CN111973105A - Mop bucket kit externally connected with faucet - Google Patents

Abstract

The invention discloses a mop barrel external member externally connected with a faucet, relating to the technical field of cleaning tools and comprising a barrel body and a collodion mop; the collodion mop comprises a mop head, a collodion base and collodion; a driving rack is arranged in the barrel body; the two ends of the collodion base are respectively provided with a semicircular gear; a cleaning brush for brushing the collodion is arranged in the barrel body; the collodion base rotates to enable the collodion to be brushed and brushed by the cleaning brush; a brushing component which can enable the cleaning brush to always abut against the collodion is arranged in the barrel body; the lower end of the track part is rotatably connected with a plurality of wringing rollers for wringing the collodion. The invention is provided with the barrel body, not only can the brushing work be finished, but also the squeezing work can be finished, and the squeezing part is positioned at the bottom of the barrel body, so the design structure is compact; the water inlet and the water outlet are connected with the faucet and the sewage discharge pipe through water pipes, and the barrel body does not need to move and does not need to pour water or add water; the cleaning brush is provided, so that the mop can be automatically cleaned while being rinsed, manual interference is not needed, the operation is labor-saving, and the use is convenient.

Description

Mop bucket kit externally connected with faucet

Technical Field

The invention relates to the technical field of cleaning tools, in particular to a mop bucket kit externally connected with a faucet.

Background

Chinese patent document No. CN208426065U discloses a collodion mop cleaning barrel, which comprises a barrel body, and an extrusion device is arranged above a water storage area of the barrel body and can clamp the collodion of the collodion mop to continuously extrude the collodion mop, so as to further extrude the collodion.

Although above-mentioned patent can wash and wringing out the glued membrane mop, when wasing the glued membrane mop, can not be with the glued membrane sanitization through the washing, the glued membrane often adheres to spot or hair that are difficult to be washed away by water, often needs the manual glued membrane of scrubbing, and often need change the internal water of bucket, above patent can not satisfy daily user demand.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the mop bucket kit which has the functions of automatically brushing the collodion and squeezing the collodion to be dry and does not need manual water changing is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a mop barrel kit externally connected with a faucet comprises a barrel body and a collodion mop; a track part is arranged in the barrel body.

The two ends of the rail part along the length direction are respectively formed with a sliding rail which is longitudinally arranged; the collodion mop comprises a mop head which can be longitudinally connected in the sliding track in a sliding mode and a collodion seat which is rotatably connected in the mop head; one end of the collodion seat, which is far away from the mop head, is fixedly connected with collodion.

The upper parts of two ends of the rail part along the length direction are respectively formed with a driving rack which is longitudinally arranged; and semicircular gears capable of being meshed with the driving racks are formed at two ends of the collodion base respectively.

When the semicircular gear is meshed with the driving rack, the mop head moves downwards, and the collodion cotton seat rotates forwards; the mop head moves upwards, and the collodion cotton seat rotates reversely.

A cleaning brush which can be abutted against the collodion and is used for scrubbing the collodion is arranged in the barrel body; the collodion base rotates so that the collodion is brushed by the cleaning brush.

The barrel body is internally provided with a brushing assembly which can drive the cleaning brush to longitudinally slide so as to enable the cleaning brush to always abut against the collodion.

The lower end of the track part is rotatably connected with a plurality of wringing rollers used for wringing the collodion along the length direction of the track part.

As a preferable scheme: and when the semicircular gear completely passes through the driving rack downwards, the collodion base rotates for half a circle.

The wringing rollers are symmetrically arranged about the sliding track; when the collodion passes between the wringing rollers, the collodion is compressed and dewatered.

As a preferable scheme: the collodion comprises a water squeezing part close to the collodion seat and a cleaning part far away from the collodion seat.

As a preferable scheme: the brushing assembly comprises a sliding frame longitudinally connected in the barrel in a sliding manner and limiting sliding blocks which are connected to two ends of the sliding frame in the length direction in a sliding manner along the length direction of the sliding frame and are arranged in a centrosymmetric manner; the cleaning brush is fixedly connected to the upper end of the sliding frame.

When the limiting slide block is located at the limit position close to the center of the barrel body, the mop head can abut against the limiting slide block, and the sliding frame is driven to synchronously move downwards.

When the limiting slide block is positioned at the limit position far away from the center of the barrel body, the mop head is not contacted with the limiting slide block.

And a spring used for driving the sliding frame to move upwards is fixedly connected between the lower end of the sliding frame and the bottom in the barrel body and close to the four corners of the sliding frame.

