CN113598671A

CN113598671A - Mop washing barrel capable of automatically removing sundries on mop

Info

Publication number: CN113598671A
Application number: CN202110793335.3A
Authority: CN
Inventors: 卢嘉
Original assignee: Orido Graphic Design Studio Of Yunhe County
Current assignee: Linyi Frontier Automation Equipment Co ltd
Priority date: 2020-10-29
Filing date: 2020-10-29
Publication date: 2021-11-05
Anticipated expiration: 2040-10-29
Also published as: CN112294211B; CN113598671B; CN112294211A; CN113576363B; CN113576363A

Abstract

The invention discloses a mop washing barrel capable of automatically removing impurities on a mop, which comprises a barrel body and an upper cover, wherein the upper part of the barrel body is provided with an opening, a baffle plate is arranged in the barrel body and separates the interior of the barrel body into two parts, the upper cover 200 covers the opening of the barrel body, a water squeezing part, a cleaning part and a cleaning structure B are arranged on the upper cover, a water scraping and scraping plate is arranged on the water squeezing part, the cleaning structure B comprises a scraping device, a removing device and a transmission mechanism, the scraping device comprises a scraping plate which is of a comb-shaped structure, a plurality of scraping teeth are arranged on the scraping plate, gaps are reserved among the scraping teeth, the removing device is of a circular comb-shaped structure, the removing device comprises a comb column, comb teeth are arranged on the comb column, the transmission mechanism drives the scraping device to turn over and rotate, the transmission mechanism comprises a roller wheel which is in contact with a mop A, the roller wheel is arranged at the cleaning part, and the scraping device removes the impurities on the surface of a mop handle, the removing device rotates to remove the foreign matters on the scraping device and collects the foreign matters.

Description

Mop washing barrel capable of automatically removing sundries on mop

Technical Field

The invention relates to a mop washing device, in particular to a mop washing barrel capable of automatically removing sundries on a mop.

Background

The mop is a sanitary cleaning tool frequently used in daily life, at present, the types of mops in the market are also many, including an old-fashioned cotton strip mop, a collodion rolling type mop, a selection mop and a flat mop, the utilization rate of the flat mop in urban family life is higher, the flat mop has strong water absorption rate and is more durable, in addition, the unique plane advantage of the flat mop determines that the flat mop has large stress area and high cleaning efficiency, and the ground can be cleaned more clearly in cleaning.

However, when mopping up the floor, some hair can be remained on the mop, sundries such as scraps are not easy to wash with water, foreign matters on the mop surface need to be removed by a handle, the removed foreign matters need to be thrown into the garbage can, even some foreign matters can directly enter a household sewer, and the sewer pipeline can be blocked by long-term operation, so that the hand of a user can be dirtied by the mop in the cleaning process, the operation is inconvenient, the work efficiency is seriously wasted, and a lot of defects can be brought to life.

In addition, when the mop is cleaned in the bucket, foreign matters such as hair and debris fall into the bucket, so that water in the bucket is easily polluted, and the waste of water resources is caused.

Therefore, the present application needs to solve the above technical problems at 4 places:

1. how to remove foreign matters on the mop surface without directly touching the mop surface by hands.

2. Collecting and treating the removed foreign matters.

3. How to wash the mop fast, and can be with abluent cleaner of mop.

4. How to reduce the waste of water resources when the mop is washed can be reduced.

Disclosure of Invention

The invention aims to provide a mop washing barrel capable of automatically removing impurities on a mop, which comprises a barrel body 100 and an upper cover 200, wherein the upper cover 200 covers an opening of the barrel body 100, a cleaning structure B is arranged on the upper cover 200, the cleaning structure B comprises a scraping device, a removing device and a transmission mechanism, a mop A handle surface is placed in a cleaning part 220, the mop A moves up and down to drive the scraping device to turn over and the cleaning structure to rotate, the scraping device cleans the impurities on the mop handle surface, and the removing device rotates to remove the impurities on the scraping device and collects the impurities.

