CN213665115U - Flat mop cleaning barrel and flat mop set - Google Patents

Abstract

The utility model provides a clean bucket of flat mop and flat mop suit belongs to domestic equipment technical field. The flat mop solves the problem that the existing flat mop with the function of turning a movable bottom plate to the inner side only can be spin-dried by rotation. The flat mop cleaning barrel comprises a barrel body and a water squeezing seat, wherein the water squeezing seat is installed on the barrel body, a strip-shaped water squeezing assembly is arranged in the barrel body and installed on the water squeezing seat, water squeezing portions are arranged on two outer sides of the water squeezing assembly, and a water drainage gap is formed in the middle of the water squeezing assembly. The width of the water squeezing component is usually small, and the water squeezing component is positioned between the two movable bottom plates of the flat mop; one group of water squeezing parts squeeze water for the scrubbing parts on one movable bottom plate, and the other group of water squeezing parts squeeze water for the scrubbing parts on the other movable bottom plate. The water and impurities extruded by the water squeezing component can be timely drained away through the water draining gap, and the water squeezing effect is further improved.

Description

Flat mop cleaning barrel and flat mop set

Technical Field

The utility model belongs to the technical field of household equipment, a mop, especially a clean bucket of flat mop is related to.

The utility model belongs to the technical field of household equipment, a mop, especially a flat mop suit is related to.

Background

The flat mop is generally a mop with a scrubbing working head in a plate shape, and the scrubbing working head comprises a base plate and a scrubbing piece arranged on one surface of the base plate.

The scrubbing piece adhered with dirt and waste after the flat mop scrubs the ground is inevitable, and various flat mop cleaning barrels are proposed to facilitate cleaning of the scrubbing piece. For example, a washing and dehydrating barrel (application number: 200720152745.5) for a flat mop, two pairs of symmetrical guide grooves are arranged on two sides of the barrel, a pair of parallel shafts are arranged in the guide grooves, dehydrating rollers are arranged on the shafts, and a towel can be squeezed by the mop moving upwards between the two dehydrating rollers; the dehydration bucket is generally only suitable for mops without a base plate.

The other example is a smoothing mechanism (application number: 201720365864.2) of an extrusion flat mop, which comprises a water squeezing frame, wherein an opening is formed in the water squeezing frame, a smoothing plate is arranged in the opening, and a smoothing opening is formed between the smoothing plate and the opening. The stripping mechanism is generally only suitable for non-reversible substrates.

Along with the development of society, the structure types of the flat mop are more and more, such as a flat mop (application number: 201620318746.1), which comprises a mop rod, a handle and a main board, wherein the main board can be turned outwards; the inventor also proposed a handy dehydration barrel (application No. 201620317195.7) suitable for performing dehydration work on the above flat mop. The flat mop has the problem that the mop rod cannot swing relative to the movable plate, so that the convenience of mopping operation is affected.

Another example is a flat mop (application number: 201220232150.1) which is convenient to clean and dry and comprises a mop rod and a fixed chassis, wherein two ends of the fixed chassis are hinged with movable chassis, and the movable chassis can turn inwards. The flat mop is usually only suitable for spin-drying by rotation, and no cleaning barrel capable of carrying out water squeezing operation on the flat mop exists at present.

Disclosure of Invention

The utility model provides a clean bucket of dull and stereotyped mop, the to-be-solved technical problem of the utility model is how to propose one kind and can carry out clear clean bucket of dull and stereotyped mop to the dull and stereotyped mop that has movable bottom plate to inboard upset function.

The utility model provides a flat mop suit, the to-be-solved technical problem of the utility model is how to propose one kind and can carry out clear flat mop suit to the flat mop that has movable bottom plate to inboard upset function.

The to-be-solved technical problem of the utility model can be realized through the following technical scheme: a flat mop cleaning barrel comprises a barrel body and a water squeezing seat, wherein the water squeezing seat is installed on the barrel body.