As a preferable scheme: the lower end of the track part is fixedly connected with a spraying part in a sealing way; a water inlet joint is formed at the upper end of the track part; a rectangular water guide groove communicated with the water inlet joint is formed at the lower end of the rail part; the spraying part comprises a spraying plate which is fixedly connected with the lower end of the water chute in a sealing way.

The spraying plate is positioned under the water guide groove and is respectively and uniformly formed with a plurality of spraying openings communicated with the water guide groove along the length direction of the barrel body; the spraying plate is located under the spraying port along the length direction of the rail part and is respectively and rotatably connected with self-resetting driving plates which are arranged in a centrosymmetric mode.

The self-reset driving plate is in transmission connection with the limiting sliding block respectively.

When the spraying port is sprayed out without water, the self-resetting driving plate is located at a first limit position, and the limiting sliding block is located at a limit position far away from the center of the barrel body.

When water is sprayed out of the spraying opening, the self-resetting driving plate is driven by the water to rotate forwards to a second limit position, and the limiting sliding block is located at the limit position close to the center of the barrel body; when the water spraying from the spraying port is stopped, the self-resetting driving plate automatically returns to the first limit position.

As a preferable scheme: and a water outlet joint communicated with the interior of the barrel body and used for enabling water in the barrel body to flow out is formed at the lower part of the outer wall of the barrel body.

As a preferable scheme: guide plates which are longitudinally connected with the sliding rail in a sliding mode are formed at two ends of the mop head respectively.

As a preferable scheme: locking holes are formed in the end face, far away from the collodion, of the collodion seat and close to the semicircular gear respectively.

Two ends of the mop head are respectively and rotatably connected with a self-resetting locking rod; a locking head capable of being clamped with the locking hole is formed at the end part of the self-resetting locking rod; a shifting block is formed at the other end of the self-resetting locking rod; and an unlocking slope used for driving the shifting block to rotate inwards is formed at the upper end of each sliding track.

In a natural state, the locking head is positioned in the locking hole, and the collodion base is fixed relative to the mop head.

When the shifting block abuts against the unlocking slope and is pressed downwards, the shifting block rotates inwards, the locking head leaves the locking hole, and the collodion base can rotate relative to the mop head.

When the shifting block is separated from the unlocking slope, the self-resetting locking rod automatically returns to the original position.

Compared with the prior art, the invention has the beneficial effects that: in an initial state, the locking head is positioned in the locking hole, and the self-resetting driving plate is vertical to the water guide plate; the limiting slide block is located at the limit position of the inner side of the sliding groove, and the brushing assembly is located at the limit position of the upper end. When the water faucet is used, the barrel body is placed on a horizontal plane, the water inlet connector is connected with the water faucet through the water pipe, and the water outlet connector is connected with the water drainage pipe through the water pipe.

When the product is used for scrubbing, the faucet is opened, water enters the water guide groove through the water inlet connector and then is sprayed out from the spraying opening, and the sprayed water falls into the bottom of the barrel body and flows into the drain pipe through the water outlet connector. Water sprayed from the spraying port drives the self-resetting drive plate to rotate in the forward direction, so that the drive gear drives the driven gear to rotate, the transmission gear rotates, and the transmission rack is driven to slide to one side close to the transmission gear. The driving head slides along the driven chute, so that the limiting sliding block slides towards the barrel body. The mop pole is held to hand, puts into the bucket with the mop head, makes the deflector get into the slip track, and at this moment, from spraying mouthful spun water and spouting to the glued membrane through the direction of water guide plate and from the reset drive plate for the glued membrane is soaked by the quilt and is washed simultaneously. The mop head is pressed down through the mop rod, the unlocking slope is abutted to the shifting block and enables the shifting block to rotate towards the inner side, the locking head leaves the locking hole, and the collodion base can rotate relative to the mop head. The mop head is continuously pressed downwards, the guide plate is abutted to the limiting sliding block, the sliding frame is driven to synchronously move downwards while the mop head moves downwards, and meanwhile, the spring enters a compressed state. When the semicircular gear is meshed with the driving rack in the process of pressing the mop head down to the lower end limit position, the mop head moves downwards, and the collodion base rotates forwards; the mop head moves upwards, and the collodion base rotates reversely. The mop head is lifted up through the mop rod, the sliding frame moves upwards under the elastic force of the spring, and the collodion seat always abuts against the cleaning brush in the rotating process, so that the collodion is scrubbed. The mop head is pressed down for multiple times to enable the collodion to be cleaned, and the mop head is lifted up to enable the sliding frame to be located at the upper end limit position. And when the faucet is closed, the self-resetting driving plate reversely rotates to the original position under the action of the elastic force of the torsion spring, so that the limiting slide block slides to the limit position towards the outer side of the barrel body, and the guide plate does not abut against the limiting slide block in the downward movement process.