In order to realize the purpose of the invention, the invention adopts the following technical scheme:

a mop washing barrel comprises a barrel body 100 and an upper cover 200, wherein an opening is formed in the upper portion of the barrel body 100, a baffle 101 is arranged in the barrel body 100, and the baffle 101 separates the interior of the barrel body 100 into two parts. The upper cover 200 covers the opening of the barrel body 100, and the upper cover 200 is provided with a water squeezing part 210, a cleaning part 220 and a cleaning structure B. The water squeezing portion 210 is provided with a wiping plate 240. The cleaning part 220 is provided with a cleaning wiper 230. The cleaning structure B is arranged at the mop handle face orientation position of the cleaning part 220 and comprises a scraping device, a removing device and a transmission mechanism. The scraping device comprises a scraper 300, the scraper 300 is of a comb-shaped structure, a plurality of scraping teeth 301 are arranged on the scraper 300, and gaps are reserved among the scraping teeth 301. The removing device is of a circular comb-shaped structure and comprises comb columns 311, comb teeth 312 are arranged on the comb columns 311, and the comb teeth 312 correspond to gaps between the scraping teeth 301. The transmission mechanism drives the scraping device to turn over and the cleaning structure to rotate. The driving mechanism includes a roller 401 contacting the mop a, and the roller 401 is disposed at the washing part 220.

When the mop a is put into the washing part 220 and moved downward, the roller 401 rotates and turns the squeegee 300 toward the front of the washing part 220 to fit the washing wiper 230 through the transmission mechanism, and the squeegee 300 contacts the mop a and scrapes off dirt.

When the mop a moves upwards, the roller 401 rotates and turns the scraper 300 towards the rejecting device through the transmission mechanism, and the comb teeth 312 on the rejecting device continuously rotate and pass through the gap of the scraper teeth 301 to take away the dirt on the scraper 300.

Compared with the prior art, the mop washing barrel adopting the technical scheme can automatically remove sundries on the mop, and has the following beneficial effects:

when cleaning the mop A, the mop A is placed on one side of the handle face to be cleaned in the direction of the cleaning structure B, the mop is pressed downwards, at the moment, the scraping teeth 301 at the front end of the scraping device can turn over towards the mop A along with the movement of the roller 401, the mop A contacts the scraping teeth 301 at the front end of the scraping device, the scraping teeth 301 scrape and leave foreign matters on the scraping teeth 301 from the handle face, and therefore the problem that the foreign matters on the handle face of the mop A need to be manually removed when the mop A is cleaned is reduced.

Secondly, the mop A contacts the roller 401, when the mop A is lifted upwards, the roller 401 drives the scraping device to turn backwards, the scraping teeth 301 on the scraping device face the removing device, and gaps left on the scraping teeth 301 are staggered with the comb teeth 312;

the gyro wheel 401 passes through drive mechanism and drives the removing devices rotation, and the last broach 312 of removing devices will scrape the foreign matter on the tooth 301 and scrape down to reach and go to get rid of the foreign matter of scraping on the tooth 301 without the hand, can concentrate the collection with the foreign matter on the broach 312, centralized processing avoids getting into the sewer.

Thirdly, the scraping teeth 301 on the scraper 300 can clean the garbage on the surface of the mop A, so that the water in the bucket body 100 can be stored more cleanly and can be used for multiple times.

Further, the transmission mechanism further comprises a secondary roller 402, a transmission roller 403, a driving wheel 404, a transmission wheel 405 and a driven wheel 406, wherein the roller 401, the secondary roller 402 and the driving wheel 404 coaxially rotate, the driving wheel 404 drives the transmission wheel 405 to rotate, the transmission wheel 405 drives the driven wheel 406 to rotate, and the secondary roller 402 drives the transmission roller 403 to rotate through a belt 410; the transmission roller 403 drives the scraper 300 to turn; the driven wheel 406 drives the rejecting device to rotate.

In this further embodiment, the effects achieved are: the roller 401 is driven to rotate by the surface contact friction of the mop A, the roller 401, the secondary roller 402 and the driving wheel 404 are concentric and coaxial, but different diameters of the roller 401, the secondary roller 402 and the driving wheel 404 move in the same direction, the secondary roller 402 drives the transmission roller 403 to roll through a belt, the transmission roller 403 and the scraper 300 are movably connected onto a fixing plate 701, and the transmission roller 403 drives the scraper 300 to turn.

The driving wheel 404 is in gear engagement through a driving wheel 405, the driving wheel 405 is a transition gear, the driving wheel 405 drives the driven wheel 406 to rotate, the driven wheel 406 and the driving wheel 404 are changed into equidirectional movement through the driving wheel 405, the driven wheel 406 is connected with the comb post 311, and the driven wheel 406 drives the removing device to rotate.

This operation is mainly to realize driving the scraping device to overturn and the rejecting device to rotate.

