CN217610942U

CN217610942U - Rotary mop bucket capable of cleaning and separating dirt

Info

Publication number: CN217610942U
Application number: CN202121622121.1U
Authority: CN
Inventors: 贾兴行
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-16
Filing date: 2021-07-16
Publication date: 2022-10-21
Anticipated expiration: 2031-07-16

Abstract

The utility model discloses a rotary mop bucket for cleaning and separating, which is used for cleaning a rotary mop and comprises a bucket body, wherein a clear water area and a sewage area which are mutually separated are arranged in the bucket body; the middle part of the barrel body is provided with a supporting structure for supporting the rotary mop to rotate, and the clean water area is provided with a water outlet device for spraying clean water to the rotary mop; the supporting structure comprises a supporting shaft arranged in the middle of the barrel body and a supporting platform arranged on the cover body and sleeved on the supporting shaft. The utility model discloses set up the lid and close the upper end in clear water district can separate clear water and the sewage after wasing, has solved the problem of changing water when wasing rotatory mop.

Description

Rotary mop bucket capable of cleaning and separating dirt

Technical Field

The utility model relates to a technical field of mop bucket especially relates to a rotatory mop bucket of separation of decontaminating.

Background

In the existing rotary mop bucket, the rotary mop comprises a mop rod and a mop head, a wiping material is arranged on the mop head, the wiping material is cleaned in the mop bucket, the rotary mop can be cleaned in the bucket body and then cleaned or dewatered through relative movement of the wiping material after being abutted against a cleaning seat, however, after the rotary mop is soaked in the bucket once, the original purified water is changed into sewage, the waste of water after cleaning every time is too large, the cleaning efficiency is also low, and if the rotary mop is not changed, the cleaning degree of secondary cleaning is poor.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The technical problem to be solved by the utility model is to provide a rotary mop bucket for cleaning and separating, which has reasonable structural design, can separate clear water from cleaned sewage, and solves the problem of water change when cleaning the rotary mop; meanwhile, the plane bearing is arranged, so that when the rotary mop rotates on the supporting structure, the cleaning materials of the rotary mop are abutted against the plane bearing and pressed on the cover body, so that when the rotary mop rotates at a high speed, the cover body cannot displace and shake, the problem that the cleaning materials extrude water to pollute the clean water area is avoided, the problems of shaking and the like are avoided, and the structure is more stable.

(II) technical scheme

The utility model adopts the technical scheme of cleaning and separating the rotary mop bucket, which is used for cleaning the rotary mop, and comprises a bucket body, wherein a clear water area and a sewage area which are mutually separated are arranged in the bucket body; the middle part of the barrel body is provided with a supporting structure for supporting the rotary mop to rotate, and the clear water area is provided with a water outlet device for spraying clear water to the rotary mop; the supporting structure comprises a supporting shaft arranged in the middle of the barrel body and a supporting platform arranged on the cover body and sleeved on the supporting shaft.

Specifically, the rotary mop comprises a mop rod and a mop head, the mop head is provided with a wiping material, and the wiping material is cleaned in a mop barrel.

Preferably, the supporting structure supports the wiper to perform rotary cleaning/dewatering on the wiper, and specifically, the wiper is driven to rotate at a high speed after being placed on the supporting structure, so as to implement cleaning and dewatering.

Specifically, during cleaning, the support structure supports the rotary mop, the wiper is driven to rotate, meanwhile, the water storage device brings clean water in a clean water area to the wiper, and sewage after the wiper is washed is reserved in a sewage area; upon dehydration, the wipe is supported by the support structure for rotational dehydration.

By adopting the scheme, the cover body covers the upper end of the clean water area, so that clean water and cleaned sewage can be separated, and the problem of water change during cleaning of the rotary mop is solved.

Furthermore, a plane bearing is arranged between the support platform and the cover body, and the rotary mop is arranged on the support shaft and pressed on the support platform to rotate.

Further, the open end of staving is provided with wall eaves portion, arbitrary one of wall eaves portion extends downwards and is formed with the extension wall, lid sliding connection is in on the extension wall.