When the mop is used for squeezing, the mop rod is held to press the mop head down, so that the mop head completely passes through the driving rack, the driving rack is meshed with the semicircular gear to enable the collodion seat to rotate for half a circle, and the collodion seat is positioned right below the collodion. The mop head is continuously pressed down to enable the collodion to pass through the squeezing rollers, the adjacent transverse distance between the squeezing rollers is smaller than the transverse width of the collodion at the moment, the collodion is compressed and dehydrated when passing through the squeezing rollers, and the squeezed water falls down to the bottom of the barrel body and flows into the drain pipe through the water outlet joint. The mop head is pressed down and lifted for a plurality of times, and the collodion passes through the wringing roller to be wrung. The mop rod is held to lift up, the mop head is taken out, when the unlocking slope is separated from the shifting block, the shifting block rotates to the limit position to the outer side under the elastic action of the torsional spring, the locking head returns to the locking hole again, the collodion seat cannot rotate relative to the mop head, and the collodion mop can be used for cleaning.

According to the invention, through the design of the self-resetting locking rod, when the self-resetting locking rod is in a natural state, the locking head is positioned in the locking hole, the collodion base cannot rotate relative to the mop head, and the collodion mop can be used for cleaning; when the self-resetting locking rod is abutted to the inner wall of the sliding groove, the shifting block rotates towards the inner side, the locking head leaves the locking hole, the collodion base can rotate relative to the mop head, and the collodion mop can be scrubbed or squeezed.

According to the invention, through the design of the limiting part, when the self-resetting drive plate is in a natural state, the limiting slide block is positioned at the limit position at the inner side of the sliding groove, the mop head does not abut against the limiting slide block in the downward movement process, when the self-resetting drive plate is driven to rotate to the limit position by water sprayed from the spray opening, the drive rack is driven to slide close to the drive gear through the transmission of the driven gear and the drive gear, the limiting slide block further slides to the limit position along the sliding groove outwards, the sliding frame and the mop head synchronously move due to the abutting of the mop head in the downward movement process, and then the cleaning brush is ensured to always abut against the collodion, so that the.

According to the invention, through the design of the spray plate, water sprayed from the spray port can drive the self-resetting drive plate to rotate, so that the limiting slide block slides outwards, and can also wash collodion, so that the collodion is washed and soaked.

According to the invention, through the design of the brushing component, the collodion mop can be placed into the barrel body for rinsing, and simultaneously, the cleaning brush can rotate relative to the collodion, so that the collodion brushing work is further completed, no new step is added, manual interference is not needed, and stains or hairs attached to the collodion and not easy to wash away by water can be removed.

The invention is provided with the barrel body, not only can the brushing work be finished, but also the squeezing work can be finished, and the squeezing part is positioned at the bottom of the barrel body, so that the height of the barrel body is low, and the design structure is compact; the water inlet and the water outlet of the invention are connected with the tap and the sewage discharge pipe through the water pipe, the barrel body does not need to move, and water pouring and adding are not needed, thus saving the operation and being convenient to use; this product possesses the cleaning brush, when rinsing the mop, the collodion rotates with the cleaning brush relatively, accomplishes automatically and scrubs, does not increase operating procedure, need not manual interference, convenient operation.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic exploded view of the present invention.

Fig. 4 and 5 are schematic structural views of the rail portion of the present invention.

FIG. 6 is an exploded view of the brush assembly of the present invention.

Fig. 7 is an exploded view of the limit slider and the transmission part of the present invention.

Fig. 8 is an exploded view of the spray part of the present invention.

Fig. 9 is a schematic structural view of the shower plate of the present invention.

Fig. 10 is a schematic structural view of the gelatin cotton seat of the invention.

Fig. 11 is a schematic view of a mop head of the present invention.

Fig. 12 is a schematic structural view of the self-resetting locking lever of the present invention.

Fig. 13 is a schematic structural view of the limiting slide block of the invention at the inner limit position.

Fig. 14 is a schematic structural view of the limiting slide block of the invention in the outer limit position.

Fig. 15 is a schematic structural view showing an operating state of the brushing function of the present invention.

Fig. 16 is a schematic structural view of the operation state of the wringing function of the present invention.

Fig. 17 is a schematic structural view of the locking of the self-resetting locking lever of the present invention.

Fig. 18 is a schematic view of the opening of the self-resetting locking lever of the present invention.

