CN219661606U - Cleaning anti-pollution mop bucket - Google Patents

Abstract

The utility model relates to the field of cleaning tools, and discloses a cleaning and pollution-preventing mop bucket, which comprises a cleaning water chamber and a squeezing water chamber which are independently arranged, wherein a water through hole communicated with the cleaning water chamber and a sealing piece used for opening and closing the water through hole are arranged on the squeezing water chamber, a smoothing-out extrusion device used for extruding a flat mop head is arranged at the mouth part of the squeezing water chamber, and a linkage mechanism which drives the sealing piece to automatically close the water through hole along with the insertion of the flat mop head and drives the sealing piece to automatically open the water through hole along with the extraction of the flat mop head is arranged on the squeezing water chamber.

Description

Cleaning anti-pollution mop bucket

Technical Field

The utility model relates to the field of cleaning tools, in particular to a cleaning anti-pollution mop bucket.

Background

Some existing flat mops are provided with mop barrels capable of automatically cleaning the flat mops, and the structures of some existing mop barrels generally comprise a cleaning area, a water squeezing area and a sewage area, and as the cleaning area penetrates through the water squeezing area, the cleaning area is polluted for a period of time, so that the cleaning effect of the subsequent mop is reduced.

The Chinese patent with the bulletin number of CN216535207U discloses a flat mop cleaning barrel with efficient dirt removal, which comprises a barrel body, wherein the barrel body comprises a dirt removal dewatering area, a sewage canal and a clear water area which are independently arranged, a water through hole is formed between the clear water area and the dirt removal dewatering area, a switch component and a drainage component are further arranged, the switch component comprises a rotating shaft, a movable plate fixed on the rotating shaft and a sealing plug fixed at one end of the movable plate, the sealing plug is used for opening and closing the water through hole, the drainage component comprises a pressure plate, a connecting rod, a pulling plate, a reset spring, a pull rope and an online structure, the pulling plate is in sliding connection with a god, the pull rope is inserted in the barrel body and is in sliding fit, the connecting mechanism is connected with the switch component and used for linking the drainage component and the switch component, the drainage component drives the switch component to rotate through the connecting mechanism, the connecting mechanism comprises a rotating shaft, a torsion spring and a winding wheel, and one end of the pull rope is wound on the winding wheel.

In the structure, a user needs to manually rotate the adjusting knob to drive the switch assembly to rotate, the forward rotation can drive the sealing plug to open the water hole, and the reverse rotation can drive the sealing plug to close the water hole, so that manual operation is needed before and after each cleaning;

in addition, in the above-mentioned patent, still disclose a mode of opening and close the limbers, namely, the sealing plug is in normally closed state, and after the mop pole washs, need the user to push down the mop pole to the degree of depth that can't reach when wasing to keep the mop pole to push down the state, make the sealing plug pressurized open, this process needs the user to exert down force always, until the water level height in the clean water dewatering zone highly accords with the clear water zone, just can extract the mop, this just needs extra effort and time to realize the reset of clean water dewatering zone water level after just leading to the user washs, and the rising of water level in this zone leads to the final dehydration effect of dull and stereotyped mop not good.

Therefore, the two modes of opening and closing the water through hole disclosed in the above patent require extra effort and time for the user to operate, and have the problem of inconvenient operation.

Disclosure of Invention

Aiming at the defect that the mode of opening and closing the water through holes in the prior art requires extra time and energy for operation by a user, the utility model provides the cleaning anti-pollution mop bucket which can automatically connect and disconnect the cleaning area and the water squeezing area without the extra time and energy of the user.

In order to solve the technical problems, the utility model is solved by the following technical scheme:

the utility model provides a wash anti-pollution mop bucket, includes clear water chamber and the squeezing chamber that independently set up, is provided with on the squeezing chamber with clear water chamber intercommunication the limbers and be used for opening and close the sealing member of limbers, is provided with the smooth out with fingers mouthful extrusion device that is used for squeezing dull and stereotyped mop head at the oral area of squeezing the chamber, is provided with on the squeezing chamber and drives the sealing member self-closing limbers and drives the sealing member self-opening limbers along with the extraction of dull and stereotyped mop head.