When the flat mop cleaning barrel is used for water squeezing operation, the movable bottom plate of the flat mop turns inwards and keeps a turning state, and the flat mop is inserted into the barrel body. The width of the water squeezing component is usually small, and the water squeezing component is positioned between the two movable bottom plates of the flat mop; and the two groups of water squeezing parts are arranged in one-to-one correspondence with the two movable bottom plates, namely one group of water squeezing parts squeezes water for the scrubbing part on one movable bottom plate, and the other group of water squeezing parts squeezes water for the scrubbing part on the other movable bottom plate. The water and impurities extruded by the water squeezing component can be timely drained away through the water draining gap, and the water squeezing effect is further improved. At least two contact lines are arranged between the flat mop and the water squeezing component, so that the flat mop is favorably balanced, the stability of the push-pull flat mop is improved, and the water squeezing effect is improved.

In the flat mop cleaning barrel, the water squeezing component comprises two scrapers, the two scrapers are movably connected with the water squeezing seat, and the distance between the outer side edge line of one scraper and the outer side edge line of the other scraper is increased or reduced when the scrapers move.

In the flat mop cleaning bucket, the water squeezing component comprises two scraping plates which are fixedly connected with the water squeezing seat.

In the flat mop cleaning bucket, the water squeezing component is of an integrated structure and is a water squeezing strip.

In the flat mop cleaning bucket, the scraping plate is connected with the water squeezing seat in a swinging mode, or the scraping plate is connected with the water squeezing seat in a sliding mode.

In the flat mop cleaning barrel, the scrapers are obliquely arranged, the two scrapers are arranged oppositely, and the distance between one scraper and the other scraper is gradually reduced from top to bottom.

In the flat mop cleaning barrel, the lower edge part of the scraper is connected with the water squeezing seat through a first rotating shaft; the flat mop cleaning bucket also comprises a stroke limiting structure for limiting the swinging angle of the scraper.

In the above-mentioned flat mop cleaning bucket, the wringing component comprises two wringing rollers, the wringing rollers are connected with the wringing seat through a second rotating shaft, the shaft holes on the wringing seat are obliquely arranged, and the distance between two groups of shaft holes corresponding to the two wringing rollers is gradually increased from top to bottom.

In the flat mop cleaning bucket, the water squeezing seat is fixed with an auxiliary backer which is positioned below the water squeezing component.

In the flat mop cleaning bucket, the auxiliary backer is strip-shaped, two outer side surfaces of the auxiliary backer are arranged in parallel with a longitudinal line of the water squeezing assembly, and two outer side surfaces of the auxiliary backer are used for the scrubbing piece of the flat mop to lean against.

In the flat mop cleaning bucket, the auxiliary backer is internally provided with a drainage cavity which is arranged along the longitudinal direction of the auxiliary backer; the top of drainage chamber is uncovered, and uncovered being located drainage clearance under.

In the flat mop cleaning bucket, the end part of the auxiliary backer is provided with a drainage hole communicated with the drainage cavity.

In the flat mop cleaning bucket, the water squeezing seat is also provided with a cleaning comb.

In the flat mop cleaning bucket, the cleaning comb is positioned below one side of the water squeezing assembly.

A flat mop suit comprises a flat mop and a flat mop cleaning barrel, wherein the flat mop comprises a mop rod, a fixed seat and two movable plates; the lower end of the mop rod is rotatably connected with the fixed seat, the bottom surface of each movable plate is provided with a scrubbing piece, one end parts of the two movable plates are rotatably connected with the fixed seat, and the scrubbing pieces on the two movable plates are in a relative arrangement state after the other ends of the movable plates swing downwards; the mop rod is connected with a control piece in a sliding mode, two fork arm portions which correspond to the two movable plates one to one are arranged in the control piece, and the fork arm portions can be located on the outer sides of the movable plates when the control piece moves towards the lower end of the mop rod.