1. A barrel body; 11. a water outlet joint; 2. a rail portion; 21. a water inlet joint; 22. a sliding track; 221. unlocking the slope; 23. a drive rack; 24. rotating the hole; 25. a water chute; 3. a brushing assembly; 31. a carriage; 311. a sliding groove; 312. a slide through hole; 313. a cleaning brush mounting base; 314. a transmission bin; 32. a limiting slide block; 321. a driven chute; 33. a cleaning brush; 331. cleaning brush mounting ears; 34. a cover plate; 35. a spring; 36. a transmission section; 361. a driven shaft; 3611. a driven gear; 362. a transmission gear; 363. a drive rack; 3631. a drive head; 4. a spraying part; 41. a spray plate; 411. a slide bar; 412. a spray port; 413. a water guide plate; 42. a self-resetting drive plate; 421. a drive gear; 5. a wringing roller; 6. a collodion mop; 61. a mop head; 611. a guide plate; 62. a collodion base; 621. a semi-circular gear; 622. a locking hole; 63. collodion cotton; 631. a cleaning section; 632. a water squeezing part; 64. a self-resetting locking rod; 641. a locking head; 642. shifting blocks; 65. a mop rod.

Detailed Description

Example 1

Referring to fig. 1 to 18, the mop bucket kit with the external faucet of the present embodiment includes a bucket body 1 and a collodion mop 6; the barrel body 1 is internally provided with a track part 2.

The two ends of the rail part 2 along the length direction are respectively provided with a sliding rail 22 which is arranged longitudinally; the collodion mop 6 comprises a mop head 61 which can be longitudinally connected in the sliding track 22 in a sliding way and a collodion base 62 which is rotatably connected in the mop head 61; one end of the collodion base 62 far away from the mop head 61 is fixedly connected with collodion 63.

One end of the mop head 61, which is far away from the collodion seat 62, is fixedly connected with a mop rod 65; the mop head 61 is brushed or wrung by holding the mop rod 65.

The upper parts of two ends of the track part 2 along the length direction are respectively formed with a driving rack 23 which is arranged longitudinally; and semicircular gears 621 capable of being meshed with the driving rack 23 are respectively formed at two ends of the collodion base 62.

When the semi-circular gear 621 is engaged with the driving rack 23, the mop head 61 moves downwards, and the collodion base 62 rotates forwards; the mop head 61 moves upward and the collodion mop 62 rotates in the opposite direction.

A cleaning brush 33 which can be abutted against the collodion 63 and is used for brushing the collodion 63 is arranged in the barrel body 1; the collodion holder 62 rotates so that the collodion 63 is brushed by the cleaning brush 33.

The barrel body 1 is internally provided with a brushing assembly 3 which can drive the cleaning brush 33 to longitudinally slide so that the cleaning brush 33 can always abut against the collodion 63.

The lower end of the track part 2 is rotatably connected with a plurality of wringing rollers 5 used for wringing the collodion 63 along the length direction of the track part 2.

After the semi-circular gear 621 completely passes through the driving rack 23, the collodion seat 62 rotates for half a revolution.

The wringing rollers 5 are arranged symmetrically with respect to the sliding track 22; the collodion 63 is compressed and dewatered as it passes between the wringing rollers 5.

Two ends of the track part 2 in the width direction are respectively formed with a rotating hole 24 which is rotatably connected with the wringing roller 5; the distance between two transversely adjacent wringing rollers 5 is smaller than the transverse thickness of the collodion 63, and then the collodion 63 is compressed and dehydrated when being positioned between the wringing rollers 5.

The collodion 63 comprises a water squeezing part 632 close to the collodion seat 62 and a cleaning part 631 far away from the collodion seat 62.

When the mop head 61 slides downwards to pass between the wringing rollers 5, the included angle between the outer wall of the wringing part 632 and the vertical plane in the length direction of the collodion 63 is smaller than the included angle between the outer wall of the cleaning part 631 and the vertical plane in the length direction of the collodion 63; the wringing portion 632 is easier to enter between the wringing rollers 5, so that the wringing process is more labor-saving and the operation is more convenient.

The brushing assembly 3 comprises a sliding frame 31 longitudinally connected in the barrel body 1 in a sliding manner and limiting sliding blocks 32 which are connected to two ends of the sliding frame 31 in the length direction in a sliding manner along the length direction of the sliding frame 31 and are arranged in a centrosymmetric manner; the cleaning brush 33 is fixedly connected to the upper end of the sliding frame 31.

Sliding grooves 311 which are connected with the limiting sliding blocks 32 in a sliding mode are formed in the two ends of the sliding frame 31 respectively; the slide groove 311 allows the stopper slider 32 to slide only in the longitudinal direction of the slide frame 31.

A cleaning brush mounting seat 313 is formed at the upper end of the sliding frame 31 in the center of the length direction of the sliding frame 31; a cleaning brush mounting lug 331 fixedly connected with the cleaning brush mounting seat 313 is formed on the cleaning brush 33 close to the cleaning brush mounting seat 313.