Preferably, the extending wall is provided with a guide rail for the cover body to slide up and down, correspondingly, the cover body is provided with a sliding part matched with the guide rail, and the cover body is provided with an anti-falling part for limiting the downward separation of the cover body; when the cover body is pressed downwards under force, the sliding part moves downwards along the guide rail until the anti-falling part is limited, and at the moment, the cover body is tightly covered above the clean water area to prevent sewage after the wiper is cleaned from entering the clean water area; and the top of the cover body or the clear water area can be provided with a sealing structure for enhancing the sealing performance when the cover body and the clear water area are mutually abutted.

Preferably, the wall eaves part is detachably mounted on the barrel body in a buckling connection mode, so that subsequent maintenance is facilitated.

Preferably, the wall eaves enclose inside the bucket body eaves.

By adopting the scheme, when the wiping material of the rotary mop is arranged on the supporting structure for cleaning/dewatering, the cover body is stressed to move downwards, so that when the rotary mop rotates at a high speed, the cover body is firmly sealed at the open end of the clean water area, and the wiping material is prevented from being extruded by sewage to flow into the clean water area.

Further, the supporting structure extends upwards from the barrel body and penetrates through the cover body, wherein a supporting platform used for being matched with the rotary mop is arranged on the part, exceeding the cover body, of the supporting structure.

Preferably, bearing structure is in including the back shaft that can be rotary motion and cup joint the back shaft surpasses brace table in the part of lid, wherein, the back shaft is arranged in the seal cover has been cup jointed to clear water district inside and outside, prevents rust scheduling problem appears after the back shaft uses for a long time, has prolonged its life.

Further, a plane bearing is arranged between the support platform and the cover body.

Preferably, the cover body is provided with a through hole for the support structure to pass through, and the cover body is provided with a plane bearing mounting groove for mounting the plane bearing near the through hole.

By adopting the scheme, when the rotary mop is arranged on the supporting structure to rotate, the wiping object is pressed against the plane bearing and pressed on the cover body, so that the cover body can not displace and shake when the rotary mop rotates at a high speed, the water extruded by the wiping object is prevented from polluting the clean water area, the problems of shaking and the like are avoided, and the structure is more stable.

Furthermore, the water outlet device comprises a water pump arranged in the clean water area, and the water pump is communicated with the water outlet of the cover body.

Furthermore, the water outlet is provided with a flow dividing device.

Preferably, the diverging device include by the delivery port eaves of lid extends the boss that forms upwards, and this boss has two openings that the symmetry set up, the water pump will the hydroenergy that the clear water district was taken out is by two the opening is discharged for it is more even to go out water, thereby makes the inside and outside homoenergetic of wiper is abundant drench the washing, makes the washing more thorough. More preferably, the top of the boss is provided with a through hole communicated with the clear water area, so that water outlet is more uniform.

Furthermore, a water spraying piece is arranged at the position, located at the water outlet, of the cover body, and the water spraying piece is provided with a plurality of water spraying openings for water outlet.

Preferably, the water spraying nozzles are arranged on the water spraying piece at equal intervals, so that the water outlet is more uniform.

Preferably, the cover body is positioned at the water outlet and provided with a water spraying piece mounting groove for mounting the water spraying piece, and the water spraying piece is connected in the water spraying piece mounting groove in a buckling connection mode.

Further, the barrel body is provided with a water outlet communicated with the sewage area.

By adopting the scheme, the water outlet is used for discharging the sewage after the wiping materials are extruded.

Furthermore, the barrel body comprises a bottom plate and an outer side wall extending along the circumferential direction of the edge of the bottom plate, an inner side wall extending upwards is arranged on the bottom plate, the inner side wall divides the barrel body into a clear water area and a clear water area, and the clear water area is formed inside the closed inner side wall; wherein the height of the inner side wall is lower than that of the outer side wall.

Preferably, the inner side wall is integrally formed on the barrel body.

Preferably, a rotatable handle is arranged on the outer side wall of the barrel body close to the opening end of the barrel body.

More preferably, the wall eaves are provided with handle accommodating grooves for accommodating the handles, so that the handles are convenient to accommodate; the handle accommodating groove is provided with a plurality of through holes communicated with the sewage area and used for discharging water on the handle to the sewage area so as to ensure the cleanness of the handle; simultaneously, the handle extends outwards and is formed with the operation portion of being convenient for operate, works as the handle is accomodate extremely behind the handle holding tank, operation portion surpasss staving, convenient to use person's operation.