Further, the driven wheel 406 is of a ratchet structure, the driven wheel 406 comprises an outer wheel 407 and a shaft part 408, the outer wheel 407 is in contact with the outer wheel 405, the shaft part 408 is fixed with the comb column 311,

when the mop A moves upwards, the outer wheel 407 and the shaft 408 move in a linkage manner, the outer wheel 407 and the shaft 408 rotate synchronously,

when the mop a is moved downwards, the outer wheel 407 and the shaft 408 are moved apart, the outer wheel 407 rotates in the opposite direction and the shaft 408 is moved passively.

In this further embodiment, the effects achieved are: when the mop A is put into the cleaning part 220 for the first time and moves downwards, all the gears in the transmission mechanism rotate, the pawls 409 on the outer wheel 407 and the gears on the shaft part 408 make sliding movement, and the shaft part 408408 cannot drive the comb post 311 to rotate.

When the mop a moves upward, the pawl 409 on the outer wheel 407 and the gear on the shaft 408 catch, causing the shaft 408 of the outer wheel 407 to move synchronously.

Therefore, the effect is achieved that when the mop a moves up and down, the shaft portion 408 drives the comb post 311 to always keep moving clockwise, and the cleaning assembly 310 always rotates clockwise.

Further, the upper cover 200 is further provided with a partition plate 501, the partition plate 501 is arranged at the rear of the cleaning structure (B), the partition plate 501 is provided with a plurality of holes 510, the holes 510 penetrate through the partition plate 501, and the holes 510 are densely distributed on the partition plate 501.

In this further embodiment, the effects achieved are:

firstly, in order to prevent the foreign matters on the scraping teeth 301 from being scraped off by the comb teeth 312 on the comb post 311 and then collected on the partition plate 501, the foreign matters are not dropped into the tub body 100 again.

Secondly, the hole 510 on the isolation plate 501 can make the water brought by the mop A flow into the isolation plate 501 through the scraper 300 and then directly flow into the bucket body 100 through the hole 510.

Thirdly, after the mop is washed, when the sewage in the tub body 100 needs to be poured out, the sewage can be directly poured out through the hole 510.

Fourthly, division board 501 can take the filth piece on surface up when sewage pours out, directly follows sewage and flows out together, need not the user and goes clearance foreign matter and piece again with the hand.

Further, a water pouring port 601 is further arranged on the inner wall of the partition plate 501 and the inner wall of the upper cover 200, and the water pouring port 601 is arranged on one side, far away from the cleaning structure (B), of the partition plate 501.

In this further embodiment, the effects achieved are: in order to wash the mop, the large deposited sludge remained at the bottom of the inner part of the tub 100 is poured out through the pouring outlet 601, so as to avoid the blockage of the hole 510 in the former scheme.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a mop washing bucket capable of automatically removing impurities from a mop according to the present invention.

Fig. 2 is a schematic structural view of the mop washing bucket in the embodiment.

FIG. 3 is a schematic structural view of the barrel body in the embodiment.

Fig. 4 is a schematic structural diagram of the cleaning structure in the embodiment.

Fig. 5 is a schematic structural diagram of the cleaning structure in the embodiment.

Fig. 6 is a schematic structural diagram of the cover in the embodiment.

Fig. 7 is a partial enlarged view at C in fig. 6.

Fig. 8 is a schematic plan view of the transmission mechanism in the embodiment.

Fig. 9 is a schematic structural diagram of a transmission mechanism in the embodiment.

FIG. 10 is a schematic view of the mop bucket of the embodiment.

FIG. 11 is a schematic view of the ratchet structure according to the embodiment.

FIG. 12 is a schematic view showing the use of the washing mop in the embodiment by pressing down.

FIG. 13 is a schematic view showing the use of the mop cleaner of the embodiment.

FIG. 14 is a schematic illustration of the use of the squeegee mop of the embodiment.

Reference numerals: A. a mop; B. cleaning the structure; 100. a barrel body; 101. a baffle plate; 200. An upper cover; 210. a water squeezing part; 220. a cleaning section; 230. cleaning the wiper blade; 240. scraping the water scraping plate; 300. A squeegee; 301. scraping teeth; 310. cleaning the assembly; 311. combing columns; 312. comb teeth; 401. a roller; 402. a secondary roller; 403. a transmission roller; 404. a driving wheel; 405. a driving wheel; 406. a driven wheel; 407. an outer wheel 407; 408. a shaft portion 408; 409. a pawl; 410. a belt; 501. a separator plate; 510. an aperture; 601. pouring a water gap; 701. and (7) fixing the plate.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 14, the mop washing bucket capable of automatically removing impurities from a mop comprises a bucket body 100 and an upper cover 200, wherein an opening is formed at the upper part of the bucket body 100, a baffle 101 is arranged in the bucket body 100, and the baffle 101 separates the interior of the bucket body 100 into two parts; the upper cover 200 covers the opening of the barrel body 100, and the upper cover 200 is provided with a water squeezing part 210, a cleaning part 220 and a cleaning structure B; the water squeezing part 210 is provided with a dry scraping plate 240;