By adopting the scheme, the linkage structure is additionally arranged on the squeezing chamber, the linkage of the linkage structure is based on the plugging or pulling out of the flat mop head and the squeezing chamber, namely when the flat mop head is inserted into the squeezing chamber and ascends and descends in the squeezing chamber to clean, the linkage mechanism drives the sealing element to automatically close the water through hole, at the moment, the clear water chamber is blocked from the squeezing chamber, the flat mop head descends to be wetted and is extruded by the ascending and stroking extrusion device to drain, and sewage in the squeezing chamber cannot pollute the clear water chamber in the whole cleaning period; when the flat mop head is pulled out of the squeezing chamber, the linkage mechanism drives the sealing element to open the water hole, at the moment, water in the clear water chamber is supplemented into the squeezing chamber so that the flat mop head is cleaned again, and therefore the sealing element is used for opening and closing the water hole without additional operation of operators, and convenience in operation is improved.

Preferably, the linkage mechanism comprises an elastic piece which drives the sealing piece to be in a state of opening the water hole in a normal state, a sliding block which can slide along the inserting direction perpendicular to the flat mop head is arranged at one side of the squeezing chamber close to the cleaning chamber and higher than the highest water level of the cleaning chamber, one end of the sliding block close to the cleaning chamber extends to the outside of the squeezing chamber, a support is arranged on the outer wall of the squeezing chamber, a lever is hinged to the support, and two ends of the lever are respectively hinged to the sliding block and one end of the sealing piece close to the cleaning chamber.

By adopting the scheme, the sliding blocks and the sealing elements are distributed at the two ends of the lever through the lever principle, when the flat mop head is inserted into the squeezing chamber, the sliding blocks are extruded to drive the sliding blocks to slide towards the direction of the clean water chamber, and then the sealing elements are driven to move towards the direction close to the water through holes, so that the water through holes are closed all the time when the flat mop head is always in a state of squeezing the sliding blocks in the cleaning process of the flat mop head, until the flat mop head is completely separated from the squeezing chamber, the sliding blocks are reset under the action of the elastic elements, the sealing elements reversely move to open the water through holes, and at the moment, water in the clean water chamber can be supplemented into the squeezing chamber.

Preferably, a water through pipe communicated with the water through hole extends on the outer wall of the squeezing chamber, a water through groove is arranged on the outer wall of the water through pipe far away from the squeezing chamber, and in a normal state, the sealing piece is spliced with the water through pipe and seals the water through groove; when the sliding block is inserted and extruded by the flat mop head, the sealing piece is inserted with the water pipe and opens the water trough.

By adopting the scheme, the bidirectional maximum movement travel of the sealing element is realized in the water pipe, the water pipe plays a role in guiding the movement direction of the sealing element, the sealing element can be moved to realize the opening and closing of the water trough, and finally the opening and closing of the water through hole are realized.

Preferably, the slide block slides on the squeezing chamber in a guiding manner through a guiding mechanism, and the guiding mechanism comprises a guiding chute which is arranged on the side wall of the squeezing chamber in a manner of extending along the direction perpendicular to the insertion direction of the flat mop head and guiding blocks which are convexly arranged on two sides of the slide block and can be inserted into and slide along the guiding chute.

By adopting the scheme, the guide sliding groove is matched with the guide block, the bidirectional maximum movement stroke of the limiting sliding block is realized while the guide sliding of the sliding block is realized, and then the bidirectional movement stroke of the sealing element in the water pipe is limited, so that the sealing element is always in a state of being spliced with the water pipe in the movement process, and the normal operation of the function of opening and closing the water hole of the sealing element is ensured.

Preferably, the elastic piece is sleeved on the sliding block, and two ends of the elastic piece are respectively elastically abutted with the guide block and the inner wall of one side of the squeezing chamber, which is close to the clean water chamber.