During cleaning and wringing operations, the control element is operated to enable the fork arm part to be positioned on the outer side of the movable plate, and then the movable plate is limited to swing towards the outer side. In other words, during cleaning and water squeezing operation, the scrubbing piece on the inner side of the movable plate is dependent on the cleaning piece or the water squeezing component, and the outer side of the movable plate does not need to be in contact with the flat mop cleaning barrel, so that the friction force between the flat mop and the flat mop cleaning barrel is reduced, and the acting force required for pushing and pulling the flat mop is reduced; the structure can also simplify the structure of the flat mop cleaning barrel, and the flat mop cleaning barrel is suitable for cleaning flat mops with different thicknesses and widths.

In the flat mop set, the movable plate is connected with the fixed seat through the third rotating shaft, the third rotating shaft is provided with a torsion spring, and the torsion spring enables the other end of the movable plate to have an upward swinging movement trend.

In the flat mop set, the control piece further comprises a handle sleeve part sleeved on the mop rod, and the two fork arm parts are connected with the handle sleeve part.

In the flat mop set, the lower end of the fork arm part is rotatably connected with the roller.

Drawings

Fig. 1 is a perspective view of a flat mop cleaning bucket.

FIG. 2 is a schematic top view of a flat mop cleaning bucket.

Fig. 3 is a schematic sectional structure view of a-a in fig. 2.

Fig. 4 is an enlarged view of a portion of fig. 3.

Fig. 5 is a schematic sectional structure view of B-B in fig. 3.

Fig. 6 is a perspective view of the flat mop in an expanded state.

Fig. 7 is a perspective view of the flat mop in a collapsed state.

Fig. 8 is a perspective view illustrating a flat mop being cleaned by using the flat mop cleaning bucket.

Fig. 9 is a schematic sectional view showing a structure of cleaning the flat mop using the flat mop cleaning bucket.

In the figure, 1, a barrel body; 2. a water squeezing seat; 2a, a limited-range chute; 3. a drainage gap; 4. a squeegee; 4a, a water squeezing part; 5. a first rotating shaft; 6. a stroke limiting block; 7. assisting in backing a mountain; 7a, a drainage cavity; 7b, a drain hole; 8. cleaning the comb; 9. a mop rod; 10. a fixed seat; 11. a movable plate; 12. a scrubbing member; 13. a third rotating shaft; 14. a torsion spring; 15. a control member; 15a, a handle cover portion; 15b, a yoke portion; 16. and a roller.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

The first embodiment is as follows: as shown in fig. 1-9, the flat mop kit includes a flat mop cleaning bucket that can wash and wring the flat mop, and a flat mop.

As shown in fig. 1 to 5, the flat mop cleaning bucket comprises a bucket body 1 and a water squeezing seat 2, wherein the water squeezing seat 2 is installed on the bucket body 1, a strip-shaped water squeezing assembly is arranged in the bucket body 1, the water squeezing assembly is installed on the water squeezing seat 2, and a water drainage gap 3 is arranged in the middle of the water squeezing assembly. The two outer sides of the water squeezing component are provided with the water squeezing parts, and the distance L between the water squeezing parts on the two outer sides is smaller than 30mm, so that the distance between the two movable plates 11 in the flat mop can be reduced as much as possible, and further, non-wiping belts which are left due to the fact that the mopping piece 12 cannot wipe the floor can be avoided as much as possible.

The wringing component comprises two scrapers 4, and the outer edge of each scraper 4 is a wringing part. The scraper blades 4 are obliquely arranged, the two scraper blades 4 are arranged back to back, and the distance between one scraper blade 4 and the other scraper blade 4 is gradually reduced from top to bottom. The lower edge of the scraping plates 4 is connected with the wringing base 2 through the first rotating shaft 5, so that the scraping plates 4 can swing around the first rotating shaft 5, and the distance L between the outer edge line of one scraping plate 4 and the outer edge line of the other scraping plate 4 is increased or reduced when the scraping plates 4 swing. The flat mop cleaning bucket also comprises a stroke limiting structure for limiting the swing angle of the scraper 4, the stroke limiting structure comprises a stroke limiting block 6 fixedly connected with the scraper 4 and a stroke limiting chute 2a arranged on the water squeezing seat 2, and the stroke limiting block 6 is embedded into the stroke limiting chute 2 a. The structure is convenient for scraping water in the scrubbing piece 12 of the flat mop, and the scraped water flows downwards through the side surface of the scraping plate 4, so that the water amount seeped back into the scrubbing piece 12 is reduced; and reducing the force required to pull out the flat mop.