the cleaning part 220 is provided with a cleaning wiper 230; the cleaning structure B is arranged at the mop handle face orientation position of the cleaning part 220 and comprises a scraping device, a removing device and a transmission mechanism, the scraping device comprises a scraper 300, the scraper 300 is of a comb-shaped structure, a plurality of scraping teeth 301 are arranged on the scraper 300, and gaps are reserved among the scraping teeth 301; the removing device is of a circular comb-shaped structure and comprises comb columns 311, comb teeth 312 are arranged on the comb columns 311, and the comb teeth 312 correspond to gaps between the scraping teeth 301; the transmission mechanism drives the scraping device to turn over and the rejecting device to rotate; the driving mechanism includes a roller 401 contacting the mop a, and the roller 401 is disposed at the washing part 220.

The transmission mechanism further comprises a secondary roller 402, a transmission roller 403, a driving wheel 404, a transmission wheel 405 and a driven wheel 406, wherein the roller 401, the secondary roller 402 and the driving wheel 404 coaxially rotate, the driving wheel 404 drives the transmission wheel 405 to rotate, the transmission wheel 405 drives the driven wheel 406 to rotate, and the secondary roller 402 drives the transmission roller 403 to rotate through a belt 410; the transmission roller 403 drives the scraper 300 to turn; the driven wheel 406 drives the rejecting device to rotate.

The driven wheel 406 is in a ratchet structure, the driven wheel 406 comprises an outer wheel 407 and a shaft part 408, the outer wheel 407 is in contact with the outer wheel 405, and the shaft part 408 is fixed with the comb column 311.

Still be equipped with division board 501 on the upper cover 200, division board 501 sets up in clearance structure (B) rear position, be equipped with a plurality of holes 510 on the division board 501, hole 510 runs through division board 501 to hole 510 is densely covered on division board 501.

The division plate 501 and the inner wall of the upper cover 200 are further provided with a water pouring port 601, and the water pouring port 601 is arranged on one side, far away from the cleaning structure (B), of the division plate 501.

In this embodiment, due to the ratchet structure in the driven wheel 406, when the mop a is pressed down, the comb teeth 312 will not rotate, i.e. the comb teeth 312 can only rotate clockwise, so that the foreign matter can be effectively prevented from being brought to the scraping teeth 301 by the comb teeth 312.

And only when the mop A is lifted upwards, the comb teeth 312 can rotate clockwise, and the comb teeth 312 are also provided with a counterweight (not shown in the figure), so that the counterweight has larger inertia when the comb teeth 312 rotate, and the comb teeth 312 can continue to rotate clockwise according to the inertia after the mop A stops lifting, and residual foreign matters are taken away from the scraping teeth 301.

The specific flow of the mop washing bucket in the embodiment for washing the mop surface is as follows:

1. mop a is aligned with the cleaning portion 220 on the cover 200 (see fig. 2).

2. Mop a faces toward cleaning structure B and contacts roller 401 (fig. 1).

3. Mop a is pressed down and rotates the face-carrying roller 401 (fig. 4).

4. The mop A is continuously pressed, the roller 401 is continuously contacted with the handle surface of the mop A, the roller 401 rotates anticlockwise, at this time (as shown in figures 4, 8 and 11), the secondary roller 402, the transmission roller 403, the driving wheel 404 and the outer wheel 407 of the driven wheel 406 all rotate anticlockwise, the transmission wheel 405 rotates clockwise, and as the shaft portion 408 of the driven wheel 406 is provided with the pawl 409, the outer wheel 407 cannot drive the shaft portion 408 to rotate actively, and the shaft portion 408 does not rotate.

5. The roller 401 (counterclockwise) rotates to drive the secondary roller 402 (counterclockwise), the secondary roller 402 drives the scraper 300 to turn (counterclockwise) through the belt 410, and the scraping teeth 301 on the scraper 300 face the mop a (see fig. 5).