Preferably, the elastic piece is sleeved outside the water pipe, and two ends of the elastic piece are respectively elastically abutted with the lever and the outer wall of the squeezing chamber.

By adopting the scheme, the elastic parts are arranged in the two modes, so that the sealing part is in a state of opening the water hole in a normal state.

Preferably, one end of the sliding block far away from the clean water chamber is arranged in an outwards convex arc shape.

By adopting the scheme, the arc-shaped arrangement of the sliding block can improve the lifting lubricity of the flat mop head.

Preferably, the seal is a resilient sealing plug.

By adopting the scheme, the elastic sealing plug can improve the sealing performance.

Preferably, a sewage chamber is arranged on one side, far away from the clean water chamber, of the squeezing chamber, the mouth of the squeezing chamber extends to the upper part of the sewage chamber on one side, close to the sewage chamber, of the squeezing chamber, a sewage outlet is arranged on the upper part of the sewage chamber, and the smooth-out extruding device is arranged on the upper part of the sewage outlet.

By adopting the scheme, when the flat mop head is extruded by the stroking port extruding device, extruded sewage can be directly discharged into the sewage chamber from the sewage outlet.

The utility model has the remarkable technical effects due to the adoption of the technical scheme: the linkage structure is additionally arranged on the squeezing chamber, the linkage of the linkage structure is based on the insertion or extraction of the flat mop head and the squeezing chamber, namely when the flat mop head is inserted into the squeezing chamber and ascends and descends in the squeezing chamber to clean, the linkage mechanism drives the sealing element to automatically close the water through hole, at the moment, the clear water chamber and the squeezing chamber are blocked, the flat mop head descends to be wetted and is extruded by the ascending and stroking extrusion device to drain, and sewage in the squeezing chamber cannot pollute the clear water chamber in the whole cleaning period; when the flat mop head is pulled out of the squeezing chamber, the linkage mechanism drives the sealing element to open the water hole, at the moment, water in the clear water chamber is supplemented into the squeezing chamber so that the flat mop head is cleaned again, and therefore the sealing element is used for opening and closing the water hole without additional operation of operators, and convenience in operation is improved.

Drawings

FIG. 1 is a top view of a cleaning anti-contamination mop bucket of example 1;

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

FIG. 3 is an enlarged view of A of FIG. 2;

FIG. 4 is an isometric view of the mop bucket of example 1 with the bucket cover removed;

FIGS. 5 to 6 are perspective views of the squeeze chamber of embodiment 1;

FIG. 7 is a sectional view of a cleaning anti-contamination mop bucket of example 2;

fig. 8 is an enlarged view of B of fig. 7.

The names of the parts indicated by the numerical reference numerals in the above drawings are as follows: 1. a clean water chamber; 2. a squeezing chamber; 3. a sewage chamber; 4. a barrel cover; 5. a stroking extrusion device; 6. a slide block; 7. a lever; 8. a support; 9. a water through hole; 10. a water pipe; 11. a seal; 12. a water passing tank; 13. a sewage outlet; 14. a guide chute; 15. a guide block; 16. an elastic member.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings and examples.

Example 1

The utility model provides a wash anti-pollution mop bucket, refer to fig. 1 and 4, including staving and bung 4, the staving is including clear water chamber 1, squeezing chamber 2 and the sewage room 3 of independent setting, and squeezing chamber 2 is located between clear water chamber 1 and the sewage room 3, and squeezing chamber 2's oral area extends to sewage room 3 top in one side that is close to sewage room 3, and squeezing chamber 2's oral area is provided with drain 13 in sewage room 3 top, is provided with in squeezing chamber 2's oral area in drain 13 top and is used for squeezing flat mop's smooth mouthful extrusion device 5.