An auxiliary backer 7 positioned below the water squeezing component is fixed on the water squeezing seat 2, the auxiliary backer 7 is strip-shaped, two outer side surfaces of the auxiliary backer 7 are arranged in parallel with the longitudinal line of the water squeezing component, and two outer side surfaces of the auxiliary backer 7 are used for the scrubbing component 12 of the flat mop to lean against. The auxiliary backer 7 is U-shaped, namely a drainage cavity 7a is arranged in the auxiliary backer 7, the drainage cavity 7a is arranged along the longitudinal direction of the auxiliary backer 7, and a drainage hole 7b communicated with the drainage cavity 7a is arranged at the end part of the auxiliary backer 7; the top of the drainage cavity 7a is open and is positioned right below the drainage gap 3. The length of the auxiliary backer 7 is greater than the width of the scrubbing element 12 in the flat mop, whereby the squeezed water flows into the drainage lumen 7a through the drainage gap 3 and is drained from the end of the auxiliary backer 7, further reducing the possibility that the squeezed water will splash against the scrubbing element 12.

The water squeezing seat 2 is also provided with a cleaning comb 8, and the width of the cleaning comb 8 is basically the same as the distance L between the outer side edge line of one scraper 4 and the outer side edge line of the other scraper 4. The cleaning comb 8 is positioned below one side of the wringing component.

As shown in fig. 6 and 7, the flat mop includes a mop rod 9, a fixed base 10 and two movable plates 11. The lower end of the mop rod 9 is rotatably connected with the fixed seat 10, the bottom surface of each movable plate 11 is provided with a scrubbing piece 12, one end of each movable plate 11 is rotatably connected with the fixed seat 10 through a third rotating shaft 13, and the scrubbing pieces 12 on the two movable plates 11 are in a relative arrangement state after the other ends of the movable plates 11 swing downwards. A torsion spring 14 is mounted on the third rotating shaft 13, and the torsion spring 14 makes the other end of the movable plate 11 have a tendency of swinging upward. The fixed seat 10 has an abutting portion, when the two movable plates 11 both rest on the abutting portion, the two movable plates 11 are located on the same plane, and the torsion spring 14 can keep the two movable plates 11 in the above state, in which the flat mop can be used for mopping the floor.

The control member 15 is slidably connected to the handle rod 9, the control member 15 is substantially fork-shaped, and the control member 15 includes a handle sleeve portion 15a sleeved on the handle rod 9 and two fork arm portions 15b connected to the handle sleeve portion 15 a. The two fork arm portions 15b have a cavity therebetween, whereby the two movable plates 11 can be located between the two fork arm portions 15 b; the two fork arm parts 15b are arranged in one-to-one correspondence with the two movable plates 11; namely, the yoke part 15b is located outside the movable plate 11, the yoke part 15b restricts the upward swing of the movable plate 11, and serves to maintain the movable plate 11 in the folded-down state; in this state, the flat mop can be cleaned. When the control member 15 moves towards the lower end of the mop rod 9, the fork arm portion 15b can also push the movable plate 11 to swing downwards, the lower end of the fork arm portion 15b is rotatably connected with a roller 16, and the roller 16 reduces the friction between the fork arm portion 15b and the movable plate 11, so that the movement flexibility of the control member 15 is improved, and the swing flexibility of the movable plate 11 is improved.

The inner side surface of the handle sleeve part 15a is provided with a guide sliding chute, the mop rod 9 is provided with a guide sliding head part, and the guide sliding head part is embedded into the guide sliding chute, so that the control part 15 is prevented from rotating relative to the mop rod 9 by the structure, and the motion stability of the control part 15 is improved.