When the limiting slide block 32 is located at the limit position close to the center of the barrel body 1, the mop head 61 can abut against the limiting slide block 32, and further the sliding frame 31 is driven to synchronously move downwards.

When the limit slide block 32 is located at the limit position far away from the center of the barrel body 1, the mop head 61 is not contacted with the limit slide block 32.

A spring 33 used for driving the sliding frame 31 to move upwards is fixedly connected between the lower end of the sliding frame 31 and the bottom in the barrel body 1 and close to four corners of the sliding frame 31.

The lower end of the track part 2 is fixedly connected with a spraying part 4 in a sealing way; a water inlet joint 21 is formed at the upper end of the track part 2; a rectangular water chute 25 communicated with the water inlet joint 21 is formed at the lower end of the track part 2; the spraying part 4 comprises a spraying plate 41 which is fixedly connected with the lower end of the water chute 25 in a sealing way.

A plurality of spraying ports 412 communicated with the water chute 25 are respectively and uniformly formed on the spraying plate 41 right below the water chute 25 along the length direction of the barrel body 1; the spraying plates 41 are respectively and rotatably connected with self-reset driving plates 42 which are arranged in a central symmetry manner along the length direction of the track part 2 and are positioned under the spraying ports 412.

The self-reset driving plate 42 is in transmission connection with the limiting slide block 32 respectively.

When the spraying port 412 is not sprayed with water, the self-resetting driving plate 42 is located at a first limit position, and the limit slider 32 is located at a limit position far away from the center of the barrel body 1.

When water is sprayed out of the spraying port 412, the self-resetting driving plate 42 is driven by the water to rotate forwards to a second limit position, and the limit slide block 32 is located at the limit position close to the center of the barrel body 1; when the spraying port 412 stops spraying water, the self-resetting driving plate 42 automatically returns to the first limit position.

A water guide plate 413 which is obliquely arranged with the vertical surface and enables water sprayed from the spraying port 412 to be flushed to the middle part of the barrel body 1 is formed at the lower end of the spraying plate 41 along the length direction of the barrel body 1; the water guide plate 413 is positioned above the self-resetting driving plate 42; the water guide plate 413 may concentrate the water flow impulsive force of the self-resetting driving plate 42, and may more easily rotate the self-resetting driving plate 42.

A torsion spring is arranged between the self-resetting driving plate 42 and the water guide plate 413, and when the torsion spring is in a natural state, the water guide plate 413 is perpendicular to the self-resetting driving plate 42.

A sliding rod 411 is formed below the spraying plate 41; the spring 35 is disposed outside the slide bar 411; the sliding frame 31 has sliding through holes 312 formed at the upper end thereof and slidably connected to the sliding rods 411, respectively.

Two ends of the sliding frame 31 along the length direction of the sliding frame 31 are respectively provided with a transmission part 36 which is in transmission connection with the self-reset driving plate 42 and the limiting slide block 32; the ends of the self-resetting driving plate 42 close to the limiting sliding blocks 32 are respectively and fixedly connected with a driving gear 421; the transmission part 36 comprises a driven shaft 361 which is longitudinally connected in the sliding frame 31 in a sliding manner, is connected with the driving gear 421 in a transmission manner and is positioned at the lower end of the outer side of the driving gear; the upper end of the driven shaft 361 is fixedly connected with a driven gear 3611 which is in transmission connection with the driving gear 421.

Two ends of the sliding frame 31 along the length direction of the sliding frame 31 are respectively provided with a transmission gear 362 longitudinally connected with the driven shaft 361 in a sliding manner; the driven shaft 361 has a non-circular cross-section such that the transmission gear 362 and the driven shaft 361 rotate synchronously.

The two ends of the sliding frame 31 along the length direction of the sliding frame 31 are respectively provided with a transmission rack 363 in transmission connection with the transmission gear 362; the driving rack 363 slides along the width direction of the sliding rack 31 and is located outside the driving gear 362.

The limiting slide block 32 is in transmission connection with the transmission rack 363; a driven chute 321 is formed at the upper end of the limiting slide block 32 close to the transmission rack 363; a driving head 3631 slidably connected with the driven chute 321 is formed at the upper end of the driving rack 363 close to the limit sliding block 32.

The sliding frame 31 is provided with transmission bins 314 communicated with the sliding groove 311 at two ends along the length direction of the sliding frame 31; the transmission gear 362 and the transmission rack 363 are positioned in the transmission chamber 314; the upper end of the transmission bin 314 is fixedly connected with a cover plate 34 which closes the transmission bin 314 and the sliding groove 311.

A water outlet joint 11 which is communicated with the interior of the barrel body 1 and is used for leading water in the barrel body 1 to flow out is formed at the lower part of the outer wall of the barrel body 1.