6. The mop a continues to move downward, and the scraping teeth 301 scrape foreign matters on the mop a onto the scraping teeth 301 (see fig. 4).

7. Mop a is pulled up, roller 401 remains in surface contact with the grip of mop a, and roller 401 rotates clockwise as mop a is pulled up.

8. Further pull up on mop a, roller 401 remains rotating clockwise:

8.1. the roller 401 drives the secondary roller 402 to rotate in the same direction, the belt 410 drives the transmission roller 403 to rotate, and the transmission roller 403 drives the scraper 300 to turn towards the removing device (see fig. 9).

8.2. The roller 401 drives the driving wheel 404 to rotate clockwise in the same direction, and rotates by meshing with the driving wheel 405, so that the rotation direction of the driven wheel 406 is the same as the rotation direction of the driving wheel 404 to rotate clockwise (as shown in fig. 7).

9. The outer wheel 407 of the driven wheel 406 rotates clockwise (as viewed in fig. 11) and the shaft portion 408 is rotated clockwise by the pawl 409.

10. The shaft 408 is connected to the comb post 311 on the rejecting device, so that the rejecting device also keeps rotating clockwise.

11. The comb teeth 312 on the comb post 311 scrape the foreign matter between the scraping teeth 301 and carry the foreign matter away to the isolation plate 501.

12. The continuous operation of 1-11 steps is continued, and the surface of the mop A is cleaned more cleanly.

13. The mop a is taken out of the cleaning part 220, and then the mop a is cleaned on the wiper blade 230, and the wiper blade 240 is wiped off to wipe off the excessive water on the mop a (see fig. 10 and 14).

The foregoing is a preferred embodiment of the invention and it will be apparent to those skilled in the art that variations and modifications may be made without departing from the inventive concept and these are intended to be within the scope of the invention.

Claims

1. The utility model provides a can get rid of mop bucket of washing of debris on mop which characterized in that: comprises a barrel body (100) and an upper cover (200),

an opening is formed in the upper portion of the barrel body (100), a baffle (101) is arranged in the barrel body (100), and the baffle (101) separates the interior of the barrel body (100) into two parts;

the upper cover (200) covers the opening of the barrel body (100), and a water squeezing part (210), a cleaning part (220) and a cleaning structure (B) are arranged on the upper cover (200);

a scraping and drying plate (240) is arranged on the water squeezing part (210);

a cleaning wiper plate (230) is arranged on the cleaning part (220);

the cleaning structure (B) is arranged at the mop handle face orientation position of the cleaning part (220), the cleaning structure (B) comprises a scraping device, a removing device and a transmission mechanism,

the scraping device comprises a scraping plate (300), the scraping plate (300) is of a comb-shaped structure, a plurality of scraping teeth (301) are arranged on the scraping plate (300), and gaps are reserved among the scraping teeth (301);

the removing device is of a circular comb-shaped structure and comprises comb columns (311), comb teeth (312) are arranged on the comb columns (311), and gaps between the comb teeth (312) and the scraping teeth (301) correspond to each other;

the transmission mechanism drives the scraping device to turn over and the removing device to rotate;

the transmission mechanism comprises a roller (401) contacted with the mop (A), and the roller (401) is arranged at the cleaning part (220);

the transmission mechanism also comprises a secondary roller (402), a transmission roller (403), a driving wheel (404), a transmission wheel (405) and a driven wheel (406),

the roller (401), the secondary roller (402) and the driving wheel (404) coaxially rotate,

the driving wheel (404) drives the driving wheel (405) to rotate, the driving wheel (405) drives the driven wheel (406) to rotate,

the secondary roller (402) drives the transmission roller (403) to rotate through a belt (410); the transmission roller (403) drives the scraper (300) to turn over;

the driven wheel (406) drives the rejecting device to rotate;

the driven wheel (406) is of a ratchet structure, the driven wheel (406) comprises an outer wheel (407) and a shaft part (408), the outer wheel (407) is in contact with the outer wheel (405), the shaft part (408) is fixed with the comb post (311),

the upper cover (200) is further provided with a partition plate (501), the partition plate (501) is arranged at the rear position of the cleaning structure (B), a plurality of holes (510) are formed in the partition plate (501), the holes (510) penetrate through the partition plate (501), and the holes (510) are densely distributed in the partition plate (501);

division board (501) and upper cover (200) inner wall still are equipped with pouring nozzle (601), and pouring nozzle (601) set up in division board (501) keep away from clearance structure (B) one side.