The functions and advantages of the respective components will be further explained by explaining the processes of the washing operation and the wringing operation of the flat mop using the flat mop cleaning bucket, as shown in fig. 1 to 9; assuming that the flat mop is in the unfolded state as shown in fig. 6, the control member 15 is held by a hand on the handle sleeve portion 15a and moved toward the lower end of the mop rod 9, the control member 15 drives the roller 16 to move synchronously, and after the roller 16 abuts against the top surface of the movable plate 11, the roller 16 pushes the movable plate 11 to swing downward around the third rotating shaft 13, and the torsion spring 14 is gradually compressed. When the handle sleeve portion 15a abuts against the fixed seat 10, the movable plates 11 swing downwards to a vertical state, the scrubbing pieces 12 on the two movable plates 11 are oppositely arranged, and a gap is formed between the scrubbing pieces 12 on the two movable plates 11. Whereby the flat mop switches to the collapsed state as shown in fig. 7.

As shown in fig. 9, the dotted line indicates the level of water contained in the tub 1. When the flat mop is in a furled state, the flat mop is inserted into the barrel body 1 from top to bottom, the cleaning comb 8 is embedded into a gap between the scrubbing pieces 12 on the two movable plates 11, the scrubbing pieces 12 are immersed in water, and the flat mop is drawn up and down to clean the scrubbing pieces 12.

As shown in fig. 9, when the flat mop is in a folded state, the flat mop is inserted into the bucket body 1 from top to bottom, and the two scrapers 4 are embedded into the gap between the scrubbing members 12 on the two movable plates 11, so that the fork arm portion 15b of the control member 15 prevents the movable plates 11 from swinging to the outside, thereby ensuring the deformation of the scrubbing members 12. The flat mop is pushed downwards, the scrubbing piece 12 is squeezed by the scraping plates 4 from bottom to top, water in the scrubbing piece 12 on the two movable plates 11 is squeezed out, and the water squeezing operation of the scrubbing piece 12 is realized. In the process, the scrubbing piece 12 is leaned on the outer side face of the auxiliary backer 7, so that the lifting stability of the flat mop is improved, namely the swing amplitude of the flat mop in the lifting process is reduced, and the consistency of the dewatering effect is improved. The fixed seat 10 can abut against the scraper 4 so as to limit the downward movement stroke of the flat mop, and when the fixed seat 10 abuts against the scraper 4, the flat mop is not usually immersed in water; meanwhile, water squeezed out in the water squeezing operation directly flows back into the barrel body 1 and is mixed with the cleaning water.

Example two: the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the substantially same parts are not described redundantly, but only different parts are described, and the different parts are: the wringing component comprises two wringing rollers, the wringing rollers are connected with the wringing base 2 through a second rotating shaft, the shaft holes on the wringing base 2 are obliquely arranged, and the distance between the two groups of shaft holes corresponding to the two wringing rollers is gradually increased from top to bottom.

Example three: the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the substantially same parts are not described redundantly, but only different parts are described, and the different parts are: the scraping plates 4 are not connected with the wringing seat 2 in a swinging mode, but the scraping plates 4 are connected with the wringing seat 2 in a sliding mode, the sliding grooves in the wringing seat 2 are arranged in an inclined mode, and the distance between the two groups of sliding grooves corresponding to the two scraping plates 4 is gradually increased from top to bottom.

Example four: the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the substantially same parts are not described redundantly, but only different parts are described, and the different parts are: the scrapers 4 cannot move, and both the scrapers 4 are fixedly connected with the wringing seat 2.

Example five: the structure and principle of the present embodiment are substantially the same as those of the first embodiment, and the substantially same parts are not described redundantly, but only different parts are described, and the different parts are: the water squeezing component is of an integrated structure and is a water squeezing strip.

Claims (15)

1. The utility model provides a clean bucket of flat mop, includes staving (1) and crowded water seat (2), and crowded water seat (2) are installed on staving (1), its characterized in that is equipped with in staving (1) and is banding crowded water subassembly, and crowded water subassembly is installed on crowded water seat (2), and the two outsides of crowded water subassembly all have crowded water portion, and the middle part of crowded water subassembly has drainage clearance (3).