The water outlet joint 11 is connected with a water discharge pipe through a water pipe, water in the barrel body 1 does not need to be poured out, the steps of manual participation are reduced, and time and labor are saved.

Two ends of the mop head 61 are respectively formed with a guide plate 611 connected with the sliding rail 22 in a longitudinal sliding manner.

When the semi-circular gear 621 is engaged with the driving rack 23, the guide plate 611 always abuts against two side walls parallel to the sliding rail 22, so that the engagement process is more stable and the operation is smoother.

When the limit slide block 32 is located at the limit position close to the center of the barrel body 1, the guide plate 611 abuts against the limit slide block 32 during the downward sliding process, so that the mop head 61 and the sliding frame 31 synchronously slide downward.

When the limit slide block 32 is located at the limit position far away from the center of the barrel body 1, the guide plate 611 does not abut against the limit slide block 32 in the downward sliding process, so that the mop head 61 can slide downwards to the bottom of the barrel body 1.

Locking holes 622 are respectively formed in the end face, far away from the collodion 63, of the collodion base 62 and close to the semicircular gear 621.

Two ends of the mop head 61 are respectively and rotatably connected with a self-resetting locking rod 64; a locking head 641 capable of being clamped with the locking hole 622 is formed at the end part of the self-resetting locking rod 64; a shifting block 642 is formed at the other end of the self-resetting locking rod 64; an unlocking slope 221 for driving the shifting block 642 to rotate inwards is formed at the upper end of each sliding track 22.

Naturally, the locking head 641 is located in the locking hole 622, and the collodion holder 62 is fixed relative to the mop head 61.

When the shifting block 642 abuts against the unlocking slope 221 and is pressed downwards, the shifting block 642 rotates inwards, the locking head 641 leaves the locking hole 622, and the collodion base 62 can rotate relative to the mop head 61.

When the dial 642 is separated from the unlocking ramp 221, the self-resetting locking lever 64 automatically returns to the original position.

A torsion spring for resetting the self-resetting locking rod 64 is arranged between the self-resetting locking rod 64 and the mop head 61; when the collodion base 62 and the mop head 61 are fixed relatively, corresponding cleaning and sweeping work is carried out by holding the mop rod 65; when the collodion base 62 and the mop head 61 can rotate freely, the collodion 63 can be brushed or squeezed by holding the mop rod 65.

In an initial state, the locking head 641 is located in the locking hole 622, and the self-resetting driving plate 42 is perpendicular to the water guide plate 413; the limit slide block 32 is located at the limit position inside the slide groove 311, and the brushing assembly 3 is located at the upper end limit position. When the water faucet is used, the barrel body 1 is placed on a horizontal plane, the water inlet connector 21 is connected with the water faucet through a water pipe, and the water outlet connector 11 is connected with a water discharge pipe through a water pipe.

When the product is used for the brushing function, the water tap is opened, so that water enters the water guide groove 25 through the water inlet connector 21 and is further sprayed out from the spraying port 412, and the sprayed water falls into the bottom of the barrel body 1 and flows into the drain pipe through the water outlet connector 11. The water sprayed from the spraying port 412 drives the self-resetting driving plate 42 to rotate in the forward direction, so that the driving gear 421 drives the driven gear 3611 to rotate, the transmission gear 362 rotates, and the transmission rack 363 is driven to slide to the side close to the transmission gear 362. The driving head 3631 slides along the driven chute 321, so that the limit slider 32 slides into the tub 1. The mop rod 65 is held by hand, the mop head 61 is placed in the barrel body 1, the guide plate 611 enters the sliding track 22, at this time, the water sprayed from the spraying port 412 is sprayed to the collodion 63 through the guide of the water guide plate 413 and the self-resetting driving plate 42, and the collodion 63 is soaked and washed at the same time. By pressing the mop head 61 down by the mop rod 65, the unlocking slope 221 abuts against the shifting block 642 and rotates inwards, the locking head 641 leaves the locking hole 622, and the collodion base 62 can rotate relative to the mop head 61. The mop head 61 is further pressed downwards, the guiding plate 611 abuts against the limiting slide block 32, so that the sliding frame 31 is driven to synchronously move downwards while the mop head 61 moves downwards, and meanwhile, the spring 35 enters a compressed state. In the process of pressing the mop head 61 down to the lower end limit position, when the semicircular gear 621 is meshed with the driving rack 23, the mop head 61 moves downwards, and the collodion base 62 rotates forwards; the mop head 61 moves upward and the collodion mop 62 rotates in the opposite direction. By lifting the mop head 61 on the mop rod 65, the sliding frame 31 moves upwards under the elastic force of the spring 35, and the collodion seat 62 always abuts against the cleaning brush 33 in the rotating process, so that the collodion 63 is brushed. The mop head 61 is pressed down several times so that the collodion 63 is brushed clean, and the mop head 61 is lifted up so that the carriage 31 is at the upper end limit position. When the faucet is closed, the self-resetting driving plate 42 reversely rotates to the original position due to the elastic force of the torsion spring, so that the limiting slide block 32 slides to the limit position towards the outer side of the barrel body 1, and at the moment, the guide plate 611 does not abut against the limiting slide block 32 in the downward movement process.

