), wherein the mop (2) is matched with the transmission assembly (5) to drive the water outlet assembly (6) to realize water spraying cleaning when being cleaned; the wash chamber (3) comprises: the sewage treatment device comprises a clean water area (301) and a sewage area (302), wherein the water outlet assembly (6) is arranged in the clean water area (301) and used for discharging clean water, and the sewage area (302) and the extrusion mechanism (7) are correspondingly used for accommodating sewage.

2. The structure for cleaning and separating the dirt of the multifunctional mop cleaning device according to claim 1, characterized in that the mop (2) can slide up and down in the cleaning cavity (3), when the mop (2) is close to one side in the barrel body (1), the water supply mechanism leads the mop (2) to be cleaned by water, and the squeezing mechanism (7) synchronously realizes the dewatering of the mop (2); when the mop (2) is close to the other side in the barrel body (1), the water supply mechanism stops supplying water, and the squeezing mechanism (7) realizes dehydration of the mop (2); the water outlet assembly (6) is arranged in the cleaning cavity (3) and comprises: water pump (601), inhalant canal (602) and exhalant canal (603), drive assembly (5) are connected the drive water pump (601) work, inhalant canal (602) set up wash in the chamber (3), exhalant canal (603) are connected with extrusion mechanism (7).

3. The structure for cleaning and separating dirt in a multifunctional mop cleaning device according to claim 1, wherein the squeezing mechanism (7) comprises a deflector (701) arranged on the bucket body (1), and a water storage plate (9) is installed in one side of the deflector (701).

4. The structure of separating the dirt from the multifunctional mop cleaning device according to claim 1, wherein the driving unit (5) is provided at one side in the tub (1), and the driving unit (5) comprises: the mop comprises a transmission gear (501) and an output gear (502), wherein the transmission gear (501) is matched with the mop (2), the output gear (502) is connected with the water outlet assembly (6), and the mop (2) drives the water outlet assembly (6) to work through the transmission gear (501) and the output gear (502).

5. The structure for cleaning and separating dirt in a multifunctional mop cleaning device according to claim 4, characterized in that a connecting rod assembly (14) is arranged on one side of the output gear (502), the output gear (502) drives the water pump (601) of the water outlet assembly (6) to work through the connecting rod assembly (14), a driving rod (1401) is arranged on one end of the driving rod (1401), a connecting rod (1402) is rotatably arranged on one end of the driving rod (1401), and one end of the connecting rod (1402) is connected with and driven by the water pump (601) of the water outlet assembly (6).

6. The multifunctional mop cleaning device as claimed in claim 3, wherein the squeezing mechanism (7) further comprises a wiper (702) movably disposed under the deflector (701), one side of the wiper (702) is close to the mop (2) and is provided with a wiper part (712), and the wiper part (712) is used for squeezing and dewatering the mop (2).

7. The structure of claim 6, wherein the lower end of the wiper plate (702) is provided with a wastewater guide pillar (16), and the wastewater guide pillar (16) is communicated with the wastewater region (302).

8. The structure for removing dirt and separating of a multifunctional mop cleaning device according to claim 1, wherein a mounting plate (101) is provided on the tub (1), the pressing mechanism (7) is provided on the mounting plate (101), and the driving unit (5) is provided at one side of the mounting plate (101).

9. The structure of claim 1, wherein a water filling port (19) is formed on the mounting plate (101) corresponding to the cleaning chamber (3), and a water discharge port (20) is formed at one side of the tub (1).