2. The flat mop cleaning bucket according to claim 1, wherein the water squeezing component comprises two scrapers (4), the two scrapers (4) are movably connected with the water squeezing seat (2), and when the scrapers (4) move, the distance between the outer side edge line of one scraper (4) and the outer side edge line of the other scraper (4) is increased or decreased;

or the water squeezing component comprises two scraping plates (4), and the two scraping plates (4) are fixedly connected with the water squeezing seat (2);

or the water squeezing component is of an integrated structure and is a water squeezing strip.

3. The flat mop cleaning bucket according to claim 2, wherein the scraper (4) and the water squeezing seat (2) are connected in a swinging mode, or the scraper (4) and the water squeezing seat (2) are connected in a sliding mode.

4. The flat mop cleaning bucket according to claim 2, wherein the scrapers (4) are arranged obliquely, the two scrapers (4) are arranged oppositely, and the distance between one scraper (4) and the other scraper (4) is gradually reduced from top to bottom.

5. The flat mop cleaning bucket according to claim 1, wherein the wringing assembly comprises two wringing rollers, the wringing rollers are connected with the wringing seat (2) through a second rotating shaft, shaft holes on the wringing seat (2) are obliquely arranged, and the distance between two groups of shaft holes corresponding to the two wringing rollers is gradually increased from top to bottom.

6. A flat mop bucket according to claim 1 or 2 or 3 or 4 or 5 where an auxiliary rest (7) is secured to the wringing receptacle (2) below the wringing assembly.

7. The flat mop cleaning bucket according to claim 6, wherein the auxiliary backer (7) is strip-shaped, two outer side surfaces of the auxiliary backer (7) are arranged in parallel with a longitudinal line of the water squeezing assembly, and two outer side surfaces of the auxiliary backer (7) are used for the scrubbing piece (12) of the flat mop to lean against.

8. A flat mop cleaning bucket according to claim 7, characterised in that the auxiliary backrest (7) has a drainage chamber (7 a) therein, the drainage chamber (7 a) being disposed longitudinally of the auxiliary backrest (7); the top of the drainage cavity (7 a) is open, and the opening is positioned right below the drainage gap (3).

9. A flat mop cleaning bucket according to claim 8 where the end of the secondary backer (7) has a drain hole (7 b) that communicates with the drainage lumen (7 a).

10. A flat mop bucket according to claim 1 or 2 or 3 or 4 or 5 where a cleaning comb (8) is also mounted on the wringing receptacle (2).

11. A flat mop cleaning bucket according to claim 10 where the cleaning comb (8) is located below one side of the wringing assembly.

12. A flat mop kit, characterized in that it comprises a flat mop and a cleaning bucket for a flat mop according to any one of claims 1 to 11, the flat mop comprising a mop rod (9), a fixed seat (10) and two movable plates (11); the lower end of the mop rod (9) is rotatably connected with the fixed seat (10), the bottom surface of each movable plate (11) is provided with a scrubbing piece (12), one end parts of the two movable plates (11) are rotatably connected with the fixed seat (10), and the scrubbing pieces (12) on the two movable plates (11) are in a relative arrangement state after the other ends of the movable plates (11) swing downwards; the mop rod (9) is connected with a control piece (15) in a sliding mode, two fork arm portions (15 b) which are arranged corresponding to the two movable plates (11) one by one are arranged in the control piece (15), and the fork arm portions (15 b) can be located on the outer sides of the movable plates (11) when the control piece (15) moves towards the lower end of the mop rod (9).

13. The flat mop set according to claim 12, wherein the movable plate (11) is connected to the fixed base (10) through a third rotating shaft (13), a torsion spring (14) is mounted on the third rotating shaft (13), and the torsion spring (14) enables the other end of the movable plate (11) to have a tendency of swinging upward.

14. The flat mop set according to claim 12, wherein the control member (15) further comprises a grip portion (15 a) fitted over the mop rod (9), and wherein the two fork arm portions (15 b) are connected to the grip portion (15 a).

15. A flat mop kit according to claim 12, 13 or 14, characterized in that the lower end of the fork arm (15 b) is rotatably connected with a roller (16).

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