When the product is used for squeezing, the mop rod 65 is held to press the mop head 61 downwards, so that the mop head 61 completely passes through the driving rack 23, the driving rack 23 is meshed with the semicircular gear 621 to enable the collodion base 62 to rotate for a half circle, and the collodion base 62 is positioned under the collodion 63. The mop head 61 is pressed downwards continuously, so that the collodion 63 passes through the squeezing rollers 5, the adjacent transverse distance between the squeezing rollers 5 is smaller than the transverse width of the collodion 63 at the moment, the collodion 63 is compressed and dehydrated when passing through the squeezing rollers 5, and the squeezed water falls down to the bottom of the barrel body 1 and flows into a drain pipe through the water outlet joint 11. The mop head 61 is pressed down and lifted several times, and the collodion 63 is squeezed out by reciprocating through the wringing roller 5. When the mop rod 65 is held and the mop head 61 is taken out, when the unlocking slope 221 is separated from the shifting block 642, the shifting block 642 is rotated outwards to the limit position under the action of the elastic force of the torsion spring, the locking head 641 returns to the locking hole 622 again, the collodion seat 62 cannot rotate relative to the mop head 61, and then the collodion mop 6 can be used for cleaning.

According to the invention, through the design of the self-resetting locking rod 64, when the self-resetting locking rod 64 is in a natural state, the locking head 641 is positioned in the locking hole 622, the collodion base 62 cannot rotate relative to the mop head 61, and the collodion mop 6 can be used for cleaning; when the self-resetting locking rod 64 abuts against the inner wall of the sliding groove 311, the shifting block 642 rotates inwards, the locking head 641 leaves the locking hole 622, the collodion base 62 can rotate relative to the mop head 61, and the collodion mop 6 can be brushed or squeezed.

According to the invention, through the design of the limiting part 32, when the self-resetting drive plate 42 is in a natural state, the limiting slide block 32 is positioned at the inner side limit position of the sliding groove 311, the downward movement process of the mop head 61 does not abut against the limiting slide block 32, when the self-resetting drive plate 42 is driven by water sprayed from the spraying port 412 to rotate to the limit position, the transmission rack is driven by the driven gear 3611 and the transmission gear 362 to slide to be close to the transmission gear 362 sequentially, so that the limiting slide block 32 slides to the limit position along the sliding groove 31 to the outer side, the downward movement process of the mop head 61 abuts against the limiting slide block 32 to enable the sliding frame 31 and the mop head 61 to move synchronously, and then the cleaning brush 33 is ensured to abut against the collodion 63.

According to the invention, through the design of the spraying plate 41, water sprayed from the spraying port 412 can drive the self-resetting driving plate 42 to rotate, so that the limiting slide block 32 slides outwards, and can also wash the collodion 63, so that the collodion 63 is washed and soaked.

According to the invention, through the design of the brushing component 3, the collodion mop 6 is put into the barrel body 1 for rinsing, and simultaneously, the cleaning brush 33 can rotate relative to the collodion 63, so that the brushing work of the collodion 63 is further completed, no new step is added, manual interference is not needed, and stains or hairs attached to the collodion 63 and not easy to wash away by water can be removed.

The invention is provided with the barrel body, not only can the brushing work be finished, but also the squeezing work can be finished, and the squeezing part is positioned at the bottom of the barrel body, so that the height of the barrel body is low, and the design structure is compact; the water inlet and the water outlet of the invention are connected with the tap and the sewage discharge pipe through the water pipe, the barrel body does not need to move, and water pouring and adding are not needed, thus saving the operation and being convenient to use; this product possesses the cleaning brush, when rinsing the mop, the collodion rotates with the cleaning brush relatively, accomplishes automatically and scrubs, does not increase operating procedure, need not manual interference, convenient operation.