(III) advantageous effects

Compared with the prior art, the utility model designs a rotary mop bucket for cleaning and separating,

(1) The cover body covers the upper end of the clean water area, so that clean water and cleaned sewage can be separated, and the problem of water change during cleaning of the rotary mop is solved;

(2) The plane bearing is arranged, so that when the rotary mop is arranged on the supporting structure to rotate, a wiping object of the rotary mop is pressed against the plane bearing and the cover body is pressed, so that when the rotary mop rotates at a high speed, the cover body cannot be displaced and shaken, water extruded by the wiping object is prevented from polluting the clean water area, the problems of shaking and the like are avoided, and the structure is more stable;

(3) The shunting device enables water energy to be discharged from the openings on two sides uniformly, so that water on the water spraying port on the cover body is more uniform, and the inside and the outside of the wiping object can be sufficiently wetted and cleaned, so that the cleaning is more thorough.

Drawings

FIG. 1 is a schematic view of a dirt separation rotary mop bucket of this embodiment;

FIG. 2 is another perspective view of the present embodiment of a dirt separation rotating mop bucket;

FIG. 3 is an enlarged view of B in FIG. 2;

FIG. 4 isbase:Sub>A cross-sectional view taken at A-A of FIG. 2;

FIG. 5 is an enlarged view of the point C in FIG. 4;

FIG. 6 is an enlarged view of FIG. 4 at D;

FIG. 7 is an enlarged view of E in FIG. 4;

fig. 8 is a schematic view of the cover of the present embodiment.

Description of reference numerals: 1. rotating the mop bucket; 11. a barrel body; 111. a clear water zone; 112. a sewage area; 113. a water discharge port; 114. a base plate; 115. an outer sidewall; 116. an inner sidewall; 12. a support structure; 121. a support table; 122. a flat bearing; 123. a support shaft; 124. a sealing sleeve; 13. a water outlet device; 131. a water pump; 15. a cover body; 151. a water outlet; 152. a flow divider; 152-1, an opening; 152-2, a through hole; 153. a water spraying member; 153-1, water jet; 154. a sliding part; 155. an anti-drop part; 156. perforating; 157. a planar bearing mounting groove; 158. a water spraying piece mounting groove; 16. a wall eaves portion; 161. an extension wall; 161-1, guide rails; 162. a handle accommodating groove; 162-1, through the aperture; 17. a handle; 171. an operation unit.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

In this embodiment:

as shown in fig. 1-2 and 4, the rotary mop bucket 1 for cleaning and separating dirt according to the present embodiment is used for cleaning a rotary mop, and includes a bucket body 11, wherein a clean water area 111 and a dirty water area 112 are arranged in the bucket body 11 and are separated from each other; a supporting structure 12 for supporting the rotary mop to rotate is arranged in the middle of the barrel body 11, and a water outlet device 13 for spraying clean water to the rotary mop is arranged in the clean water area 111; wherein, a cover body 15 is arranged above the clean water area 111 and separates the clean water area 111 from the sewage area 112, the cover body 15 is fastened on the clean water area 111 and is used for isolating sewage thrown off by the mop from flowing to the clean water area 111, and the support structure 12 comprises a support shaft 123 arranged in the middle of the bucket body 11 and a support platform 121 arranged on the cover body 15 and sleeved on the support shaft 123. A plane bearing 122 is arranged between the support platform and the cover body 15, and the rotary mop is arranged on the support shaft 123 and pressed on the support platform 121 for rotation. Specifically, the rotary mop comprises a mop rod and a mop head, the mop head is provided with a wiping material, and the wiping material is cleaned in a mop barrel. Preferably, the supporting structure 12 supports the wiper to perform spin cleaning/dehydration on the wiper, specifically, the wiper is driven to rotate at a high speed after being placed on the supporting structure 12, so as to implement cleaning and dehydration. Specifically, during cleaning, the support structure 12 supports the rotary mop, the wiper is driven to rotate, meanwhile, the water storage device brings clean water in the clean water area 111 to the wiper, and the sewage after the wiper is washed is retained in the sewage area 112; upon dehydration, the wipe is supported by the support structure 12 for rotational dehydration. By adopting the scheme, the cover body 15 covers the upper end of the clean water area 111, so that clean water and cleaned sewage can be separated, and the problem of water change during cleaning of the rotary mop is solved. Further, the tub 11 is provided with a drain outlet 113 communicating with the sump 112. With the adoption of the scheme, the water outlet 113 is used for discharging sewage after the wiper is extruded.