The water squeezing chamber 2 is provided with a water through hole 9 communicated with the clean water chamber 1 and a sealing element 11 for opening and closing the water through hole 9, the sealing element 11 is an elastic sealing plug, the outer wall of the water squeezing chamber 2 is extended with a water through pipe 10 communicated with the water through hole 9, the outer wall of the water through pipe 10 far away from the water squeezing chamber 2 is provided with a water through groove 12, the sealing element 11 can move relative to the water through pipe 10 and is always in a state of being spliced with the water through pipe 10, the sealing element 11 can open or close the water through groove 12 by moving, and when the water through groove 12 is opened, the water through hole 9 is opened; when the water tank 12 is closed, the water passage hole 9 is closed.

The device is characterized in that a linkage mechanism for automatically closing the water through hole 9 along with the insertion of the flat mop head to drive the sealing element 11 and automatically opening the water through hole 9 along with the extraction of the flat mop head is arranged on the squeezing chamber 2, and is combined with the structures shown in fig. 2, 3 and 5, the linkage mechanism comprises an elastic element 16 for driving the sealing element 11 to be in a state of opening the water through hole 9 under normal state, the elastic element 16 is a spring, a sliding block 6 capable of sliding along the inserting direction of the flat mop head is arranged at one side, which is close to the squeezing chamber 1, of the squeezing chamber 2 and is higher than the highest water level of the squeezing chamber 1, one end, which is far away from the squeezing chamber 1, of the sliding block 6 is arranged into an arc shape which is convex, the design can promote the lifting lubricity of the flat mop head, so as to achieve the effect of saving effort, one end, which is close to the squeezing chamber 1, of the sliding block 6 extends out of the squeezing chamber 2, the elastic element 16 is sleeved on the sliding block 6, two ends of the sliding block 15 and the inner wall of the squeezing chamber 2 are respectively in elastic abutment with one side inner wall of the squeezing chamber 2, which is close to the squeezing chamber 2, a support 8 is vertically fixed on the outer wall of the squeezing chamber, the support 8 is hinged with a lever 7, the two ends of the sliding block 7 are respectively, the two ends of the sliding block 6 and the sealing element 11 are respectively, and the sealing element 1 are far away from the sealing element 1, and the sliding element 1 are far from the sealing element 1, and the sealing element 1 by the sealing element 1, and the sealing element is far from the sealing element 1, and the sealing element 1 is far from the sealing element.

The slide block 6 slides on the squeezing room 2 through a guiding mechanism, and is combined with the illustration of fig. 6, the guiding mechanism comprises a guiding chute 14 which is arranged on the side wall of the squeezing room 2 along the direction vertical to the insertion direction of the flat mop head, and guiding blocks 15 which are convexly arranged on two sides of the slide block 6 and can be inserted into and slide along the guiding chute 14, the guiding chute 14 is matched with the guiding blocks 15, when the guiding sliding of the slide block 6 is realized, the bidirectional maximum movement stroke of the slide block 6 is limited, and then the bidirectional movement stroke of the sealing element 11 in the water pipe 10 is limited, so that the sealing element 11 is always in a state of being spliced with the water pipe 10 in the movement process, and the normal operation of the function of opening and closing the water hole 9 of the sealing element 11 is ensured.

Working principle: when the flat mop head is inserted into the squeezing chamber 2, the squeezing of the sliding block 6 by the flat mop head drives the sliding block 6 to move to one side close to the clean water chamber 1, the sliding block 6 and the sealing element 11 are connected through the lever 7, the sealing element 11 moves away from the clean water chamber 1, the sealing element 11 moves to the sealing water passing groove 12, the isolation between the clean water chamber 1 and the squeezing chamber 2 is realized, the flat mop head is wetted in the descending process and is squeezed relatively with the squeezing device 5 through the ascending process, the repeated cleaning and squeezing of the flat mop head are realized through the repeated ascending and descending process, the squeezed water is discharged to the sewage chamber 3 through the sewage drain, when sewage cannot be squeezed out again, the flat mop head is cleaned and dried, at the moment, the flat mop head is pulled out, the sliding block 6 is elastically reset, the sealing element 11 automatically moves to the direction close to the clean water chamber 1 until the water passing groove 12 is opened under the action of the lever principle, and clean water in the clean water chamber 1 is supplemented into the squeezing chamber 2 until the water levels of the two chambers are flush.