Claims (8)

1. A mop barrel kit externally connected with a faucet comprises a barrel body and a collodion mop; the method is characterized in that: a track part is arranged in the barrel body;

the two ends of the rail part along the length direction are respectively formed with a sliding rail which is longitudinally arranged; the collodion mop comprises a mop head which can be longitudinally connected in the sliding track in a sliding mode and a collodion seat which is rotatably connected in the mop head; one end of the collodion base, which is far away from the mop head, is fixedly connected with collodion;

the upper parts of two ends of the rail part along the length direction are respectively formed with a driving rack which is longitudinally arranged; semicircular gears capable of being meshed with the driving racks are formed at two ends of the collodion base respectively;

when the semicircular gear is meshed with the driving rack, the mop head moves downwards, and the collodion cotton seat rotates forwards; the mop head moves upwards, and the collodion cotton seat rotates reversely;

a cleaning brush which can be abutted against the collodion and is used for scrubbing the collodion is arranged in the barrel body; the collodion base rotates to enable the collodion to be brushed by the cleaning brush;

a brushing assembly capable of driving the cleaning brush to longitudinally slide so that the cleaning brush can always abut against the collodion is arranged in the barrel body;

the lower end of the track part is rotatably connected with a plurality of wringing rollers used for wringing the collodion along the length direction of the track part.

2. The external faucet mop bucket kit of claim 1, wherein: when the semicircular gear completely passes through the driving rack downwards, the collodion seat rotates for a half circle;

the wringing rollers are symmetrically arranged about the sliding track; when the collodion passes between the wringing rollers, the collodion is compressed and dewatered.

3. The external faucet mop bucket kit of claim 2, wherein: the collodion comprises a water squeezing part close to the collodion seat and a cleaning part far away from the collodion seat.

4. The external faucet mop bucket kit of claim 1, wherein: the brushing assembly comprises a sliding frame longitudinally connected in the barrel in a sliding manner and limiting sliding blocks which are connected to two ends of the sliding frame in the length direction in a sliding manner along the length direction of the sliding frame and are arranged in a centrosymmetric manner; the cleaning brush is fixedly connected to the upper end of the sliding frame;

when the limiting slide block is positioned at the limit position close to the center of the barrel body, the mop head can abut against the limiting slide block, and the sliding frame is driven to synchronously move downwards;

when the limiting slide block is positioned at the limit position far away from the center of the barrel body, the mop head is not contacted with the limiting slide block;

and a spring used for driving the sliding frame to move upwards is fixedly connected between the lower end of the sliding frame and the bottom in the barrel body and close to the four corners of the sliding frame.

5. An external faucet mop bucket kit as claimed in claim 1 wherein: the lower end of the track part is fixedly connected with a spraying part in a sealing way; a water inlet joint is formed at the upper end of the track part; a rectangular water guide groove communicated with the water inlet joint is formed at the lower end of the rail part; the spraying part comprises a spraying plate which is fixedly connected to the lower end of the water chute in a sealing way;

the spraying plate is positioned under the water guide groove and is respectively and uniformly formed with a plurality of spraying openings communicated with the water guide groove along the length direction of the barrel body; the spraying plate is positioned under the spraying port along the length direction of the track part and is respectively and rotatably connected with self-resetting driving plates which are arranged in a centrosymmetric manner;

the self-reset driving plate is in transmission connection with the limiting sliding block respectively;

when the spraying port is sprayed out without water, the self-resetting driving plate is located at a first limit position, and the limiting sliding block is located at a limit position far away from the center of the barrel body;

when water is sprayed out of the spraying opening, the self-resetting driving plate is driven by the water to rotate forwards to a second limit position, and the limiting sliding block is located at the limit position close to the center of the barrel body; when the water spraying from the spraying port is stopped, the self-resetting driving plate automatically returns to the first limit position.

6. The external faucet mop bucket kit of claim 5, wherein: and a water outlet joint communicated with the interior of the barrel body and used for enabling water in the barrel body to flow out is formed at the lower part of the outer wall of the barrel body.

7. The external faucet mop bucket kit of claim 1, wherein: guide plates which are longitudinally connected with the sliding rail in a sliding mode are formed at two ends of the mop head respectively.

8. The external faucet mop bucket kit of claim 1, wherein: locking holes are respectively formed in the end face, far away from the collodion, of the collodion seat and close to the semicircular gear;

two ends of the mop head are respectively and rotatably connected with a self-resetting locking rod; a locking head capable of being clamped with the locking hole is formed at the end part of the self-resetting locking rod; a shifting block is formed at the other end of the self-resetting locking rod; an unlocking slope used for driving the shifting block to rotate inwards is formed at the upper end of each sliding track;

in a natural state, the locking head is positioned in the locking hole, and the collodion base is fixed relative to the mop head;

when the shifting block abuts against the unlocking slope and is pressed downwards, the shifting block rotates inwards, the locking head leaves the locking hole, and the collodion base can rotate relative to the mop head;

when the shifting block is separated from the unlocking slope, the self-resetting locking rod automatically returns to the original position.

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