As shown in fig. 4, 7 and 8, further, the cover 15 is slidably disposed on the barrel 11 and moves along the axial direction of the supporting structure 12. Further, a wall eaves 16 is provided at an opening end of the tub 11, an extension wall 161 is formed at any one of the wall eaves 16 extending downward, and the cover 15 is slidably connected to the extension wall 161. Preferably, the extension wall 161 is provided with a guide rail 161-1 for the cover 15 to slide up and down, correspondingly, the cover 15 is provided with a sliding part 154 matched with the guide rail 161-1, and the cover 15 is provided with a retaining part 155 for limiting the downward detachment; when the cover body 15 is pressed by force, the sliding part 154 moves downwards along the guide rail 161-1 until the anti-drop part 155 is limited, at this time, the cover body 15 is tightly covered above the clean water area 111, so as to prevent the sewage after the cleaning of the wiping objects from entering the clean water area 111; and a sealing structure can be arranged on the top of the cover body 15 or the clear water area 111 for enhancing the sealing property when the cover body and the clear water area are mutually abutted. Preferably, the wall eaves 16 are detachably mounted on the barrel 11 by a snap connection, so as to facilitate subsequent maintenance. Preferably, the wall eaves 16 enclose the interior of the eaves of the tub 11. With the above scheme, when the wiping material of the rotary mop is placed on the supporting structure 12 for cleaning/dewatering, the cover body 15 is forced to move downwards, so that when the rotary mop rotates at a high speed, the cover body 15 is firmly sealed at the opening end of the clean water area 111, and the sewage squeezed by the wiping material is prevented from flowing into the clean water area 111.

As shown in fig. 4-5 and 8, further, the supporting structure 12 extends upward from the clean water area 111 and is disposed through the cover body 15, wherein the portion of the supporting structure 12 beyond the cover body 15 is disposed with a support stand 121 for matching with the rotating mop. Preferably, bearing structure 12 is including being the back shaft 123 that rotary motion can be done and cup jointing the back shaft 123 surpasss supporting bench 121 on the part of lid 15, wherein, back shaft 123 is arranged in seal cover 124 has been cup jointed to the outside in clear water district 111, prevents that rust scheduling problem appears after back shaft 123 uses for a long time, has prolonged its life. Further, a flat bearing 122 is provided between the support table 121 and the cover 15. Preferably, the cover 15 is provided with a through hole 156 for the support structure 12 to pass through, and the cover 15 is provided with a plane bearing mounting groove 157 for mounting the plane bearing 122 near the through hole 156. By adopting the above scheme, when the rotary mop is arranged on the supporting structure 12 to rotate, the wiping material of the rotary mop is pressed against the plane bearing 122 and pressed on the cover body 15, so that when the rotary mop rotates at a high speed, the cover body 15 cannot displace and shake, water extruded by the wiping material is prevented from polluting the clean water area 111, and the problems of shaking and the like are avoided, so that the structure is more stable.

As shown in fig. 4, fig. 6, and fig. 8, further, the water outlet device 13 includes a water pump 131 disposed in the clean water area 111, and the water pump 131 is communicated with the water outlet 151 of the cover 15. Further, the water outlet 151 is provided with a flow dividing device 152. Preferably, the flow dividing device 152 comprises a boss formed by extending the edge of the water outlet 151 of the cover 15 upwards, the boss is provided with two openings 152-1 which are symmetrically arranged, the water pump 131 can discharge the water pumped out from the clean water area 111 through the two openings 152-1, so that the water is discharged more uniformly, and therefore, the inside and the outside of the wiping object can be sufficiently wetted and cleaned, and the cleaning is more thorough. More preferably, the top of the boss is provided with a through hole 152-2 communicated with the clear water area 111, so that water can be discharged more uniformly.

As shown in fig. 3 and 8, further, a water spraying member 153 is disposed on the cover body 15 at the water outlet 151, and the water spraying member 153 is provided with a plurality of water spraying ports 153-1 for discharging water. Preferably, the water spraying ports 153-1 are arranged on the water spraying member 153 at equal intervals, so that the water is discharged more uniformly. Preferably, the cover body 15 is located at the water outlet 151 thereof, and is provided with a water spraying piece installation groove 158 for installing the water spraying piece 153, and the water spraying piece 153 is connected in the water spraying piece installation groove 158 in a buckling connection manner.