Example 2

The difference between the present embodiment and the embodiment is that the installation position of the elastic member 16 is different, and referring to fig. 7-8, the elastic member 16 is sleeved outside the water pipe 10, and both ends of the elastic member are respectively elastically abutted against the lever 7 and the outer wall of the squeeze chamber 2.

Claims (9)

1. The utility model provides a wash anti-pollution mop bucket, includes clean water room (1) and the squeezing room (2) that independently set up, be provided with on the squeezing room (2) with clean water room (1) intercommunication's limbers (9) and be used for opening and close sealing member (11) of limbers (9), be provided with in squeezing room (2) oral area and be used for squeezing dull and stereotyped mop head's smooth mouthful extrusion device (5), its characterized in that: the squeezing chamber (2) is provided with a linkage mechanism which drives the sealing element (11) to automatically close the water through hole (9) along with the insertion of the flat mop head and drives the sealing element (11) to automatically open the water through hole (9) along with the extraction of the flat mop head.

2. The cleaning anti-contamination mop bucket of claim 1, wherein: the linkage mechanism comprises an elastic piece (16) which drives a sealing piece (11) to be in a state of opening a water hole (9) under a normal state, a sliding block (6) which can slide along the inserting direction perpendicular to the flat mop head is arranged at one side of the squeezing room (2) close to the cleaning room (1) and higher than the highest water level of the cleaning room (1), one end of the sliding block (6) close to the cleaning room (1) extends out of the squeezing room (2), a support (8) is arranged on the outer wall of the squeezing room (2), a lever (7) is hinged on the support (8), and two ends of the lever (7) are respectively hinged with the sliding block (6) and one end of the sealing piece (11) close to the cleaning room (1).

3. A cleaning anti-contamination mop bucket according to claim 2, wherein: a water through pipe (10) communicated with the water through hole (9) extends on the outer wall of the squeezing chamber (2), a water trough (12) is arranged on the outer wall of the water through pipe (10) far away from the squeezing chamber (2), and in a normal state, a sealing piece (11) is spliced with the water through pipe (10) and seals the water trough (12); when the sliding block (6) is inserted and extruded by the flat mop head, the sealing piece (11) is inserted with the water through pipe (10) and opens the water through groove (12).

4. A cleaning anti-contamination mop bucket according to claim 2, wherein: the sliding block (6) slides on the squeezing room (2) in a guiding way through a guiding mechanism, and the guiding mechanism comprises a guiding chute (14) which is arranged on the side wall of the squeezing room (2) in a way of extending along the direction perpendicular to the insertion direction of the flat mop head, and guiding blocks (15) which are convexly arranged on two sides of the sliding block (6) and can be inserted into and slide along the guiding chute (14).

5. A cleaning anti-contamination mop bucket according to claim 2, wherein: the elastic piece (16) is sleeved on the sliding block (6) and two ends of the elastic piece are respectively elastically abutted with the guide block (15) and the inner wall of one side of the squeezing chamber (2) close to the clean water chamber (1).

6. A cleaning anti-contamination mop bucket according to claim 3, wherein: the elastic piece (16) is sleeved outside the water pipe (10) and two ends of the elastic piece are respectively elastically abutted with the lever (7) and the outer wall of the squeezing chamber (2).

7. A cleaning anti-contamination mop bucket according to claim 2, wherein: one end of the sliding block (6) far away from the clean water chamber (1) is arranged into an outwards convex arc shape.

8. The cleaning anti-contamination mop bucket of claim 1, wherein: the sealing element (11) is an elastic sealing plug.

9. The cleaning anti-contamination mop bucket of claim 1, wherein: one side of the squeezing room (2) away from the clean water room (1) is provided with a sewage room (3), the mouth of the squeezing room (2) extends to the upper part of the sewage room (3) on one side close to the sewage room (3), the mouth of the squeezing room (2) is provided with a sewage outlet (13) above the sewage room (3), and the smooth mouth squeezing device (5) is arranged above the sewage outlet (13).