As shown in fig. 1-2 and 4, further, the barrel 11 includes a bottom plate 114 and an outer side wall 115 extending circumferentially along the edge of the bottom plate 114, an inner side wall 116 extending upward is disposed on the bottom plate 114, the inner side wall 116 divides the barrel 11 into a clean water area 111 and a clean water area 111, and the clean water area 111 is formed inside the inner side wall 116 after the inner side wall 116 encloses; wherein the height of the inner sidewall 116 is lower than the height of the outer sidewall 115. Preferably, the inner sidewall 116 is integrally formed on the barrel 11. Preferably, the outer sidewall 115 of the tub 11 is provided with a rotatable handle 17 near its open end. More preferably, the wall eaves 16 is provided with a handle accommodating groove 162 for accommodating the handle 17, so as to accommodate the handle 17; the handle accommodating groove 162 is provided with a plurality of through holes 162-1 communicated with the sewage area 112, and is used for discharging water on the handle 17 to the sewage area 112 so as to ensure the cleanness of the handle 17; meanwhile, the handle 17 extends outwards to form an operation portion 171 convenient to operate, and when the handle 17 is accommodated in the handle accommodating groove 162, the operation portion 171 exceeds the barrel body 11, so that the operation of a user is facilitated.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A rotary mop bucket with separated cleaning is used for cleaning a rotary mop, the rotary mop bucket (1) comprises a bucket body (11), and a clean water area (111) and a sewage area (112) which are mutually separated are arranged in the bucket body (11); a supporting structure (12) for supporting the rotary mop to rotate is arranged in the middle of the barrel body (11), and a water outlet device (13) for spraying clean water to the rotary mop is arranged in the clean water area (111); wherein, be provided with above clear water district (111) with sewage district (112) separate lid (15), its characterized in that: the cover body (15) is buckled on the clean water area (111) and used for isolating sewage thrown down by the mop from flowing to the clean water area (111), and the supporting structure (12) comprises a supporting shaft (123) arranged in the middle of the barrel body (11) and a supporting platform (121) arranged on the cover body (15) and sleeved on the supporting shaft (123).

2. The dirt separation rotary mop bucket of claim 1, wherein: a plane bearing (122) is arranged between the support platform and the cover body (15), and the rotary mop is arranged on the support shaft (123) and pressed on the support platform (121) to rotate.

3. The dirt separation rotary mop bucket of claim 2, further comprising: the opening end of the barrel body (11) is provided with a wall eaves portion (16), any one of the wall eaves portion (16) extends downwards to form an extending wall (161), and the cover body (15) is connected to the extending wall (161) in a sliding mode.

4. The dirt separation rotary mop bucket of claim 1, further comprising: the supporting structure (12) extends upwards from the barrel body (11) and penetrates through the cover body (15), wherein a supporting platform (121) used for matching the rotary mop is arranged on the part, exceeding the cover body (15), of the supporting structure (12).

5. The dirt separation rotary mop bucket of claim 1, further comprising: the water outlet device (13) comprises a water pump (131) arranged in the clear water area (111), and the water pump (131) is communicated with a water outlet (151) of the cover body (15).

6. The dirt separation rotary mop bucket of claim 5, wherein: the water outlet (151) is provided with a flow dividing device (152).

7. The dirt separation rotary mop bucket of claim 5, wherein: the cover body (15) is provided with a water spraying piece (153) at the position of a water outlet (151), and the water spraying piece (153) is provided with a plurality of water spraying ports (153-1) for water outlet.

8. The dirt separation rotary mop bucket of claim 1, further comprising: the barrel body (11) is provided with a water outlet (113) communicated with the sewage area (112).

9. The dirt separation rotary mop bucket of claim 1, further comprising: the barrel body (11) comprises a bottom plate (114) and an outer side wall (115) extending along the circumferential direction of the edge of the bottom plate (114), an inner side wall (116) extending upwards is arranged on the bottom plate (114), the barrel body (11) is divided into a clear water area (111) and a clear water area (111) by the inner side wall (116), and the clear water area (111) is formed in the barrel body after the inner side wall (116) is enclosed; wherein the height of the inner side wall (116) is lower than the height of the outer side wall (115).